-
-
Save simonvandel/6a67b7893f89482b8be2b7ac75a661b6 to your computer and use it in GitHub Desktop.
This file has been truncated, but you can view the full file.
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
| <?xml version="1.0" encoding="utf-8"?> | |
| <device schemaVersion="1.1" xmlns:xs="http://www.w3.org/2001/XMLSchema-instance" xs:noNamespaceSchemaLocation="CMSIS-SVD_Schema_1_1.xsd"> | |
| <name>LPC176x5x</name> | |
| <version>0.2</version> | |
| <description>LPC176x/LPC175x M3</description> | |
| <cpu> | |
| <name>CM3</name> | |
| <revision>r0p0</revision> | |
| <endian>little</endian> | |
| <mpuPresent>1</mpuPresent> | |
| <fpuPresent>0</fpuPresent> | |
| <nvicPrioBits>5</nvicPrioBits> | |
| <vendorSystickConfig>0</vendorSystickConfig> | |
| </cpu> | |
| <headerDefinitionsPrefix>LPC_</headerDefinitionsPrefix> | |
| <addressUnitBits>8</addressUnitBits> | |
| <width>32</width> | |
| <size>32</size> | |
| <!-- | |
| Software that is described herein is for illustrative purposes only | |
| which provides customers with programming information regarding the | |
| products. This software is supplied "AS IS" without any warranties. | |
| NXP Semiconductors assumes no responsibility or liability for the | |
| use of the software, conveys no license or title under any patent, | |
| copyright, or mask work right to the product. NXP Semiconductors | |
| reserves the right to make changes in the software without | |
| notification. NXP Semiconductors also make no representation or | |
| warranty that such application will be suitable for the specified | |
| use without further testing or modification. | |
| --> | |
| <peripherals> | |
| <peripheral> | |
| <name>WDT</name> | |
| <description>Watchdog Timer (WDT) </description> | |
| <groupName>WDT</groupName> | |
| <baseAddress>0x40000000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>WDT</name> | |
| <value>0</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>MOD</name> | |
| <description>Watchdog mode register. This register determines the basic mode and status of the Watchdog Timer.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>WDEN</name> | |
| <description>Watchdog enable bit. This bit is Set Only.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>STOP</name> | |
| <description>The watchdog timer is stopped.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RUN</name> | |
| <description>The watchdog timer is running.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>WDRESET</name> | |
| <description>Watchdog reset enable bit. This bit is Set Only. See Table 652.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORESET</name> | |
| <description>A watchdog timeout will not cause a chip reset.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>A watchdog timeout will cause a chip reset.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>WDTOF</name> | |
| <description>Watchdog time-out flag. Set when the watchdog timer times out, cleared by software.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>WDINT</name> | |
| <description>Watchdog interrupt flag. Cleared by software.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TC</name> | |
| <description>Watchdog timer constant register. The value in this register determines the time-out value.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0xFF</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>Count</name> | |
| <description>Watchdog time-out interval.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>FEED</name> | |
| <description>Watchdog feed sequence register. Writing 0xAA followed by 0x55 to this register reloads the Watchdog timer with the value contained in WDTC.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>Feed</name> | |
| <description>Feed value should be 0xAA followed by 0x55.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TV</name> | |
| <description>Watchdog timer value register. This register reads out the current value of the Watchdog timer.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0xFF</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>Count</name> | |
| <description>Counter timer value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CLKSEL</name> | |
| <description>Watchdog clock select register.</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CLKSEL</name> | |
| <description>Selects source of WDT clock</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>IRC</name> | |
| <description>IRC</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PCLK</name> | |
| <description>Peripheral clock</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RTCOSC</name> | |
| <description>RTC oscillator</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <isDefault>true</isDefault> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[30:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>LOCK</name> | |
| <description>If this bit is set to one writing to this register does not affect bit 0. The clock source can only be changed by first clearing this bit, then writing the new value of bit 0.</description> | |
| <bitRange>[31:31]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>UNLOCKED</name> | |
| <description>This bit is set to 0 on any reset. It cannot be cleared by software.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>LOCKED</name> | |
| <description>Software can set this bit to 1 at any time. Once WDLOCK is set, the bits of this register | |
| cannot be modified.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>TIMER0</name> | |
| <description>Timer0/1/2/3 </description> | |
| <groupName>TIMER0</groupName> | |
| <baseAddress>0x40004000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>TIMER0</name> | |
| <value>1</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>IR</name> | |
| <description>Interrupt Register. The IR can be written to clear interrupts. The IR can be read to identify which of eight possible interrupt sources are pending.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MR0INT</name> | |
| <description>Interrupt flag for match channel 0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>MR1INT</name> | |
| <description>Interrupt flag for match channel 1.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>MR2INT</name> | |
| <description>Interrupt flag for match channel 2.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>MR3INT</name> | |
| <description>Interrupt flag for match channel 3.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>CR0INT</name> | |
| <description>Interrupt flag for capture channel 0 event.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>CR1INT</name> | |
| <description>Interrupt flag for capture channel 1 event.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TCR</name> | |
| <description>Timer Control Register. The TCR is used to control the Timer Counter functions. The Timer Counter can be disabled or reset through the TCR.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CEN</name> | |
| <description>When one, the Timer Counter and Prescale Counter are enabled for counting. When zero, the counters are disabled.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CRST</name> | |
| <description>When one, the Timer Counter and the Prescale Counter are synchronously reset on the next positive edge of PCLK. The counters remain reset until TCR[1] is returned to zero.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:2]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TC</name> | |
| <description>Timer Counter. The 32 bit TC is incremented every PR+1 cycles of PCLK. The TC is controlled through the TCR.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>TC</name> | |
| <description>Timer counter value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PR</name> | |
| <description>Prescale Register. When the Prescale Counter (PC) is equal to this value, the next clock increments the TC and clears the PC.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PM</name> | |
| <description>Prescale counter maximum value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PC</name> | |
| <description>Prescale Counter. The 32 bit PC is a counter which is incremented to the value stored in PR. When the value in PR is reached, the TC is incremented and the PC is cleared. The PC is observable and controllable through the bus interface.</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PC</name> | |
| <description>Prescale counter value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MCR</name> | |
| <description>Match Control Register. The MCR is used to control if an interrupt is generated and if the TC is reset when a Match occurs.</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MR0I</name> | |
| <description>Interrupt on MR0</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_IS_GENERAT</name> | |
| <description>Interrupt is generated when MR0 matches the value in the TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_IS_DISABLE</name> | |
| <description>Interrupt is disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR0R</name> | |
| <description>Reset on MR0</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TC_WILL_BE_RESET_IF_</name> | |
| <description>TC will be reset if MR0 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FEATURE_DISABLED_</name> | |
| <description>Feature disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR0S</name> | |
| <description>Stop on MR0</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TC_AND_PC_WILL_BE_ST</name> | |
| <description>TC and PC will be stopped and TCR[0] will be set to 0 if MR0 matches the TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FEATURE_DISABLED_</name> | |
| <description>Feature disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR1I</name> | |
| <description>Interrupt on MR1</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_IS_GENERAT</name> | |
| <description>Interrupt is generated when MR1 matches the value in the TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_IS_DISABLE</name> | |
| <description>Interrupt is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR1R</name> | |
| <description>Reset on MR1</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TC_WILL_BE_RESET_IF_</name> | |
| <description>TC will be reset if MR1 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FEATURE_DISABLED_</name> | |
| <description>Feature disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR1S</name> | |
| <description>Stop on MR1</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TC_AND_PC_WILL_BE_ST</name> | |
| <description>TC and PC will be stopped and TCR[0] will be set to 0 if MR1 matches the TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FEATURE_DISABLED_</name> | |
| <description>Feature disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR2I</name> | |
| <description>Interrupt on MR2</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_IS_GENERAT</name> | |
| <description>Interrupt is generated when MR2 matches the value in the TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_IS_DISABLE</name> | |
| <description>Interrupt is disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR2R</name> | |
| <description>Reset on MR2</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TC_WILL_BE_RESET_IF_</name> | |
| <description>TC will be reset if MR2 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FEATURE_DISABLED_</name> | |
| <description>Feature disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR2S</name> | |
| <description>Stop on MR2.</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TC_AND_PC_WILL_BE_ST</name> | |
| <description>TC and PC will be stopped and TCR[0] will be set to 0 if MR2 matches the TC</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FEATURE_DISABLED_</name> | |
| <description>Feature disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR3I</name> | |
| <description>Interrupt on MR3</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_IS_GENERAT</name> | |
| <description>Interrupt is generated when MR3 matches the value in the TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_IS_DI</name> | |
| <description>This interrupt is disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR3R</name> | |
| <description>Reset on MR3</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TC_WILL_BE_RESET_IF_</name> | |
| <description>TC will be reset if MR3 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FEATURE_DISABLED_</name> | |
| <description>Feature disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MR3S</name> | |
| <description>Stop on MR3</description> | |
| <bitRange>[11:11]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TC_AND_PC_WILL_BE_ST</name> | |
| <description>TC and PC will be stopped and TCR[0] will be set to 0 if MR3 matches the TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FEATURE_DISABLED_</name> | |
| <description>Feature disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>4</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-3</dimIndex> | |
| <name>MR[%s]</name> | |
| <displayName>MR[%s]</displayName> | |
| <description>Match Register 0. MR0 can be enabled through the MCR to reset the TC, stop both the TC and PC, and/or generate an interrupt every time MR0 matches the TC.</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MATCH</name> | |
| <description>Timer counter match value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CCR</name> | |
| <description>Capture Control Register. The CCR controls which edges of the capture inputs are used to load the Capture Registers and whether or not an interrupt is generated when a capture takes place.</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CAP0RE</name> | |
| <description>Capture on CAPn.0 rising edge</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>A sequence of 0 then 1 on CAPn.0 will cause CR0 to be loaded with the contents of TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP0FE</name> | |
| <description>Capture on CAPn.0 falling edge</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>A sequence of 1 then 0 on CAPn.0 will cause CR0 to be loaded with the contents of TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP0I</name> | |
| <description>Interrupt on CAPn.0 event</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>A CR0 load due to a CAPn.0 event will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP1RE</name> | |
| <description>Capture on CAPn.1 rising edge</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>A sequence of 0 then 1 on CAPn.1 will cause CR1 to be loaded with the contents of TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP1FE</name> | |
| <description>Capture on CAPn.1 falling edge</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>A sequence of 1 then 0 on CAPn.1 will cause CR1 to be loaded with the contents of TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP1I</name> | |
| <description>Interrupt on CAPn.1 event</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>A CR1 load due to a CAPn.1 event will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>2</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-1</dimIndex> | |
| <name>CR[%s]</name> | |
| <displayName>CR[%s]</displayName> | |
| <description>Capture Register 0. CR0 is loaded with the value of TC when there is an event on the CAPn.0 input.</description> | |
| <addressOffset>0x02C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CAP</name> | |
| <description>Timer counter capture value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>EMR</name> | |
| <description>External Match Register. The EMR controls the external match pins.</description> | |
| <addressOffset>0x03C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>EM0</name> | |
| <description>External Match 0. When a match occurs between the TC and MR0, this bit can either toggle, go low, go high, or do nothing, depending on bits 5:4 of this register. This bit can be driven onto a MATn.0 pin, in a positive-logic manner (0 = low, 1 = high).</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>EM1</name> | |
| <description>External Match 1. When a match occurs between the TC and MR1, this bit can either toggle, go low, go high, or do nothing, depending on bits 7:6 of this register. This bit can be driven onto a MATn.1 pin, in a positive-logic manner (0 = low, 1 = high).</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>EM2</name> | |
| <description>External Match 2. When a match occurs between the TC and MR2, this bit can either toggle, go low, go high, or do nothing, depending on bits 9:8 of this register. This bit can be driven onto a MATn.0 pin, in a positive-logic manner (0 = low, 1 = high).</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>EM3</name> | |
| <description>External Match 3. When a match occurs between the TC and MR3, this bit can either toggle, go low, go high, or do nothing, depending on bits 11:10 of this register. This bit can be driven onto a MATn.0 pin, in a positive-logic manner (0 = low, 1 = high).</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>EMC0</name> | |
| <description>External Match Control 0. Determines the functionality of External Match 0.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DO_NOTHING_</name> | |
| <description>Do Nothing.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CLEAR_THE_CORRESPOND</name> | |
| <description>Clear the corresponding External Match bit/output to 0 (MATn.m pin is LOW if pinned out).</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET_THE_CORRESPONDIN</name> | |
| <description>Set the corresponding External Match bit/output to 1 (MATn.m pin is HIGH if pinned out).</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TOGGLE_THE_CORRESPON</name> | |
| <description>Toggle the corresponding External Match bit/output.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EMC1</name> | |
| <description>External Match Control 1. Determines the functionality of External Match 1.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DO_NOTHING_</name> | |
| <description>Do Nothing.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CLEAR_THE_CORRESPOND</name> | |
| <description>Clear the corresponding External Match bit/output to 0 (MATn.m pin is LOW if pinned out).</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET_THE_CORRESPONDIN</name> | |
| <description>Set the corresponding External Match bit/output to 1 (MATn.m pin is HIGH if pinned out).</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TOGGLE_THE_CORRESPON</name> | |
| <description>Toggle the corresponding External Match bit/output.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EMC2</name> | |
| <description>External Match Control 2. Determines the functionality of External Match 2.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DO_NOTHING_</name> | |
| <description>Do Nothing.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CLEAR_THE_CORRESPOND</name> | |
| <description>Clear the corresponding External Match bit/output to 0 (MATn.m pin is LOW if pinned out).</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET_THE_CORRESPONDIN</name> | |
| <description>Set the corresponding External Match bit/output to 1 (MATn.m pin is HIGH if pinned out).</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TOGGLE_THE_CORRESPON</name> | |
| <description>Toggle the corresponding External Match bit/output.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EMC3</name> | |
| <description>External Match Control 3. Determines the functionality of External Match 3.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DO_NOTHING_</name> | |
| <description>Do Nothing.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CLEAR_THE_CORRESPOND</name> | |
| <description>Clear the corresponding External Match bit/output to 0 (MATn.m pin is LOW if pinned out).</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET_THE_CORRESPONDIN</name> | |
| <description>Set the corresponding External Match bit/output to 1 (MATn.m pin is HIGH if pinned out).</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TOGGLE_THE_CORRESPON</name> | |
| <description>Toggle the corresponding External Match bit/output.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CTCR</name> | |
| <description>Count Control Register. The CTCR selects between Timer and Counter mode, and in Counter mode selects the signal and edge(s) for counting.</description> | |
| <addressOffset>0x070</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CTMODE</name> | |
| <description>Counter/Timer Mode This field selects which rising PCLK edges can increment Timer's Prescale Counter (PC), or clear PC and increment Timer Counter (TC). Timer Mode: the TC is incremented when the Prescale Counter matches the Prescale Register.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TIMER_MODE_EVERY_RI</name> | |
| <description>Timer Mode: every rising PCLK edge</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>Counter Mode: TC is incremented on rising edges on the CAP input selected by bits 3:2.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING</name> | |
| <description>Counter Mode: TC is incremented on falling edges on the CAP input selected by bits 3:2.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DUALEDGE</name> | |
| <description>Counter Mode: TC is incremented on both edges on the CAP input selected by bits 3:2.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CINSEL</name> | |
| <description>Count Input Select When bits 1:0 in this register are not 00, these bits select which CAP pin is sampled for clocking. Note: If Counter mode is selected for a particular CAPn input in the TnCTCR, the 3 bits for that input in the Capture Control Register (TnCCR) must be programmed as 000. However, capture and/or interrupt can be selected for the other 3 CAPn inputs in the same timer.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CAPN_0_FOR_TIMERN</name> | |
| <description>CAPn.0 for TIMERn</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CAPN_1_FOR_TIMERN</name> | |
| <description>CAPn.1 for TIMERn</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral derivedFrom="TIMER0"> | |
| <name>TIMER1</name> | |
| <baseAddress>0x40008000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>TIMER1</name> | |
| <value>2</value> | |
| </interrupt> | |
| </peripheral> | |
| <peripheral> | |
| <name>UART0</name> | |
| <description>UART0/2/3 </description> | |
| <groupName>UART0</groupName> | |
| <baseAddress>0x4000C000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>UART0</name> | |
| <value>5</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>RBR</name> | |
| <description>Receiver Buffer Register. Contains the next received character to be read (DLAB =0).</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <readAction>modify</readAction> | |
| <fields> | |
| <field> | |
| <name>RBR</name> | |
| <description>The UARTn Receiver Buffer Register contains the oldest received byte in the UARTn Rx FIFO.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>THR</name> | |
| <description>Transmit Holding Regiter. The next character to be transmitted is written here (DLAB =0).</description> | |
| <alternateRegister>RBR</alternateRegister> | |
| <addressOffset>0x000</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>THR</name> | |
| <description>Writing to the UARTn Transmit Holding Register causes the data to be stored in the UARTn transmit FIFO. The byte will be sent when it reaches the bottom of the FIFO and the transmitter is available.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DLL</name> | |
| <description>Divisor Latch LSB. Least significant byte of the baud rate divisor value. The full divisor is used to generate a baud rate from the fractional rate divider (DLAB =1).</description> | |
| <alternateRegister>RBR</alternateRegister> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x01</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DLLSB</name> | |
| <description>The UARTn Divisor Latch LSB Register, along with the UnDLM register, determines the baud rate of the UARTn.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DLM</name> | |
| <description>Divisor Latch MSB. Most significant byte of the baud rate divisor value. The full divisor is used to generate a baud rate from the fractional rate divider (DLAB =1).</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DLMSB</name> | |
| <description>The UARTn Divisor Latch MSB Register, along with the U0DLL register, determines the baud rate of the UARTn.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IER</name> | |
| <description>Interrupt Enable Register. Contains individual interrupt enable bits for the 7 potential UART interrupts (DLAB =0).</description> | |
| <alternateRegister>DLM</alternateRegister> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RBRIE</name> | |
| <description>RBR Interrupt Enable. Enables the Receive Data Available interrupt for UARTn. It also controls the Character Receive Time-out interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_THE_RDA_INTE</name> | |
| <description>Disable the RDA interrupts.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_THE_RDA_INTER</name> | |
| <description>Enable the RDA interrupts.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>THREIE</name> | |
| <description>THRE Interrupt Enable. Enables the THRE interrupt for UARTn. The status of this can be read from UnLSR[5].</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_THE_THRE_INT</name> | |
| <description>Disable the THRE interrupts.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_THE_THRE_INTE</name> | |
| <description>Enable the THRE interrupts.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RXIE</name> | |
| <description>RX Line Status Interrupt Enable. Enables the UARTn RX line status interrupts. The status of this interrupt can be read from UnLSR[4:1].</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_THE_RX_LINE_</name> | |
| <description>Disable the RX line status interrupts.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_THE_RX_LINE_S</name> | |
| <description>Enable the RX line status interrupts.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[7:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABEOINTEN</name> | |
| <description>Enables the end of auto-baud interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_END_OF_AUTO_</name> | |
| <description>Disable end of auto-baud Interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_END_OF_AUTO_B</name> | |
| <description>Enable end of auto-baud Interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ABTOINTEN</name> | |
| <description>Enables the auto-baud time-out interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_AUTO_BAUD_TI</name> | |
| <description>Disable auto-baud time-out Interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_AUTO_BAUD_TIM</name> | |
| <description>Enable auto-baud time-out Interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:10]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IIR</name> | |
| <description>Interrupt ID Register. Identifies which interrupt(s) are pending.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x01</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>INTSTATUS</name> | |
| <description>Interrupt status. Note that UnIIR[0] is active low. The pending interrupt can be determined by evaluating UnIIR[3:1].</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>AT_LEAST_ONE_INTERRU</name> | |
| <description>At least one interrupt is pending.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>NO_INTERRUPT_IS_PEND</name> | |
| <description>No interrupt is pending.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>INTID</name> | |
| <description>Interrupt identification. UnIER[3:1] identifies an interrupt corresponding to the UARTn Rx or TX FIFO. All other combinations of UnIER[3:1] not listed below are reserved (000,100,101,111).</description> | |
| <bitRange>[3:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>1_RECEIVE_LINE_S</name> | |
| <description>1 - Receive Line Status (RLS).</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>2A__RECEIVE_DATA_AV</name> | |
| <description>2a - Receive Data Available (RDA).</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>2B__CHARACTER_TIME_</name> | |
| <description>2b - Character Time-out Indicator (CTI).</description> | |
| <value>0x6</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>3_THRE_INTERRUPT</name> | |
| <description>3 - THRE Interrupt</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[5:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>FIFOENABLE</name> | |
| <description>Copies of UnFCR[0].</description> | |
| <bitRange>[7:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABEOINT</name> | |
| <description>End of auto-baud interrupt. True if auto-baud has finished successfully and interrupt is enabled.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABTOINT</name> | |
| <description>Auto-baud time-out interrupt. True if auto-baud has timed out and interrupt is enabled.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:10]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>FCR</name> | |
| <description>FIFO Control Register. Controls UART FIFO usage and modes.</description> | |
| <alternateRegister>IIR</alternateRegister> | |
| <addressOffset>0x008</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>FIFOEN</name> | |
| <description>FIFO Enable.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>UARTN_FIFOS_ARE_DISA</name> | |
| <description>UARTn FIFOs are disabled. Must not be used in the application.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE_HIGH_ENABLE_F</name> | |
| <description>Active high enable for both UARTn Rx and TX FIFOs and UnFCR[7:1] access. This bit must be set for proper UART operation. Any transition on this bit will automatically clear the related UART FIFOs.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RXFIFORES</name> | |
| <description>RX FIFO Reset.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_IMPACT_ON_EITHER_</name> | |
| <description>No impact on either of UARTn FIFOs.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>WRITING_A_LOGIC_1_TO</name> | |
| <description>Writing a logic 1 to UnFCR[1] will clear all bytes in UARTn Rx FIFO, reset the pointer logic. This bit is self-clearing.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TXFIFORES</name> | |
| <description>TX FIFO Reset.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_IMPACT_ON_EITHER_</name> | |
| <description>No impact on either of UARTn FIFOs.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>WRITING_A_LOGIC_1_TO</name> | |
| <description>Writing a logic 1 to UnFCR[2] will clear all bytes in UARTn TX FIFO, reset the pointer logic. This bit is self-clearing.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DMAMODE</name> | |
| <description>DMA Mode Select. When the FIFO enable (bit 0 of this register) is set, this bit selects the DMA mode. See Section 18.6.6.1.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[5:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RXTRIGLVL</name> | |
| <description>RX Trigger Level. These two bits determine how many receiver UARTn FIFO characters must be written before an interrupt or DMA request is activated.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TRIGGER_LEVEL_0_1_C</name> | |
| <description>Trigger level 0 (1 character or 0x01).</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRIGGER_LEVEL_1_4_C</name> | |
| <description>Trigger level 1 (4 characters or 0x04).</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRIGGER_LEVEL_2_8_C</name> | |
| <description>Trigger level 2 (8 characters or 0x08).</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRIGGER_LEVEL_3_14_</name> | |
| <description>Trigger level 3 (14 characters or 0x0E).</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>LCR</name> | |
| <description>Line Control Register. Contains controls for frame formatting and break generation.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>WLS</name> | |
| <description>Word Length Select.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>5_BIT_CHARACTER_LENG</name> | |
| <description>5-bit character length</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>6_BIT_CHARACTER_LENG</name> | |
| <description>6-bit character length</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>7_BIT_CHARACTER_LENG</name> | |
| <description>7-bit character length</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>8_BIT_CHARACTER_LENG</name> | |
| <description>8-bit character length</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SBS</name> | |
| <description>Stop Bit Select</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>1_STOP_BIT_</name> | |
| <description>1 stop bit.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>2_STOP_BITS_1_5_IF_</name> | |
| <description>2 stop bits (1.5 if UnLCR[1:0]=00).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PE</name> | |
| <description>Parity Enable.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_PARITY_GENER</name> | |
| <description>Disable parity generation and checking.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_PARITY_GENERA</name> | |
| <description>Enable parity generation and checking.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PS</name> | |
| <description>Parity Select</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ODD_PARITY_NUMBER_O</name> | |
| <description>Odd parity. Number of 1s in the transmitted character and the attached parity bit will be odd.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EVEN_PARITY_NUMBER_</name> | |
| <description>Even Parity. Number of 1s in the transmitted character and the attached parity bit will be even.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FORCED_1_STICK_PARIT</name> | |
| <description>Forced 1 stick parity.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FORCED_0_STICK_PARIT</name> | |
| <description>Forced 0 stick parity.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>BC</name> | |
| <description>Break Control</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_BREAK_TRANSM</name> | |
| <description>Disable break transmission.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_BREAK_TRANSMI</name> | |
| <description>Enable break transmission. Output pin UARTn TXD is forced to logic 0 when UnLCR[6] is active high.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DLAB</name> | |
| <description>Divisor Latch Access Bit</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_ACCESS_TO_DI</name> | |
| <description>Disable access to Divisor Latches.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_ACCESS_TO_DIV</name> | |
| <description>Enable access to Divisor Latches.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>LSR</name> | |
| <description>Line Status Register. Contains flags for transmit and receive status, including line errors.</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x60</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <readAction>modify</readAction> | |
| <fields> | |
| <field> | |
| <name>RDR</name> | |
| <description>Receiver Data Ready. UnLSR[0] is set when the UnRBR holds an unread character and is cleared when the UARTn RBR FIFO is empty.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>EMPTY</name> | |
| <description>The UARTn receiver FIFO is empty.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>NOTEMPTY</name> | |
| <description>The UARTn receiver FIFO is not empty.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>OE</name> | |
| <description>Overrun Error. The overrun error condition is set as soon as it occurs. An UnLSR read clears UnLSR[1]. UnLSR[1] is set when UARTn RSR has a new character assembled and the UARTn RBR FIFO is full. In this case, the UARTn RBR FIFO will not be overwritten and the character in the UARTn RSR will be lost.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INACTIVE</name> | |
| <description>Overrun error status is inactive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE</name> | |
| <description>Overrun error status is active.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PE</name> | |
| <description>Parity Error. When the parity bit of a received character is in the wrong state, a parity error occurs. An UnLSR read clears UnLSR[2]. Time of parity error detection is dependent on UnFCR[0]. Note: A parity error is associated with the character at the top of the UARTn RBR FIFO.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INACTIVE</name> | |
| <description>Parity error status is inactive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE</name> | |
| <description>Parity error status is active.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>FE</name> | |
| <description>Framing Error. When the stop bit of a received character is a logic 0, a framing error occurs. An UnLSR read clears UnLSR[3]. The time of the framing error detection is dependent on UnFCR[0]. Upon detection of a framing error, the Rx will attempt to resynchronize to the data and assume that the bad stop bit is actually an early start bit. However, it cannot be assumed that the next received byte will be correct even if there is no Framing Error. Note: A framing error is associated with the character at the top of the UARTn RBR FIFO.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INACTIVE</name> | |
| <description>Framing error status is inactive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE</name> | |
| <description>Framing error status is active.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>BI</name> | |
| <description>Break Interrupt. When RXDn is held in the spacing state (all zeroes) for one full character transmission (start, data, parity, stop), a break interrupt occurs. Once the break condition has been detected, the receiver goes idle until RXDn goes to marking state (all ones). An UnLSR read clears this status bit. The time of break detection is dependent on UnFCR[0]. Note: The break interrupt is associated with the character at the top of the UARTn RBR FIFO.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INACTIVE</name> | |
| <description>Break interrupt status is inactive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE</name> | |
| <description>Break interrupt status is active.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>THRE</name> | |
| <description>Transmitter Holding Register Empty. THRE is set immediately upon detection of an empty UARTn THR and is cleared on a UnTHR write.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>VALIDDATA</name> | |
| <description>UnTHR contains valid data.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EMPTY</name> | |
| <description>UnTHR is empty.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TEMT</name> | |
| <description>Transmitter Empty. TEMT is set when both UnTHR and UnTSR are empty; TEMT is cleared when either the UnTSR or the UnTHR contain valid data.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>VALIDDATA</name> | |
| <description>UnTHR and/or the UnTSR contains valid data.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EMPTY</name> | |
| <description>UnTHR and the UnTSR are empty.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RXFE</name> | |
| <description>Error in RX FIFO . UnLSR[7] is set when a character with a Rx error such as framing error, parity error or break interrupt, is loaded into the UnRBR. This bit is cleared when the UnLSR register is read and there are no subsequent errors in the UARTn FIFO.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NOERROR</name> | |
| <description>UnRBR contains no UARTn RX errors or UnFCR[0]=0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ERRORS</name> | |
| <description>UARTn RBR contains at least one UARTn RX error.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SCR</name> | |
| <description>Scratch Pad Register. 8-bit temporary storage for software.</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PAD</name> | |
| <description>A readable, writable byte.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ACR</name> | |
| <description>Auto-baud Control Register. Contains controls for the auto-baud feature.</description> | |
| <addressOffset>0x020</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>START</name> | |
| <description>Start bit. This bit is automatically cleared after auto-baud completion.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>AUTO_BAUD_STOP_AUTO</name> | |
| <description>Auto-baud stop (auto-baud is not running).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AUTO_BAUD_START_AUT</name> | |
| <description>Auto-baud start (auto-baud is running). Auto-baud run bit. This bit is automatically cleared after auto-baud completion.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MODE</name> | |
| <description>Auto-baud mode select bit.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MODE_0_</name> | |
| <description>Mode 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MODE_1_</name> | |
| <description>Mode 1.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>AUTORESTART</name> | |
| <description>Restart bit.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_RESTART_</name> | |
| <description>No restart.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESTART_IN_CASE_OF_T</name> | |
| <description>Restart in case of time-out (counter restarts at next UARTn Rx falling edge)</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[7:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABEOINTCLR</name> | |
| <description>End of auto-baud interrupt clear bit (write-only accessible). Writing a 1 will clear the corresponding interrupt in the UnIIR. Writing a 0 has no impact.</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_IMPACT_</name> | |
| <description>No impact.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CLEAR_THE_CORRESPOND</name> | |
| <description>Clear the corresponding interrupt in the IIR.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ABTOINTCLR</name> | |
| <description>Auto-baud time-out interrupt clear bit (write-only accessible). Writing a 1 will clear the corresponding interrupt in the UnIIR. Writing a 0 has no impact.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_IMPACT_</name> | |
| <description>No impact.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CLEAR_THE_CORRESPOND</name> | |
| <description>Clear the corresponding interrupt in the IIR.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:10]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>FDR</name> | |
| <description>Fractional Divider Register. Generates a clock input for the baud rate divider.</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x10</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DIVADDVAL</name> | |
| <description>Baud-rate generation pre-scaler divisor value. If this field is 0, fractional baud-rate generator will not impact the UARTn baudrate.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>MULVAL</name> | |
| <description>Baud-rate pre-scaler multiplier value. This field must be greater or equal 1 for UARTn to operate properly, regardless of whether the fractional baud-rate generator is used or not.</description> | |
| <bitRange>[7:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TER</name> | |
| <description>Transmit Enable Register. Turns off UART transmitter for use with software flow control.</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x80</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[6:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TXEN</name> | |
| <description>When this bit is 1, as it is after a Reset, data written to the THR is output on the TXD pin as soon as any preceding data has been sent. If this bit is cleared to 0 while a character is being sent, the transmission of that character is completed, but no further characters are sent until this bit is set again. In other words, a 0 in this bit blocks the transfer of characters from the THR or TX FIFO into the transmit shift register. Software implementing software-handshaking can clear this bit when it receives an XOFF character (DC3). Software can set this bit again when it receives an XON (DC1) character.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RS485CTRL</name> | |
| <description>RS-485/EIA-485 Control. Contains controls to configure various aspects of RS-485/EIA-485 modes.</description> | |
| <addressOffset>0x04C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>NMMEN</name> | |
| <description>NMM enable.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>RS-485/EIA-485 Normal Multidrop Mode (NMM) is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLED</name> | |
| <description>RS-485/EIA-485 Normal Multidrop Mode (NMM) is enabled. In this mode, an address is detected when a received byte has the parity bit = 1, generating a received data interrupt. See Section 18.6.16 RS-485/EIA-485 modes of operation.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RXDIS</name> | |
| <description>Receiver enable.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLED</name> | |
| <description>The receiver is enabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>The receiver is disabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>AADEN</name> | |
| <description>AAD enable.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Auto Address Detect (AAD) is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLED</name> | |
| <description>Auto Address Detect (AAD) is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>DCTRL</name> | |
| <description>Direction control enable.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_AUTO_DIRECTI</name> | |
| <description>Disable Auto Direction Control.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_AUTO_DIRECTIO</name> | |
| <description>Enable Auto Direction Control.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>OINV</name> | |
| <description>Direction control pin polarity. This bit reverses the polarity of the direction control signal on the Un_OE pin.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DIRLOW</name> | |
| <description>The direction control pin will be driven to logic 0 when the transmitter has data to be sent. It will be driven to logic 1 after the last bit of data has been transmitted.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DIRHIGH</name> | |
| <description>The direction control pin will be driven to logic 1 when the transmitter has data to be sent. It will be driven to logic 0 after the last bit of data has been transmitted.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RS485ADRMATCH</name> | |
| <description>RS-485/EIA-485 address match. Contains the address match value for RS-485/EIA-485 mode.</description> | |
| <addressOffset>0x050</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>ADRMATCH</name> | |
| <description>Contains the address match value.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RS485DLY</name> | |
| <description>RS-485/EIA-485 direction control delay.</description> | |
| <addressOffset>0x054</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DLY</name> | |
| <description>Contains the direction control (UnOE) delay value. This register works in conjunction with an 8-bit counter.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>UART1</name> | |
| <description>UART1 </description> | |
| <groupName>UART1</groupName> | |
| <baseAddress>0x40010000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>UART1</name> | |
| <value>6</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>RBR</name> | |
| <description>DLAB =0 Receiver Buffer Register. Contains the next received character to be read.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <readAction>modify</readAction> | |
| <fields> | |
| <field> | |
| <name>RBR</name> | |
| <description>The UART1 Receiver Buffer Register contains the oldest received byte in the UART1 RX FIFO.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>THR</name> | |
| <description>DLAB =0. Transmit Holding Register. The next character to be transmitted is written here.</description> | |
| <alternateRegister>RBR</alternateRegister> | |
| <addressOffset>0x000</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>THR</name> | |
| <description>Writing to the UART1 Transmit Holding Register causes the data to be stored in the UART1 transmit FIFO. The byte will be sent when it reaches the bottom of the FIFO and the transmitter is available.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DLL</name> | |
| <description>DLAB =1. Divisor Latch LSB. Least significant byte of the baud rate divisor value. The full divisor is used to generate a baud rate from the fractional rate divider.</description> | |
| <alternateRegister>RBR</alternateRegister> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x01</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DLLSB</name> | |
| <description>The UART1 Divisor Latch LSB Register, along with the U1DLM register, determines the baud rate of the UART1.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DLM</name> | |
| <description>DLAB =1. Divisor Latch MSB. Most significant byte of the baud rate divisor value. The full divisor is used to generate a baud rate from the fractional rate divider.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DLMSB</name> | |
| <description>The UART1 Divisor Latch MSB Register, along with the U1DLL register, determines the baud rate of the UART1.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IER</name> | |
| <description>DLAB =0. Interrupt Enable Register. Contains individual interrupt enable bits for the 7 potential UART1 interrupts.</description> | |
| <alternateRegister>DLM</alternateRegister> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RBRIE</name> | |
| <description>RBR Interrupt Enable. Enables the Receive Data Available interrupt for UART1. It also controls the Character Receive Time-out interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_THE_RDA_INTE</name> | |
| <description>Disable the RDA interrupts.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_THE_RDA_INTER</name> | |
| <description>Enable the RDA interrupts.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>THREIE</name> | |
| <description>THRE Interrupt Enable. Enables the THRE interrupt for UART1. The status of this interrupt can be read from LSR[5].</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_THE_THRE_INT</name> | |
| <description>Disable the THRE interrupts.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_THE_THRE_INTE</name> | |
| <description>Enable the THRE interrupts.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RXIE</name> | |
| <description>RX Line Interrupt Enable. Enables the UART1 RX line status interrupts. The status of this interrupt can be read from LSR[4:1].</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_THE_RX_LINE_</name> | |
| <description>Disable the RX line status interrupts.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_THE_RX_LINE_S</name> | |
| <description>Enable the RX line status interrupts.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MSIE</name> | |
| <description>Modem Status Interrupt Enable. Enables the modem interrupt. The status of this interrupt can be read from MSR[3:0].</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_THE_MODEM_IN</name> | |
| <description>Disable the modem interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_THE_MODEM_INT</name> | |
| <description>Enable the modem interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[6:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>CTSIE</name> | |
| <description>CTS Interrupt Enable. If auto-cts mode is enabled this bit enables/disables the modem status interrupt generation on a CTS1 signal transition. If auto-cts mode is disabled a CTS1 transition will generate an interrupt if Modem Status Interrupt Enable (IER[3]) is set. In normal operation a CTS1 signal transition will generate a Modem Status Interrupt unless the interrupt has been disabled by clearing the IER[3] bit in the IER register. In auto-cts mode a transition on the CTS1 bit will trigger an interrupt only if both the IER[3] and IER[7] bits are set.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_THE_CTS_INTE</name> | |
| <description>Disable the CTS interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_THE_CTS_INTER</name> | |
| <description>Enable the CTS interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ABEOIE</name> | |
| <description>Enables the end of auto-baud interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_END_OF_AUTO_</name> | |
| <description>Disable end of auto-baud Interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_END_OF_AUTO_B</name> | |
| <description>Enable end of auto-baud Interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ABTOIE</name> | |
| <description>Enables the auto-baud time-out interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_AUTO_BAUD_TI</name> | |
| <description>Disable auto-baud time-out Interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_AUTO_BAUD_TIM</name> | |
| <description>Enable auto-baud time-out Interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:10]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IIR</name> | |
| <description>Interrupt ID Register. Identifies which interrupt(s) are pending.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x01</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>INTSTATUS</name> | |
| <description>Interrupt status. Note that IIR[0] is active low. The pending interrupt can be determined by evaluating IIR[3:1].</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>AT_LEAST_ONE_INTERRU</name> | |
| <description>At least one interrupt is pending.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>NO_INTERRUPT_IS_PEND</name> | |
| <description>No interrupt is pending.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>INTID</name> | |
| <description>Interrupt identification. IER[3:1] identifies an interrupt corresponding to the UART1 Rx or TX FIFO. All other combinations of IER[3:1] not listed below are reserved (100,101,111).</description> | |
| <bitRange>[3:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RLS</name> | |
| <description>1 - Receive Line Status (RLS).</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RDA</name> | |
| <description>2a - Receive Data Available (RDA).</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CTI</name> | |
| <description>2b - Character Time-out Indicator (CTI).</description> | |
| <value>0x6</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THRE</name> | |
| <description>3 - THRE Interrupt.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MODEM</name> | |
| <description>4 - Modem Interrupt.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[5:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>FIFOENABLE</name> | |
| <description>Copies of FCR[0].</description> | |
| <bitRange>[7:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABEOINT</name> | |
| <description>End of auto-baud interrupt. True if auto-baud has finished successfully and interrupt is enabled.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABTOINT</name> | |
| <description>Auto-baud time-out interrupt. True if auto-baud has timed out and interrupt is enabled.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:10]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>FCR</name> | |
| <description>FIFO Control Register. Controls UART1 FIFO usage and modes.</description> | |
| <alternateRegister>IIR</alternateRegister> | |
| <addressOffset>0x008</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>FIFOEN</name> | |
| <description>FIFO enable.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MUST_NOT_BE_USED_IN_</name> | |
| <description>Must not be used in the application.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE_HIGH_ENABLE_F</name> | |
| <description>Active high enable for both UART1 Rx and TX FIFOs and FCR[7:1] access. This bit must be set for proper UART1 operation. Any transition on this bit will automatically clear the UART1 FIFOs.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RXFIFORES</name> | |
| <description>RX FIFO Reset.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_IMPACT_ON_EITHER_</name> | |
| <description>No impact on either of UART1 FIFOs.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>WRITING_A_LOGIC_1_TO</name> | |
| <description>Writing a logic 1 to FCR[1] will clear all bytes in UART1 Rx FIFO, reset the pointer logic. This bit is self-clearing.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TXFIFORES</name> | |
| <description>TX FIFO Reset.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_IMPACT_ON_EITHER_</name> | |
| <description>No impact on either of UART1 FIFOs.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>WRITING_A_LOGIC_1_TO</name> | |
| <description>Writing a logic 1 to FCR[2] will clear all bytes in UART1 TX FIFO, reset the pointer logic. This bit is self-clearing.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DMAMODE</name> | |
| <description>DMA Mode Select. When the FIFO enable bit (bit 0 of this register) is set, this bit selects the DMA mode. See Section 36.6.6.1.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[5:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RXTRIGLVL</name> | |
| <description>RX Trigger Level. These two bits determine how many receiver UART1 FIFO characters must be written before an interrupt is activated.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TRIGGER_LEVEL_0_1_C</name> | |
| <description>Trigger level 0 (1 character or 0x01).</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRIGGER_LEVEL_1_4_C</name> | |
| <description>Trigger level 1 (4 characters or 0x04).</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRIGGER_LEVEL_2_8_C</name> | |
| <description>Trigger level 2 (8 characters or 0x08).</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRIGGER_LEVEL_3_14_</name> | |
| <description>Trigger level 3 (14 characters or 0x0E).</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>LCR</name> | |
| <description>Line Control Register. Contains controls for frame formatting and break generation.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>WLS</name> | |
| <description>Word Length Select.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>5_BIT_CHARACTER_LENG</name> | |
| <description>5-bit character length.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>6_BIT_CHARACTER_LENG</name> | |
| <description>6-bit character length.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>7_BIT_CHARACTER_LENG</name> | |
| <description>7-bit character length.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>8_BIT_CHARACTER_LENG</name> | |
| <description>8-bit character length.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SBS</name> | |
| <description>Stop Bit Select.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>1_STOP_BIT_</name> | |
| <description>1 stop bit.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>2_STOP_BITS_1_5_IF_</name> | |
| <description>2 stop bits (1.5 if LCR[1:0]=00).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PE</name> | |
| <description>Parity Enable.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_PARITY_GENER</name> | |
| <description>Disable parity generation and checking.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_PARITY_GENERA</name> | |
| <description>Enable parity generation and checking.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PS</name> | |
| <description>Parity Select.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ODD_PARITY_NUMBER_O</name> | |
| <description>Odd parity. Number of 1s in the transmitted character and the attached parity bit will be odd.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EVEN_PARITY_NUMBER_</name> | |
| <description>Even Parity. Number of 1s in the transmitted character and the attached parity bit will be even.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FORCED1STICK_PAR</name> | |
| <description>Forced 1 stick parity.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FORCED0STICK_PAR</name> | |
| <description>Forced 0 stick parity.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>BC</name> | |
| <description>Break Control.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_BREAK_TRANSM</name> | |
| <description>Disable break transmission.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_BREAK_TRANSMI</name> | |
| <description>Enable break transmission. Output pin UART1 TXD is forced to logic 0 when LCR[6] is active high.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DLAB</name> | |
| <description>Divisor Latch Access Bit (DLAB)</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_ACCESS_TO_DI</name> | |
| <description>Disable access to Divisor Latches.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_ACCESS_TO_DIV</name> | |
| <description>Enable access to Divisor Latches.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MCR</name> | |
| <description>Modem Control Register. Contains controls for flow control handshaking and loopback mode.</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DTRCTRL</name> | |
| <description>DTR Control. Source for modem output pin, DTR. This bit reads as 0 when modem loopback mode is active.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTSCTRL</name> | |
| <description>RTS Control. Source for modem output pin RTS. This bit reads as 0 when modem loopback mode is active.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[3:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>LMS</name> | |
| <description>Loopback Mode Select. The modem loopback mode provides a mechanism to perform diagnostic loopback testing. Serial data from the transmitter is connected internally to serial input of the receiver. Input pin, RXD1, has no effect on loopback and output pin, TXD1 is held in marking state. The 4 modem inputs (CTS, DSR, RI and DCD) are disconnected externally. Externally, the modem outputs (RTS, DTR) are set inactive. Internally, the 4 modem outputs are connected to the 4 modem inputs. As a result of these connections, the upper 4 bits of the MSR will be driven by the lower 4 bits of the MCR rather than the 4 modem inputs in normal mode. This permits modem status interrupts to be generated in loopback mode by writing the lower 4 bits of MCR.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_MODEM_LOOPBA</name> | |
| <description>Disable modem loopback mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_MODEM_LOOPBAC</name> | |
| <description>Enable modem loopback mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTSEN</name> | |
| <description>RTS enable.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_AUTO_RTS_FLO</name> | |
| <description>Disable auto-rts flow control.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_AUTO_RTS_FLOW</name> | |
| <description>Enable auto-rts flow control.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CTSEN</name> | |
| <description>CTS enable.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_AUTO_CTS_FLO</name> | |
| <description>Disable auto-cts flow control.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_AUTO_CTS_FLOW</name> | |
| <description>Enable auto-cts flow control.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>LSR</name> | |
| <description>Line Status Register. Contains flags for transmit and receive status, including line errors.</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x60</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <readAction>modify</readAction> | |
| <fields> | |
| <field> | |
| <name>RDR</name> | |
| <description>Receiver Data Ready. LSR[0] is set when the RBR holds an unread character and is cleared when the UART1 RBR FIFO is empty.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>EMPTY</name> | |
| <description>The UART1 receiver FIFO is empty.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>NOTEMPTY</name> | |
| <description>The UART1 receiver FIFO is not empty.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>OE</name> | |
| <description>Overrun Error. The overrun error condition is set as soon as it occurs. An LSR read clears LSR[1]. LSR[1] is set when UART1 RSR has a new character assembled and the UART1 RBR FIFO is full. In this case, the UART1 RBR FIFO will not be overwritten and the character in the UART1 RSR will be lost.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INACTIVE</name> | |
| <description>Overrun error status is inactive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE</name> | |
| <description>Overrun error status is active.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PE</name> | |
| <description>Parity Error. When the parity bit of a received character is in the wrong state, a parity error occurs. An LSR read clears LSR[2]. Time of parity error detection is dependent on FCR[0]. Note: A parity error is associated with the character at the top of the UART1 RBR FIFO.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INACTIVE</name> | |
| <description>Parity error status is inactive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE</name> | |
| <description>Parity error status is active.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>FE</name> | |
| <description>Framing Error. When the stop bit of a received character is a logic 0, a framing error occurs. An LSR read clears LSR[3]. The time of the framing error detection is dependent on FCR0. Upon detection of a framing error, the RX will attempt to resynchronize to the data and assume that the bad stop bit is actually an early start bit. However, it cannot be assumed that the next received byte will be correct even if there is no Framing Error. Note: A framing error is associated with the character at the top of the UART1 RBR FIFO.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INACTIVE</name> | |
| <description>Framing error status is inactive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE</name> | |
| <description>Framing error status is active.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>BI</name> | |
| <description>Break Interrupt. When RXD1 is held in the spacing state (all zeroes) for one full character transmission (start, data, parity, stop), a break interrupt occurs. Once the break condition has been detected, the receiver goes idle until RXD1 goes to marking state (all ones). An LSR read clears this status bit. The time of break detection is dependent on FCR[0]. Note: The break interrupt is associated with the character at the top of the UART1 RBR FIFO.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INACTIVE</name> | |
| <description>Break interrupt status is inactive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ACTIVE</name> | |
| <description>Break interrupt status is active.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>THRE</name> | |
| <description>Transmitter Holding Register Empty. THRE is set immediately upon detection of an empty UART1 THR and is cleared on a THR write.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>VALID</name> | |
| <description>THR contains valid data.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THR_IS_EMPTY_</name> | |
| <description>THR is empty.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TEMT</name> | |
| <description>Transmitter Empty. TEMT is set when both THR and TSR are empty; TEMT is cleared when either the TSR or the THR contain valid data.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>VALID</name> | |
| <description>THR and/or the TSR contains valid data.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EMPTY</name> | |
| <description>THR and the TSR are empty.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RXFE</name> | |
| <description>Error in RX FIFO. LSR[7] is set when a character with a RX error such as framing error, parity error or break interrupt, is loaded into the RBR. This bit is cleared when the LSR register is read and there are no subsequent errors in the UART1 FIFO.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NOERROR</name> | |
| <description>RBR contains no UART1 RX errors or FCR[0]=0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ERRORS</name> | |
| <description>UART1 RBR contains at least one UART1 RX error.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MSR</name> | |
| <description>Modem Status Register. Contains handshake signal status flags.</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <readAction>modify</readAction> | |
| <fields> | |
| <field> | |
| <name>DCTS</name> | |
| <description>Delta CTS. Set upon state change of input CTS. Cleared on an MSR read.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_CHANGE_DETECTED_O</name> | |
| <description>No change detected on modem input, CTS.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STATE_CHANGE_DETECTE</name> | |
| <description>State change detected on modem input, CTS.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DDSR</name> | |
| <description>Delta DSR. Set upon state change of input DSR. Cleared on an MSR read.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_CHANGE_DETECTED_O</name> | |
| <description>No change detected on modem input, DSR.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STATE_CHANGE_DETECTE</name> | |
| <description>State change detected on modem input, DSR.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TERI</name> | |
| <description>Trailing Edge RI. Set upon low to high transition of input RI. Cleared on an MSR read.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_CHANGE_DETECTED_O</name> | |
| <description>No change detected on modem input, RI.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>LOW_TO_HIGH_TRANSITI</name> | |
| <description>Low-to-high transition detected on RI.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DDCD</name> | |
| <description>Delta DCD. Set upon state change of input DCD. Cleared on an MSR read.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_CHANGE_DETECTED_O</name> | |
| <description>No change detected on modem input, DCD.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STATE_CHANGE_DETECTE</name> | |
| <description>State change detected on modem input, DCD.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CTS</name> | |
| <description>Clear To Send State. Complement of input signal CTS. This bit is connected to MCR[1] in modem loopback mode.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>DSR</name> | |
| <description>Data Set Ready State. Complement of input signal DSR. This bit is connected to MCR[0] in modem loopback mode.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RI</name> | |
| <description>Ring Indicator State. Complement of input RI. This bit is connected to MCR[2] in modem loopback mode.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>DCD</name> | |
| <description>Data Carrier Detect State. Complement of input DCD. This bit is connected to MCR[3] in modem loopback mode.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SCR</name> | |
| <description>Scratch Pad Register. 8-bit temporary storage for software.</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>Pad</name> | |
| <description>A readable, writable byte.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ACR</name> | |
| <description>Auto-baud Control Register. Contains controls for the auto-baud feature.</description> | |
| <addressOffset>0x020</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>START</name> | |
| <description>Auto-baud start bit. This bit is automatically cleared after auto-baud completion.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>STOP</name> | |
| <description>Auto-baud stop (auto-baud is not running).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>START</name> | |
| <description>Auto-baud start (auto-baud is running). Auto-baud run bit. This bit is automatically cleared after auto-baud completion.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MODE</name> | |
| <description>Auto-baud mode select bit.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MODE_0_</name> | |
| <description>Mode 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MODE_1_</name> | |
| <description>Mode 1.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>AUTORESTART</name> | |
| <description>Auto-baud restart bit.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_RESTART</name> | |
| <description>No restart</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESTART_IN_CASE_OF_T</name> | |
| <description>Restart in case of time-out (counter restarts at next UART1 Rx falling edge)</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABEOINTCLR</name> | |
| <description>End of auto-baud interrupt clear bit (write-only).</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>WRITING_A_0_HAS_NO_I</name> | |
| <description>Writing a 0 has no impact.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>WRITING_A_1_WILL_CLE</name> | |
| <description>Writing a 1 will clear the corresponding interrupt in the IIR.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ABTOINTCLR</name> | |
| <description>Auto-baud time-out interrupt clear bit (write-only).</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>WRITING_A_0_HAS_NO_I</name> | |
| <description>Writing a 0 has no impact.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>WRITING_A_1_WILL_CLE</name> | |
| <description>Writing a 1 will clear the corresponding interrupt in the IIR.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:10]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>FDR</name> | |
| <description>Fractional Divider Register. Generates a clock input for the baud rate divider.</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x10</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DIVADDVAL</name> | |
| <description>Baud rate generation pre-scaler divisor value. If this field is 0, fractional baud rate generator will not impact the UART1 baud rate.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>MULVAL</name> | |
| <description>Baud rate pre-scaler multiplier value. This field must be greater or equal 1 for UART1 to operate properly, regardless of whether the fractional baud rate generator is used or not.</description> | |
| <bitRange>[7:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TER</name> | |
| <description>Transmit Enable Register. Turns off UART transmitter for use with software flow control.</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x80</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[6:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TXEN</name> | |
| <description>When this bit is 1, as it is after a Reset, data written to the THR is output on the TXD pin as soon as any preceding data has been sent. If this bit cleared to 0 while a character is being sent, the transmission of that character is completed, but no further characters are sent until this bit is set again. In other words, a 0 in this bit blocks the transfer of characters from the THR or TX FIFO into the transmit shift register. Software can clear this bit when it detects that the a hardware-handshaking TX-permit signal (CTS) has gone false, or with software handshaking, when it receives an XOFF character (DC3). Software can set this bit again when it detects that the TX-permit signal has gone true, or when it receives an XON (DC1) character.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RS485CTRL</name> | |
| <description>RS-485/EIA-485 Control. Contains controls to configure various aspects of RS-485/EIA-485 modes.</description> | |
| <addressOffset>0x04C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>NMMEN</name> | |
| <description>RS-485/EIA-485 Normal Multidrop Mode (NMM) mode select.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLED_IN_THIS_MOD</name> | |
| <description>Enabled. In this mode, an address is detected when a received byte causes the UART to set the parity error and generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RXDIS</name> | |
| <description>Receive enable.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLED_</name> | |
| <description>Enabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>AADEN</name> | |
| <description>Auto Address Detect (AAD) enable.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLED_</name> | |
| <description>Enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SEL</name> | |
| <description>Direction control.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RTS_IF_DIRECTION_CO</name> | |
| <description>RTS. If direction control is enabled (bit DCTRL = 1), pin RTS is used for direction control.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DTR_IF_DIRECTION_CO</name> | |
| <description>DTR. If direction control is enabled (bit DCTRL = 1), pin DTR is used for direction control.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DCTRL</name> | |
| <description>Direction control enable.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE_AUTO_DIRECTI</name> | |
| <description>Disable Auto Direction Control.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_AUTO_DIRECTIO</name> | |
| <description>Enable Auto Direction Control.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>OINV</name> | |
| <description>Polarity. This bit reverses the polarity of the direction control signal on the RTS (or DTR) pin.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LOW_THE_DIRECTION_C</name> | |
| <description>LOW. The direction control pin will be driven to logic 0 when the transmitter has data to be sent. It will be driven to logic 1 after the last bit of data has been transmitted.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>HIGH_THE_DIRECTION_</name> | |
| <description>HIGH. The direction control pin will be driven to logic 1 when the transmitter has data to be sent. It will be driven to logic 0 after the last bit of data has been transmitted.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RS485ADRMATCH</name> | |
| <description>RS-485/EIA-485 address match. Contains the address match value for RS-485/EIA-485 mode.</description> | |
| <addressOffset>0x050</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>ADRMATCH</name> | |
| <description>Contains the address match value.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RS485DLY</name> | |
| <description>RS-485/EIA-485 direction control delay.</description> | |
| <addressOffset>0x054</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DLY</name> | |
| <description>Contains the direction control (RTS or DTR) delay value. This register works in conjunction with an 8-bit counter.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>PWM1</name> | |
| <description>Pulse Width Modulators (PWM1) </description> | |
| <groupName>PWM</groupName> | |
| <baseAddress>0x40018000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>PWM1</name> | |
| <value>9</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>IR</name> | |
| <description>Interrupt Register. The IR can be written to clear interrupts, or read to identify which PWM interrupt sources are pending.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PWMMR0INT</name> | |
| <description>Interrupt flag for PWM match channel 0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMMR1INT</name> | |
| <description>Interrupt flag for PWM match channel 1.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMMR2INT</name> | |
| <description>Interrupt flag for PWM match channel 2.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMMR3INT</name> | |
| <description>Interrupt flag for PWM match channel 3.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMCAP0INT</name> | |
| <description>Interrupt flag for capture input 0</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMCAP1INT</name> | |
| <description>Interrupt flag for capture input 1 (available in PWM1IR only; this bit is reserved in PWM0IR).</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[7:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMMR4INT</name> | |
| <description>Interrupt flag for PWM match channel 4.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMMR5INT</name> | |
| <description>Interrupt flag for PWM match channel 5.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMMR6INT</name> | |
| <description>Interrupt flag for PWM match channel 6.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:11]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TCR</name> | |
| <description>Timer Control Register. The TCR is used to control the Timer Counter functions.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CE</name> | |
| <description>Counter Enable</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_TIMER_COUNTE</name> | |
| <description>The PWM Timer Counter and PWM Prescale Counter are enabled for counting.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_COUNTERS_ARE_DIS</name> | |
| <description>The counters are disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CR</name> | |
| <description>Counter Reset</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_TIMER_COUNTE</name> | |
| <description>The PWM Timer Counter and the PWM Prescale Counter are synchronously reset on the next positive edge of PCLK. The counters remain reset until this bit is returned to zero.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CLEAR_RESET_</name> | |
| <description>Clear reset.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMEN</name> | |
| <description>PWM Enable</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PWM_MODE_IS_ENABLED_</name> | |
| <description>PWM mode is enabled (counter resets to 1). PWM mode causes the shadow registers to operate in connection with the Match registers. A program write to a Match register will not have an effect on the Match result until the corresponding bit in PWMLER has been set, followed by the occurrence of a PWM Match 0 event. Note that the PWM Match register that determines the PWM rate (PWM Match Register 0 - MR0) must be set up prior to the PWM being enabled. Otherwise a Match event will not occur to cause shadow register contents to become effective.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TIMER_MODE_IS_ENABLE</name> | |
| <description>Timer mode is enabled (counter resets to 0).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MDIS</name> | |
| <description>Master Disable (PWM0 only). The two PWMs may be synchronized using the Master Disable control bit. The Master disable bit of the Master PWM (PWM0 module) controls a secondary enable input to both PWMs, as shown in Figure 141. This bit has no function in the Slave PWM (PWM1).</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MASTER_USE_PWM0_IS_</name> | |
| <description>Master use. PWM0 is the master, and both PWMs are enabled for counting.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INDIVIDUAL_USE_THE_</name> | |
| <description>Individual use. The PWMs are used independently, and the individual Counter Enable bits are used to control the PWMs.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:5]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TC</name> | |
| <description>Timer Counter. The 32 bit TC is incremented every PR+1 cycles of PCLK. The TC is controlled through the TCR.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>TC</name> | |
| <description>Timer counter value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PR</name> | |
| <description>Prescale Register. Determines how often the PWM counter is incremented.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PM</name> | |
| <description>Prescale counter maximum value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PC</name> | |
| <description>Prescale Counter. Prescaler for the main PWM counter.</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PC</name> | |
| <description>Prescale counter value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MCR</name> | |
| <description>Match Control Register. The MCR is used to control whether an interrupt is generated and if the PWM counter is reset when a Match occurs.</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PWMMR0I</name> | |
| <description>Interrupt PWM0</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ON_PWMMR0</name> | |
| <description>Interrupt on PWMMR0: an interrupt is generated when PWMMR0 matches the value in the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR0R</name> | |
| <description>Reset PWM0</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESET_ON_PWMMR0_THE</name> | |
| <description>Reset on PWMMR0: the PWMTC will be reset if PWMMR0 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR0S</name> | |
| <description>Stop PWM0</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STOP_ON_PWMMR0_THE_</name> | |
| <description>Stop on PWMMR0: the PWMTC and PWMPC will be stopped and PWMTCR bit 0 will be set to 0 if PWMMR0 matches the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR1I</name> | |
| <description>Interrupt PWM1</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ON_PWMMR1</name> | |
| <description>Interrupt on PWMMR1: an interrupt is generated when PWMMR1 matches the value in the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR1R</name> | |
| <description>Reset PWM1</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESET_ON_PWMMR1_THE</name> | |
| <description>Reset on PWMMR1: the PWMTC will be reset if PWMMR1 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR1S</name> | |
| <description>Stop PWM1</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STOP_ON_PWMMR1_THE_</name> | |
| <description>Stop on PWMMR1: the PWMTC and PWMPC will be stopped and PWMTCR bit 0 will be set to 0 if PWMMR1 matches the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR2I</name> | |
| <description>Interrupt PWM0</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ON_PWMMR2</name> | |
| <description>Interrupt on PWMMR2: an interrupt is generated when PWMMR2 matches the value in the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR2R</name> | |
| <description>Reset PWM0</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESET_ON_PWMMR2_THE</name> | |
| <description>Reset on PWMMR2: the PWMTC will be reset if PWMMR2 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR2S</name> | |
| <description>Stop PWM0</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STOP_ON_PWMMR2_THE_</name> | |
| <description>Stop on PWMMR2: the PWMTC and PWMPC will be stopped and PWMTCR bit 0 will be set to 0 if PWMMR0 matches the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR3I</name> | |
| <description>Interrupt PWM3</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ON_PWMMR3</name> | |
| <description>Interrupt on PWMMR3: an interrupt is generated when PWMMR3 matches the value in the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR3R</name> | |
| <description>Reset PWM3</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESET_ON_PWMMR3_THE</name> | |
| <description>Reset on PWMMR3: the PWMTC will be reset if PWMMR3 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR3S</name> | |
| <description>Stop PWM0</description> | |
| <bitRange>[11:11]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STOP_ON_PWMMR3_THE_</name> | |
| <description>Stop on PWMMR3: the PWMTC and PWMPC will be stopped and PWMTCR bit 0 will be set to 0 if PWMMR0 matches the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR4I</name> | |
| <description>Interrupt PWM4</description> | |
| <bitRange>[12:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ON_PWMMR4</name> | |
| <description>Interrupt on PWMMR4: an interrupt is generated when PWMMR4 matches the value in the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR4R</name> | |
| <description>Reset PWM4</description> | |
| <bitRange>[13:13]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESET_ON_PWMMR4_THE</name> | |
| <description>Reset on PWMMR4: the PWMTC will be reset if PWMMR4 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR4S</name> | |
| <description>Stop PWM4</description> | |
| <bitRange>[14:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STOP_ON_PWMMR4_THE_</name> | |
| <description>Stop on PWMMR4: the PWMTC and PWMPC will be stopped and PWMTCR bit 0 will be set to 0 if PWMMR4 matches the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR5I</name> | |
| <description>Interrupt PWM5</description> | |
| <bitRange>[15:15]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ON_PWMMR5</name> | |
| <description>Interrupt on PWMMR5: an interrupt is generated when PWMMR5 matches the value in the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR5R</name> | |
| <description>Reset PWM5</description> | |
| <bitRange>[16:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESET_ON_PWMMR5_THE</name> | |
| <description>Reset on PWMMR5: the PWMTC will be reset if PWMMR5 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR5S</name> | |
| <description>Stop PWM5</description> | |
| <bitRange>[17:17]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STOP_ON_PWMMR5_THE_</name> | |
| <description>Stop on PWMMR5: the PWMTC and PWMPC will be stopped and PWMTCR bit 0 will be set to 0 if PWMMR5 matches the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR6I</name> | |
| <description>Interrupt PWM6</description> | |
| <bitRange>[18:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ON_PWMMR6</name> | |
| <description>Interrupt on PWMMR6: an interrupt is generated when PWMMR6 matches the value in the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR6R</name> | |
| <description>Reset PWM6</description> | |
| <bitRange>[19:19]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_</name> | |
| <description>Disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESET_ON_PWMMR6_THE</name> | |
| <description>Reset on PWMMR6: the PWMTC will be reset if PWMMR6 matches it.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMMR6S</name> | |
| <description>Stop PWM6</description> | |
| <bitRange>[20:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STOP_ON_PWMMR6_THE_</name> | |
| <description>Stop on PWMMR6: the PWMTC and PWMPC will be stopped and PWMTCR bit 0 will be set to 0 if PWMMR6 matches the PWMTC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:21]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>4</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-3</dimIndex> | |
| <name>MR%s</name> | |
| <description>Match Register. Match registers | |
| are continuously compared to the PWM counter in order to control PWM | |
| output edges.</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MATCH</name> | |
| <description>Timer counter match value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CCR</name> | |
| <description>Capture Control Register. The CCR controls which edges of the capture inputs are used to load the Capture Registers and whether or not an interrupt is generated for a capture event.</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CAP0_R</name> | |
| <description>Capture on PWMn_CAP0 rising edge</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_THIS_FEATU</name> | |
| <description>Disabled. This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING_EDGE_A_SYNCH</name> | |
| <description>Rising edge. A synchronously sampled rising edge on PWMn_CAP0 will cause CR0 to be loaded with the contents of the TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP0_F</name> | |
| <description>Capture on PWMn_CAP0 falling edge</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_THIS_FEATU</name> | |
| <description>Disabled. This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING_EDGE_A_SYNC</name> | |
| <description>Falling edge. A synchronously sampled falling edge on PWMn_CAP0 will cause CR0 to be loaded with the contents of TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP0_I</name> | |
| <description>Interrupt on PWMn_CAP0 event</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_THIS_FEATU</name> | |
| <description>Disabled. This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_A_CR0_LOA</name> | |
| <description>Interrupt. A CR0 load due to a PWMn_CAP0 event will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP1_R</name> | |
| <description>Capture on PWMn_CAP1 rising edge. Reserved for PWM0.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_THIS_FEATU</name> | |
| <description>Disabled. This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING_EDGE_A_SYNCH</name> | |
| <description>Rising edge. A synchronously sampled rising edge on PWMn_CAP1 will cause CR1 to be loaded with the contents of the TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP1_F</name> | |
| <description>Capture on PWMn_CAP1 falling edge. Reserved for PWM0.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_THIS_FEATU</name> | |
| <description>Disabled. This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING_EDGE_A_SYNC</name> | |
| <description>Falling edge. A synchronously sampled falling edge on PWMn_CAP1 will cause CR1 to be loaded with the contents of TC.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CAP1_I</name> | |
| <description>Interrupt on PWMn_CAP1 event. Reserved for PWM0.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_THIS_FEATU</name> | |
| <description>Disabled. This feature is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_A_CR1_LOA</name> | |
| <description>Interrupt. A CR1 load due to a PWMn_CAP1 event will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>2</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-1</dimIndex> | |
| <name>CR[%s]</name> | |
| <displayName>CR[%s]</displayName> | |
| <description>PWM Control Register. Enables PWM outputs and selects either single edge or double edge controlled PWM outputs.</description> | |
| <addressOffset>0x02C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMSEL2</name> | |
| <description>PWM[2] output single/double edge mode control.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMSEL3</name> | |
| <description>PWM[3] output edge control.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMSEL4</name> | |
| <description>PWM[4] output edge control.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMSEL5</name> | |
| <description>PWM[5] output edge control.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMSEL6</name> | |
| <description>PWM[6] output edge control.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[8:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMENA1</name> | |
| <description>PWM[1] output enable control.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA2</name> | |
| <description>PWM[2] output enable control.</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA3</name> | |
| <description>PWM[3] output enable control.</description> | |
| <bitRange>[11:11]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA4</name> | |
| <description>PWM[4] output enable control.</description> | |
| <bitRange>[12:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA5</name> | |
| <description>PWM[5] output enable control.</description> | |
| <bitRange>[13:13]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA6</name> | |
| <description>PWM[6] output enable control. See PWMENA1 for details.</description> | |
| <bitRange>[14:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Unused, always zero.</description> | |
| <bitRange>[31:15]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>4-6</dimIndex> | |
| <name>MR%s</name> | |
| <description>Match Register. Match registers | |
| are continuously compared to the PWM counter in order to control PWM | |
| output edges.</description> | |
| <addressOffset>0x040</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MATCH</name> | |
| <description>Timer counter match value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PCR</name> | |
| <description>PWM Control Register. Enables PWM outputs and selects either single edge or double edge controlled PWM outputs.</description> | |
| <addressOffset>0x04C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMSEL2</name> | |
| <description>PWM[2] output single/double edge mode control.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMSEL3</name> | |
| <description>PWM[3] output edge control.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMSEL4</name> | |
| <description>PWM[4] output edge control.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMSEL5</name> | |
| <description>PWM[5] output edge control.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMSEL6</name> | |
| <description>PWM[6] output edge control.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SINGLE_EDGE_CONTROLL</name> | |
| <description>Single edge controlled mode is selected.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DOUBLE_EDGE_CONTROLL</name> | |
| <description>Double edge controlled mode is selected.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[8:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>PWMENA1</name> | |
| <description>PWM[1] output enable control.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA2</name> | |
| <description>PWM[2] output enable control.</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA3</name> | |
| <description>PWM[3] output enable control.</description> | |
| <bitRange>[11:11]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA4</name> | |
| <description>PWM[4] output enable control.</description> | |
| <bitRange>[12:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA5</name> | |
| <description>PWM[5] output enable control.</description> | |
| <bitRange>[13:13]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PWMENA6</name> | |
| <description>PWM[6] output enable control. See PWMENA1 for details.</description> | |
| <bitRange>[14:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_DI</name> | |
| <description>The PWM output is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_PWM_OUTPUT_IS_EN</name> | |
| <description>The PWM output is enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Unused, always zero.</description> | |
| <bitRange>[31:15]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>LER</name> | |
| <description>Load Enable Register. Enables use of updated PWM match values.</description> | |
| <addressOffset>0x050</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MAT0LATCHEN</name> | |
| <description>Enable PWM Match 0 Latch. PWM MR0 register update control. Writing a one to this bit allows the last value written to the PWM Match Register 0 to be become effective when the timer is next reset by a PWM Match event. See Section 27.6.7.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAT1LATCHEN</name> | |
| <description>Enable PWM Match 1 Latch. PWM MR1 register update control. See bit 0 for details.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAT2LATCHEN</name> | |
| <description>Enable PWM Match 2 Latch. PWM MR2 register update control. See bit 0 for details.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAT3LATCHEN</name> | |
| <description>Enable PWM Match 3 Latch. PWM MR3 register update control. See bit 0 for details.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAT4LATCHEN</name> | |
| <description>Enable PWM Match 4 Latch. PWM MR4 register update control. See bit 0 for details.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAT5LATCHEN</name> | |
| <description>Enable PWM Match 5 Latch. PWM MR5 register update control. See bit 0 for details.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAT6LATCHEN</name> | |
| <description>Enable PWM Match 6 Latch. PWM MR6 register update control. See bit 0 for details.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:7]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CTCR</name> | |
| <description>Count Control Register. The CTCR selects between Timer and Counter mode, and in Counter mode selects the signal and edge(s) for counting.</description> | |
| <addressOffset>0x070</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MOD</name> | |
| <description>Counter/ Timer Mode</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TIMER_MODE_THE_TC_I</name> | |
| <description>Timer Mode: the TC is incremented when the Prescale Counter matches the Prescale register.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING_EDGE_COUNTER_</name> | |
| <description>Rising edge counter Mode: the TC is incremented on rising edges of the PWM_CAP input selected by bits 3:2.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING_EDGE_COUNTER</name> | |
| <description>Falling edge counter Mode: the TC is incremented on falling edges of the PWM_CAP input selected by bits 3:2.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DUAL_EDGE_COUNTER_MO</name> | |
| <description>Dual edge counter Mode: the TC is incremented on both edges of the PWM_CAP input selected by bits 3:2.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CIS</name> | |
| <description>Count Input Select. When bits 1:0 are not 00, these bits select which PWM_CAP pin carries the signal used to increment the TC. Other combinations are reserved.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>FOR_PWM0_00_EQ_PWM0_</name> | |
| <description>For PWM0: 00 = PWM0_CAP0 (Other combinations are reserved) For PWM1: 00 = PWM1_CAP0, 01 = PWM1_CAP1 (Other combinations are reserved)</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>I2C0</name> | |
| <description>I2C bus interface</description> | |
| <groupName>I2C</groupName> | |
| <baseAddress>0x4001C000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>I2C0</name> | |
| <value>10</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>CONSET</name> | |
| <description>I2C Control Set Register. When a one is written to a bit of this register, the corresponding bit in the I2C control register is set. Writing a zero has no effect on the corresponding bit in the I2C control register.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. User software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>AA</name> | |
| <description>Assert acknowledge flag.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>SI</name> | |
| <description>I2C interrupt flag.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>STO</name> | |
| <description>STOP flag.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>STA</name> | |
| <description>START flag.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>I2EN</name> | |
| <description>I2C interface enable.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:7]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>STAT</name> | |
| <description>I2C Status Register. During I2C operation, this register provides detailed status codes that allow software to determine the next action needed.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0xF8</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>These bits are unused and are always 0.</description> | |
| <bitRange>[2:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>Status</name> | |
| <description>These bits give the actual status information about the I 2C interface.</description> | |
| <bitRange>[7:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DAT</name> | |
| <description>I2C Data Register. During master or slave transmit mode, data to be transmitted is written to this register. During master or slave receive mode, data that has been received may be read from this register.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>Data</name> | |
| <description>This register holds data values that have been received or are to be transmitted.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ADR0</name> | |
| <description>I2C Slave Address Register 0. Contains the 7-bit slave address for operation of the I2C interface in slave mode, and is not used in master mode. The least significant bit determines whether a slave responds to the General Call address.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>GC</name> | |
| <description>General Call enable bit.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>Address</name> | |
| <description>The I2C device address for slave mode.</description> | |
| <bitRange>[7:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SCLH</name> | |
| <description>SCH Duty Cycle Register High Half Word. Determines the high time of the I2C clock.</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x04</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>SCLH</name> | |
| <description>Count for SCL HIGH time period selection.</description> | |
| <bitRange>[15:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SCLL</name> | |
| <description>SCL Duty Cycle Register Low Half Word. Determines the low time of the I2C clock. SCLL and SCLH together determine the clock frequency generated by an I2C master and certain times used in slave mode.</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x04</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>SCLL</name> | |
| <description>Count for SCL low time period selection.</description> | |
| <bitRange>[15:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CONCLR</name> | |
| <description>I2C Control Clear Register. When a one is written to a bit of this register, the corresponding bit in the I2C control register is cleared. Writing a zero has no effect on the corresponding bit in the I2C control register.</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. User software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>AAC</name> | |
| <description>Assert acknowledge Clear bit.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>SIC</name> | |
| <description>I2C interrupt Clear bit.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. User software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>STAC</name> | |
| <description>START flag Clear bit.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>I2ENC</name> | |
| <description>I2C interface Disable bit.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. User software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MMCTRL</name> | |
| <description>Monitor mode control register.</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MM_ENA</name> | |
| <description>Monitor mode enable.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MONITOR_MODE_DISABLE</name> | |
| <description>Monitor mode disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_I_2C_MODULE_WILL</name> | |
| <description>The I 2C module will enter monitor mode. In this mode the SDA output will be forced high. This will prevent the I2C module from outputting data of any kind (including ACK) onto the I2C data bus. Depending on the state of the ENA_SCL bit, the output may be also forced high, preventing the module from having control over the I2C clock line.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ENA_SCL</name> | |
| <description>SCL output enable.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>WHEN_THIS_BIT_IS_CLE</name> | |
| <description>When this bit is cleared to 0, the SCL output will be forced high when the module is in monitor mode. As described above, this will prevent the module from having any control over the I2C clock line.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>WHEN_THIS_BIT_IS_SET</name> | |
| <description>When this bit is set, the I2C module may exercise the same control over the clock line that it would in normal operation. This means that, acting as a slave peripheral, the I2C module can stretch the clock line (hold it low) until it has had time to respond to an I2C interrupt.[1]</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MATCH_ALL</name> | |
| <description>Select interrupt register match.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>WHEN_THIS_BIT_IS_CLE</name> | |
| <description>When this bit is cleared, an interrupt will only be generated when a match occurs to one of the (up-to) four address registers described above. That is, the module will respond as a normal slave as far as address-recognition is concerned.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>WHEN_THIS_BIT_IS_SET</name> | |
| <description>When this bit is set to 1 and the I2C is in monitor mode, an interrupt will be generated on ANY address received. This will enable the part to monitor all traffic on the bus.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from reserved bits is not defined.</description> | |
| <bitRange>[31:3]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>1-3</dimIndex> | |
| <name>ADR%s</name> | |
| <description>I2C Slave Address Register. Contains the 7-bit slave address for operation of the I2C interface in slave mode, and is not used in master mode. The least significant bit determines whether a slave responds to the General Call address.</description> | |
| <addressOffset>0x020</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>GC</name> | |
| <description>General Call enable bit.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>Address</name> | |
| <description>The I2C device address for slave mode.</description> | |
| <bitRange>[7:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DATA_BUFFER</name> | |
| <description>Data buffer register. The contents of the 8 MSBs of the DAT shift register will be transferred to the DATA_BUFFER automatically after every nine bits (8 bits of data plus ACK or NACK) has been received on the bus.</description> | |
| <addressOffset>0x02C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>Data</name> | |
| <description>This register holds contents of the 8 MSBs of the DAT shift register.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>4</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-3</dimIndex> | |
| <name>MASK[%s]</name> | |
| <displayName>MASK[%s]</displayName> | |
| <description>I2C Slave address mask register</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. User software should not write ones to reserved bits. This bit reads always back as 0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>MASK</name> | |
| <description>Mask bits.</description> | |
| <bitRange>[7:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>SPI</name> | |
| <description>SPI </description> | |
| <groupName>SPI</groupName> | |
| <baseAddress>0x40020000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>SPI</name> | |
| <value>13</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>CR</name> | |
| <description>SPI Control Register. This register controls the operation of the SPI.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>BITENABLE</name> | |
| <description>The SPI controller sends and receives 8 bits of data per transfer.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_SPI_CONTROLLER_S</name> | |
| <description>The SPI controller sends and receives the number of bits selected by bits 11:8.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CPHA</name> | |
| <description>Clock phase control determines the relationship between the data and the clock on SPI transfers, and controls when a slave transfer is defined as starting and ending.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>FIRST_EDGE</name> | |
| <description>Data is sampled on the first clock edge of SCK. A transfer starts and ends with activation and deactivation of the SSEL signal.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SECOND_EDGE</name> | |
| <description>Data is sampled on the second clock edge of the SCK. A transfer starts with the first clock edge, and ends with the last sampling edge when the SSEL signal is active.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CPOL</name> | |
| <description>Clock polarity control.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SCK_IS_ACTIVE_HIGH_</name> | |
| <description>SCK is active high.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCK_IS_ACTIVE_LOW_</name> | |
| <description>SCK is active low.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MSTR</name> | |
| <description>Master mode select.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SLAVE</name> | |
| <description>The SPI operates in Slave mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MASTER</name> | |
| <description>The SPI operates in Master mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>LSBF</name> | |
| <description>LSB First controls which direction each byte is shifted when transferred.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MSB</name> | |
| <description>SPI data is transferred MSB (bit 7) first.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>LSB</name> | |
| <description>SPI data is transferred LSB (bit 0) first.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SPIE</name> | |
| <description>Serial peripheral interrupt enable.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTBLOCK</name> | |
| <description>SPI interrupts are inhibited.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>HWINT</name> | |
| <description>A hardware interrupt is generated each time the SPIF or MODF bits are activated.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>BITS</name> | |
| <description>When bit 2 of this register is 1, this field controls the number of bits per transfer:</description> | |
| <bitRange>[11:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>8_BITS_PER_TRANSFER</name> | |
| <description>8 bits per transfer</description> | |
| <value>0x8</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>9_BITS_PER_TRANSFER</name> | |
| <description>9 bits per transfer</description> | |
| <value>0x9</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>10_BITS_PER_TRANSFER</name> | |
| <description>10 bits per transfer</description> | |
| <value>0xA</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>11_BITS_PER_TRANSFER</name> | |
| <description>11 bits per transfer</description> | |
| <value>0xB</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>12_BITS_PER_TRANSFER</name> | |
| <description>12 bits per transfer</description> | |
| <value>0xC</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>13_BITS_PER_TRANSFER</name> | |
| <description>13 bits per transfer</description> | |
| <value>0xD</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>14_BITS_PER_TRANSFER</name> | |
| <description>14 bits per transfer</description> | |
| <value>0xE</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>15_BITS_PER_TRANSFER</name> | |
| <description>15 bits per transfer</description> | |
| <value>0xF</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>16_BITS_PER_TRANSFER</name> | |
| <description>16 bits per transfer</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SR</name> | |
| <description>SPI Status Register. This register shows the status of the SPI.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[2:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABRT</name> | |
| <description>Slave abort. When 1, this bit indicates that a slave abort has occurred. This bit is cleared by reading this register.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>MODF</name> | |
| <description>Mode fault. when 1, this bit indicates that a Mode fault error has occurred. This bit is cleared by reading this register, then writing the SPI0 control register.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>ROVR</name> | |
| <description>Read overrun. When 1, this bit indicates that a read overrun has occurred. This bit is cleared by reading this register.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>WCOL</name> | |
| <description>Write collision. When 1, this bit indicates that a write collision has occurred. This bit is cleared by reading this register, then accessing the SPI Data Register.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>SPIF</name> | |
| <description>SPI transfer complete flag. When 1, this bit indicates when a SPI data transfer is complete. When a master, this bit is set at the end of the last cycle of the transfer. When a slave, this bit is set on the last data sampling edge of the SCK. This bit is cleared by first reading this register, then accessing the SPI Data Register. Note: this is not the SPI interrupt flag. This flag is found in the SPINT register.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DR</name> | |
| <description>SPI Data Register. This bi-directional register provides the transmit and receive data for the SPI. Transmit data is provided to the SPI0 by writing to this register. Data received by the SPI0 can be read from this register.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <readAction>modify</readAction> | |
| <fields> | |
| <field> | |
| <name>DATALOW</name> | |
| <description>SPI Bi-directional data port.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATAHIGH</name> | |
| <description>If bit 2 of the SPCR is 1 and bits 11:8 are other than 1000, some or all of these bits contain the additional transmit and receive bits. When less than 16 bits are selected, the more significant among these bits read as zeroes.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CCR</name> | |
| <description>SPI Clock Counter Register. This register controls the frequency of a master's SCK0.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>COUNTER</name> | |
| <description>SPI0 Clock counter setting.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INT</name> | |
| <description>SPI Interrupt Flag. This register contains the interrupt flag for the SPI interface.</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x00</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>SPIF</name> | |
| <description>SPI interrupt flag. Set by the SPI interface to generate an interrupt. Cleared by writing a 1 to this bit. Note: this bit will be set once when SPIE = 1 and at least one of SPIF and WCOL bits is 1. However, only when the SPI Interrupt bit is set and SPI0 Interrupt is enabled in the NVIC, SPI based interrupt can be processed by interrupt handling software.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>RTC</name> | |
| <description> Real Time Clock (RTC) </description> | |
| <groupName>RTC</groupName> | |
| <baseAddress>0x40024000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>RTC</name> | |
| <value>17</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>ILR</name> | |
| <description>Interrupt Location Register</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RTCCIF</name> | |
| <description>When one, the Counter Increment Interrupt block generated an interrupt. Writing a one to this bit location clears the counter increment interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTCALF</name> | |
| <description>When one, the alarm registers generated an interrupt. Writing a one to this bit location clears the alarm interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:21]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CCR</name> | |
| <description>Clock Control Register</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>CLKEN</name> | |
| <description>Clock Enable.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_TIME_COUNTERS_AR</name> | |
| <description>The time counters are enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_TIME_COUNTERS_AR</name> | |
| <description>The time counters are disabled so that they may be initialized.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CTCRST</name> | |
| <description>CTC Reset.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>When one, the elements in the internal oscillator divider are reset, and remain reset until CCR[1] is changed to zero. This is the divider that generates the 1 Hz clock from the 32.768 kHz crystal. The state of the divider is not visible to software.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>NO_EFFECT_</name> | |
| <description>No effect.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Internal test mode controls. These bits must be 0 for normal RTC operation.</description> | |
| <bitRange>[3:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>CCALEN</name> | |
| <description>Calibration counter enable.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_CALIBRATION_COUN</name> | |
| <description>The calibration counter is disabled and reset to zero.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_CALIBRATION_COUN</name> | |
| <description>The calibration counter is enabled and counting, using the 1 Hz clock. When the calibration counter is equal to the value of the CALIBRATION register, the counter resets and repeats counting up to the value of the CALIBRATION register. See Section 30.6.4.2 and Section 30.6.5.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:5]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CIIR</name> | |
| <description>Counter Increment Interrupt Register</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>IMSEC</name> | |
| <description>When 1, an increment of the Second value generates an interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMMIN</name> | |
| <description>When 1, an increment of the Minute value generates an interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMHOUR</name> | |
| <description>When 1, an increment of the Hour value generates an interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMDOM</name> | |
| <description>When 1, an increment of the Day of Month value generates an interrupt.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMDOW</name> | |
| <description>When 1, an increment of the Day of Week value generates an interrupt.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMDOY</name> | |
| <description>When 1, an increment of the Day of Year value generates an interrupt.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMMON</name> | |
| <description>When 1, an increment of the Month value generates an interrupt.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMYEAR</name> | |
| <description>When 1, an increment of the Year value generates an interrupt.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>AMR</name> | |
| <description>Alarm Mask Register</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>AMRSEC</name> | |
| <description>When 1, the Second value is not compared for the alarm.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>AMRMIN</name> | |
| <description>When 1, the Minutes value is not compared for the alarm.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>AMRHOUR</name> | |
| <description>When 1, the Hour value is not compared for the alarm.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>AMRDOM</name> | |
| <description>When 1, the Day of Month value is not compared for the alarm.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>AMRDOW</name> | |
| <description>When 1, the Day of Week value is not compared for the alarm.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>AMRDOY</name> | |
| <description>When 1, the Day of Year value is not compared for the alarm.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>AMRMON</name> | |
| <description>When 1, the Month value is not compared for the alarm.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>AMRYEAR</name> | |
| <description>When 1, the Year value is not compared for the alarm.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CTIME0</name> | |
| <description>Consolidated Time Register 0</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>SECONDS</name> | |
| <description>Seconds value in the range of 0 to 59</description> | |
| <bitRange>[5:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>MINUTES</name> | |
| <description>Minutes value in the range of 0 to 59</description> | |
| <bitRange>[13:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>HOURS</name> | |
| <description>Hours value in the range of 0 to 23</description> | |
| <bitRange>[20:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[23:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>DOW</name> | |
| <description>Day of week value in the range of 0 to 6</description> | |
| <bitRange>[26:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:27]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CTIME1</name> | |
| <description>Consolidated Time Register 1</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DOM</name> | |
| <description>Day of month value in the range of 1 to 28, 29, 30, or 31 (depending on the month and whether it is a leap year).</description> | |
| <bitRange>[4:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>MONTH</name> | |
| <description>Month value in the range of 1 to 12.</description> | |
| <bitRange>[11:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>YEAR</name> | |
| <description>Year value in the range of 0 to 4095.</description> | |
| <bitRange>[27:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:28]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CTIME2</name> | |
| <description>Consolidated Time Register 2</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DOY</name> | |
| <description>Day of year value in the range of 1 to 365 (366 for leap years).</description> | |
| <bitRange>[11:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SEC</name> | |
| <description>Seconds Counter</description> | |
| <addressOffset>0x020</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>SECONDS</name> | |
| <description>Seconds value in the range of 0 to 59</description> | |
| <bitRange>[5:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MIN</name> | |
| <description>Minutes Register</description> | |
| <addressOffset>0x024</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>MINUTES</name> | |
| <description>Minutes value in the range of 0 to 59</description> | |
| <bitRange>[5:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>HRS</name> | |
| <description>Hours Register</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>HOURS</name> | |
| <description>Hours value in the range of 0 to 23</description> | |
| <bitRange>[4:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:5]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DOM</name> | |
| <description>Day of Month Register</description> | |
| <addressOffset>0x02C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DOM</name> | |
| <description>Day of month value in the range of 1 to 28, 29, 30, or 31 (depending on the month and whether it is a leap year).</description> | |
| <bitRange>[4:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:5]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DOW</name> | |
| <description>Day of Week Register</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DOW</name> | |
| <description>Day of week value in the range of 0 to 6.</description> | |
| <bitRange>[2:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:3]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DOY</name> | |
| <description>Day of Year Register</description> | |
| <addressOffset>0x034</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DOY</name> | |
| <description>Day of year value in the range of 1 to 365 (366 for leap years).</description> | |
| <bitRange>[8:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:9]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MONTH</name> | |
| <description>Months Register</description> | |
| <addressOffset>0x038</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>MONTH</name> | |
| <description>Month value in the range of 1 to 12.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>YEAR</name> | |
| <description>Years Register</description> | |
| <addressOffset>0x03C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>YEAR</name> | |
| <description>Year value in the range of 0 to 4095.</description> | |
| <bitRange>[11:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CALIBRATION</name> | |
| <description>Calibration Value Register</description> | |
| <addressOffset>0x040</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>CALVAL</name> | |
| <description>If enabled, the calibration counter counts up to this value. The maximum value is 131, 072 corresponding to about 36.4 hours. Calibration is disabled if CALVAL = 0.</description> | |
| <bitRange>[16:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CALDIR</name> | |
| <description>Calibration direction</description> | |
| <bitRange>[17:17]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>BACKWARD_CALIBRATION</name> | |
| <description>Backward calibration. When CALVAL is equal to the calibration counter, the RTC timers will stop incrementing for 1 second.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FORWARD_CALIBRATION_</name> | |
| <description>Forward calibration. When CALVAL is equal to the calibration counter, the RTC timers will jump by 2 seconds.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>5</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-4</dimIndex> | |
| <name>GPREG%s</name> | |
| <description>General Purpose Register 0</description> | |
| <addressOffset>0x044</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>GP</name> | |
| <description>General purpose storage.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RTC_AUX</name> | |
| <description>RTC Auxiliary control register</description> | |
| <addressOffset>0x05C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x10</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTC_OSCF</name> | |
| <description>RTC Oscillator Fail detect flag. Read: this bit is set if the RTC oscillator stops, and when RTC power is first turned on. An interrupt will occur when this bit is set, the RTC_OSCFEN bit in RTC_AUXEN is a 1, and the RTC interrupt is enabled in the NVIC. Write: writing a 1 to this bit clears the flag.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTC_PDOUT</name> | |
| <description>When 0: the RTC_ALARM pin reflects the RTC alarm status. When 1: the RTC_ALARM pin indicates Deep Power-down mode.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:7]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RTC_AUXEN</name> | |
| <description>RTC Auxiliary Enable register</description> | |
| <addressOffset>0x058</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTC_OSCFEN</name> | |
| <description>Oscillator Fail Detect interrupt enable. When 0: the RTC Oscillator Fail detect interrupt is disabled. When 1: the RTC Oscillator Fail detect interrupt is enabled. See Section 30.6.2.5.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:5]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ASEC</name> | |
| <description>Alarm value for Seconds</description> | |
| <addressOffset>0x060</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>SECONDS</name> | |
| <description>Seconds value in the range of 0 to 59</description> | |
| <bitRange>[5:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>AMIN</name> | |
| <description>Alarm value for Minutes</description> | |
| <addressOffset>0x64</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>MINUTES</name> | |
| <description>Minutes value in the range of 0 to 59</description> | |
| <bitRange>[5:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>AHRS</name> | |
| <description>Alarm value for Hours</description> | |
| <addressOffset>0x068</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>HOURS</name> | |
| <description>Hours value in the range of 0 to 23</description> | |
| <bitRange>[4:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:5]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ADOM</name> | |
| <description>Alarm value for Day of Month</description> | |
| <addressOffset>0x06C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DOM</name> | |
| <description>Day of month value in the range of 1 to 28, 29, 30, or 31 (depending on the month and whether it is a leap year).</description> | |
| <bitRange>[4:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:5]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ADOW</name> | |
| <description>Alarm value for Day of Week</description> | |
| <addressOffset>0x070</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DOW</name> | |
| <description>Day of week value in the range of 0 to 6.</description> | |
| <bitRange>[2:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:3]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ADOY</name> | |
| <description>Alarm value for Day of Year</description> | |
| <addressOffset>0x074</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DOY</name> | |
| <description>Day of year value in the range of 1 to 365 (366 for leap years).</description> | |
| <bitRange>[8:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:9]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>AMON</name> | |
| <description>Alarm value for Months</description> | |
| <addressOffset>0x078</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>MONTH</name> | |
| <description>Month value in the range of 1 to 12.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>AYRS</name> | |
| <description>Alarm value for Year</description> | |
| <addressOffset>0x07C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>YEAR</name> | |
| <description>Year value in the range of 0 to 4095.</description> | |
| <bitRange>[11:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>GPIOINT</name> | |
| <description>GPIO</description> | |
| <groupName>GPIOINT</groupName> | |
| <!-- change this to base address 0x40028080 to be backwards compatible WHY???? --> | |
| <baseAddress>0x40028080</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <registers> | |
| <register> | |
| <name>STATUS</name> | |
| <description>GPIO overall Interrupt Status.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0INT</name> | |
| <description>Port 0 GPIO interrupt pending.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_PENDING_INTERRUPT</name> | |
| <description>No pending interrupts on Port 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AT_LEAST_ONE_PENDING</name> | |
| <description>At least one pending interrupt on Port 0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2INT</name> | |
| <description>Port 2 GPIO interrupt pending.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_PENDING_INTERRUPT</name> | |
| <description>No pending interrupts on Port 2.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AT_LEAST_ONE_PENDING</name> | |
| <description>At least one pending interrupt on Port 2.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:2]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>STATR0</name> | |
| <description>GPIO Interrupt Status for Rising edge for Port 0.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_0REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[0]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_1REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[1]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_2REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[2]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_3REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[3]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_4REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[4]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_5REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[5]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_6REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[6]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_7REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[7]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_8REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[8]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_9REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[9]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_10REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[10]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_11REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[11]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_12REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[12]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_13REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[13]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_14REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[14]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_15REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[15]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_16REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[16]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_17REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[17]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_18REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[18]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_19REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[19]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_20REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[20]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_21REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[21]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[21:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_22REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[22]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[22:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_23REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[23]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[23:23]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_24REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[24]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[24:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_25REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[25]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[25:25]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_26REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[26]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[26:26]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_27REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[27]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[27:27]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_28REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[28]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[28:28]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_29REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[29]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_30REI</name> | |
| <description>Status of Rising Edge Interrupt for P0[30]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>STATF0</name> | |
| <description>GPIO Interrupt Status for Falling edge for Port 0.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_0FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[0]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_1FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[1]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_2FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[2]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_3FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[3]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_4FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[4]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_5FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[5]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_6FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[6]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_7FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[7]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_8FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[8]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_9FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[9]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_10FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[10]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_11FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[11]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_12FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[12]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_13FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[13]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_14FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[14]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_15FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[15]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_16FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[16]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_17FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[17]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_18FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[18]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_19FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[19]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_20FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[20]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_21FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[21]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[21:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_22FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[22]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[22:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_23FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[23]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[23:23]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_24FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[24]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[24:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_25FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[25]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[25:25]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_26FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[26]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[26:26]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_27FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[27]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[27:27]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_28FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[28]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[28:28]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_29FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[29]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_30FEI</name> | |
| <description>Status of Falling Edge Interrupt for P0[30]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CLR0</name> | |
| <description>GPIO Interrupt Clear.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_0CI</name> | |
| <description>Clear GPIO port Interrupts for P0[0]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_1CI</name> | |
| <description>Clear GPIO port Interrupts for P0[1]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_2CI</name> | |
| <description>Clear GPIO port Interrupts for P0[2]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_3CI</name> | |
| <description>Clear GPIO port Interrupts for P0[3]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_4CI</name> | |
| <description>Clear GPIO port Interrupts for P0[4]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_5CI</name> | |
| <description>Clear GPIO port Interrupts for P0[5]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_6CI</name> | |
| <description>Clear GPIO port Interrupts for P0[6]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_7CI</name> | |
| <description>Clear GPIO port Interrupts for P0[7]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_8CI</name> | |
| <description>Clear GPIO port Interrupts for P0[8]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_9CI</name> | |
| <description>Clear GPIO port Interrupts for P0[9]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_10CI</name> | |
| <description>Clear GPIO port Interrupts for P0[10]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_11CI</name> | |
| <description>Clear GPIO port Interrupts for P0[11]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_12CI</name> | |
| <description>Clear GPIO port Interrupts for P0[12]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_13CI</name> | |
| <description>Clear GPIO port Interrupts for P0[13]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_14CI</name> | |
| <description>Clear GPIO port Interrupts for P0[14]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_15CI</name> | |
| <description>Clear GPIO port Interrupts for P0[15]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_16CI</name> | |
| <description>Clear GPIO port Interrupts for P0[16]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_17CI</name> | |
| <description>Clear GPIO port Interrupts for P0[17]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_18CI</name> | |
| <description>Clear GPIO port Interrupts for P0[18]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_19CI</name> | |
| <description>Clear GPIO port Interrupts for P0[19]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_20CI</name> | |
| <description>Clear GPIO port Interrupts for P0[20]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_21CI</name> | |
| <description>Clear GPIO port Interrupts for P0[21]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[21:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_22CI</name> | |
| <description>Clear GPIO port Interrupts for P0[22]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[22:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_23CI</name> | |
| <description>Clear GPIO port Interrupts for P0[23]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[23:23]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_24CI</name> | |
| <description>Clear GPIO port Interrupts for P0[24]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[24:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_25CI</name> | |
| <description>Clear GPIO port Interrupts for P0[25]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[25:25]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_26CI</name> | |
| <description>Clear GPIO port Interrupts for P0[26]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[26:26]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_27CI</name> | |
| <description>Clear GPIO port Interrupts for P0[27]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[27:27]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_28CI</name> | |
| <description>Clear GPIO port Interrupts for P0[28]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[28:28]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_29CI</name> | |
| <description>Clear GPIO port Interrupts for P0[29]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_30CI</name> | |
| <description>Clear GPIO port Interrupts for P0[30]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ENR0</name> | |
| <description>GPIO Interrupt Enable for Rising edge for Port 0.</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_0ER</name> | |
| <description>Enable rising edge interrupt for P0[0]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_1ER</name> | |
| <description>Enable rising edge interrupt for P0[1]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_2ER</name> | |
| <description>Enable rising edge interrupt for P0[2]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_3ER</name> | |
| <description>Enable rising edge interrupt for P0[3]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_4ER</name> | |
| <description>Enable rising edge interrupt for P0[4]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_5ER</name> | |
| <description>Enable rising edge interrupt for P0[5]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_6ER</name> | |
| <description>Enable rising edge interrupt for P0[6]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_7ER</name> | |
| <description>Enable rising edge interrupt for P0[7]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_8ER</name> | |
| <description>Enable rising edge interrupt for P0[8]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_9ER</name> | |
| <description>Enable rising edge interrupt for P0[9]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_10ER</name> | |
| <description>Enable rising edge interrupt for P0[10]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_11ER</name> | |
| <description>Enable rising edge interrupt for P0[11]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_12ER</name> | |
| <description>Enable rising edge interrupt for P0[12]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_13ER</name> | |
| <description>Enable rising edge interrupt for P0[13]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_14ER</name> | |
| <description>Enable rising edge interrupt for P0[14]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_15ER</name> | |
| <description>Enable rising edge interrupt for P0[15]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_16ER</name> | |
| <description>Enable rising edge interrupt for P0[16]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_17ER</name> | |
| <description>Enable rising edge interrupt for P0[17]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_18ER</name> | |
| <description>Enable rising edge interrupt for P0[18]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_19ER</name> | |
| <description>Enable rising edge interrupt for P0[19]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_20ER</name> | |
| <description>Enable rising edge interrupt for P0[20]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_21ER</name> | |
| <description>Enable rising edge interrupt for P0[21]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[21:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_22ER</name> | |
| <description>Enable rising edge interrupt for P0[22]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[22:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_23ER</name> | |
| <description>Enable rising edge interrupt for P0[23]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[23:23]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_24ER</name> | |
| <description>Enable rising edge interrupt for P0[24]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[24:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_25ER</name> | |
| <description>Enable rising edge interrupt for P0[25]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[25:25]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_26ER</name> | |
| <description>Enable rising edge interrupt for P0[26]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[26:26]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_27ER</name> | |
| <description>Enable rising edge interrupt for P0[27]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[27:27]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_28ER</name> | |
| <description>Enable rising edge interrupt for P0[28]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[28:28]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_29ER</name> | |
| <description>Enable rising edge interrupt for P0[29]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_30ER</name> | |
| <description>Enable rising edge interrupt for P0[30]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ENF0</name> | |
| <description>GPIO Interrupt Enable for Falling edge for Port 0.</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_0EF</name> | |
| <description>Enable falling edge interrupt for P0[0]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_1EF</name> | |
| <description>Enable falling edge interrupt for P0[1]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_2EF</name> | |
| <description>Enable falling edge interrupt for P0[2]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_3EF</name> | |
| <description>Enable falling edge interrupt for P0[3]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_4EF</name> | |
| <description>Enable falling edge interrupt for P0[4]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_5EF</name> | |
| <description>Enable falling edge interrupt for P0[5]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_6EF</name> | |
| <description>Enable falling edge interrupt for P0[6]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_7EF</name> | |
| <description>Enable falling edge interrupt for P0[7]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_8EF</name> | |
| <description>Enable falling edge interrupt for P0[8]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_9EF</name> | |
| <description>Enable falling edge interrupt for P0[9]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_10EF</name> | |
| <description>Enable falling edge interrupt for P0[10]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_11EF</name> | |
| <description>Enable falling edge interrupt for P0[11]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_12EF</name> | |
| <description>Enable falling edge interrupt for P0[12]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_13EF</name> | |
| <description>Enable falling edge interrupt for P0[13]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_14EF</name> | |
| <description>Enable falling edge interrupt for P0[14]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_15EF</name> | |
| <description>Enable falling edge interrupt for P0[15]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_16EF</name> | |
| <description>Enable falling edge interrupt for P0[16]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_17EF</name> | |
| <description>Enable falling edge interrupt for P0[17]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_18EF</name> | |
| <description>Enable falling edge interrupt for P0[18]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_19EF</name> | |
| <description>Enable falling edge interrupt for P0[19]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_20EF</name> | |
| <description>Enable falling edge interrupt for P0[20]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_21EF</name> | |
| <description>Enable falling edge interrupt for P0[21]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[21:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_22EF</name> | |
| <description>Enable falling edge interrupt for P0[22]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[22:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_23EF</name> | |
| <description>Enable falling edge interrupt for P0[23]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[23:23]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_24EF</name> | |
| <description>Enable falling edge interrupt for P0[24]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[24:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_25EF</name> | |
| <description>Enable falling edge interrupt for P0[25]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[25:25]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_26EF</name> | |
| <description>Enable falling edge interrupt for P0[26]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[26:26]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_27EF</name> | |
| <description>Enable falling edge interrupt for P0[27]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[27:27]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_28EF</name> | |
| <description>Enable falling edge interrupt for P0[28]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[28:28]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_29EF</name> | |
| <description>Enable falling edge interrupt for P0[29]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_30EF</name> | |
| <description>Enable falling edge interrupt for P0[30]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>STATR2</name> | |
| <description>GPIO Interrupt Status for Rising edge for Port 0.</description> | |
| <addressOffset>0x024</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P2_0REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[0]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_1REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[1]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_2REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[2]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_3REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[3]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_4REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[4]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_5REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[5]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_6REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[6]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_7REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[7]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_8REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[8]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_9REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[9]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_10REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[10]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_11REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[11]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_12REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[12]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_13REI</name> | |
| <description>Status of Rising Edge Interrupt for P2[13]. 0 = No rising edge detected. 1 = Rising edge interrupt generated.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:14]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>STATF2</name> | |
| <description>GPIO Interrupt Status for Falling edge for Port 0.</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P2_0FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[0]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_1FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[1]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_2FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[2]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_3FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[3]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_4FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[4]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_5FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[5]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_6FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[6]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_7FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[7]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_8FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[8]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_9FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[9]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_10FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[10]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_11FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[11]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_12FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[12]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_13FEI</name> | |
| <description>Status of Falling Edge Interrupt for P2[13]. 0 = No falling edge detected. 1 = Falling edge interrupt generated.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:14]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CLR2</name> | |
| <description>GPIO Interrupt Clear.</description> | |
| <addressOffset>0x02C</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P2_0CI</name> | |
| <description>Clear GPIO port Interrupts for P2[0]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_1CI</name> | |
| <description>Clear GPIO port Interrupts for P2[1]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_2CI</name> | |
| <description>Clear GPIO port Interrupts for P2[2]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_3CI</name> | |
| <description>Clear GPIO port Interrupts for P2[3]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_4CI</name> | |
| <description>Clear GPIO port Interrupts for P2[4]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_5CI</name> | |
| <description>Clear GPIO port Interrupts for P2[5]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_6CI</name> | |
| <description>Clear GPIO port Interrupts for P2[6]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_7CI</name> | |
| <description>Clear GPIO port Interrupts for P2[7]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_8CI</name> | |
| <description>Clear GPIO port Interrupts for P2[8]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_9CI</name> | |
| <description>Clear GPIO port Interrupts for P2[9]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_10CI</name> | |
| <description>Clear GPIO port Interrupts for P2[10]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_11CI</name> | |
| <description>Clear GPIO port Interrupts for P2[11]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_12CI</name> | |
| <description>Clear GPIO port Interrupts for P2[12]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_13CI</name> | |
| <description>Clear GPIO port Interrupts for P2[13]. 0 = No effect. 1 = Clear corresponding bits in IOnINTSTATR and IOnSTATF.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:14]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ENR2</name> | |
| <description>GPIO Interrupt Enable for Rising edge for Port 0.</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P2_0ER</name> | |
| <description>Enable rising edge interrupt for P2[0]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_1ER</name> | |
| <description>Enable rising edge interrupt for P2[1]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_2ER</name> | |
| <description>Enable rising edge interrupt for P2[2]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_3ER</name> | |
| <description>Enable rising edge interrupt for P2[3]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_4ER</name> | |
| <description>Enable rising edge interrupt for P2[4]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_5ER</name> | |
| <description>Enable rising edge interrupt for P2[5]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_6ER</name> | |
| <description>Enable rising edge interrupt for P2[6]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_7ER</name> | |
| <description>Enable rising edge interrupt for P2[7]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_8ER</name> | |
| <description>Enable rising edge interrupt for P2[8]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_9ER</name> | |
| <description>Enable rising edge interrupt for P2[9]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_10ER</name> | |
| <description>Enable rising edge interrupt for P2[10]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_11ER</name> | |
| <description>Enable rising edge interrupt for P2[11]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_12ER</name> | |
| <description>Enable rising edge interrupt for P2[12]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_13ER</name> | |
| <description>Enable rising edge interrupt for P2[13]. 0 = Disable rising edge interrupt. 1 = Enable rising edge interrupt.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:14]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ENF2</name> | |
| <description>GPIO Interrupt Enable for Falling edge for Port 0.</description> | |
| <addressOffset>0x034</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P2_0EF</name> | |
| <description>Enable falling edge interrupt for P2[0]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_1EF</name> | |
| <description>Enable falling edge interrupt for P2[1]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_2EF</name> | |
| <description>Enable falling edge interrupt for P2[2]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_3EF</name> | |
| <description>Enable falling edge interrupt for P2[3]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_4EF</name> | |
| <description>Enable falling edge interrupt for P2[4]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_5EF</name> | |
| <description>Enable falling edge interrupt for P2[5]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_6EF</name> | |
| <description>Enable falling edge interrupt for P2[6]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_7EF</name> | |
| <description>Enable falling edge interrupt for P2[7]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_8EF</name> | |
| <description>Enable falling edge interrupt for P2[8]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_9EF</name> | |
| <description>Enable falling edge interrupt for P2[9]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_10EF</name> | |
| <description>Enable falling edge interrupt for P2[10]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_11EF</name> | |
| <description>Enable falling edge interrupt for P2[11]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_12EF</name> | |
| <description>Enable falling edge interrupt for P2[12]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P2_13EF</name> | |
| <description>Enable falling edge interrupt for P2[13]. 0 = Disable falling edge interrupt. 1 = Enable falling edge interrupt.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:14]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>PINCONNECT</name> | |
| <description>Pin connect block</description> | |
| <baseAddress>0x4002C000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <registers> | |
| <register> | |
| <name>PINSEL0</name> | |
| <description>Pin function select register 0.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_0</name> | |
| <description>Pin function select P0.0.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.0</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RD1</name> | |
| <description>RD1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TXD3</name> | |
| <description>TXD3</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SDA1</name> | |
| <description>SDA1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_1</name> | |
| <description>Pin function select P0.1.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.1</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TD1</name> | |
| <description>TD1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RXD3</name> | |
| <description>RXD3</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCL1</name> | |
| <description>SCL1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_2</name> | |
| <description>Pin function select P0.2.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.2</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TXD0</name> | |
| <description>TXD0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AD0</name> | |
| <description>AD0.7</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_3</name> | |
| <description>Pin function select P0.3.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.3.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RXD0</name> | |
| <description>RXD0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AD0</name> | |
| <description>AD0.6</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_4</name> | |
| <description>Pin function select P0.4.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.4.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2SRX_CLK</name> | |
| <description>I2SRX_CLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RD2</name> | |
| <description>RD2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CAP2</name> | |
| <description>CAP2.0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_5</name> | |
| <description>Pin function select P0.5.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.5.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2SRX_WS</name> | |
| <description>I2SRX_WS</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TD2</name> | |
| <description>TD2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CAP2</name> | |
| <description>CAP2.1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_6</name> | |
| <description>Pin function select P0.6.</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.6.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2SRX_SDA</name> | |
| <description>I2SRX_SDA</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SSEL1</name> | |
| <description>SSEL1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT2</name> | |
| <description>MAT2.0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_7</name> | |
| <description>Pin function select P0.7.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.7.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2STX_CLK</name> | |
| <description>I2STX_CLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCK1</name> | |
| <description>SCK1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT2</name> | |
| <description>MAT2.1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_8</name> | |
| <description>Pin function select P0.8.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.8.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2STX_WS</name> | |
| <description>I2STX_WS</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MISO1</name> | |
| <description>MISO1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT2</name> | |
| <description>MAT2.2</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_9</name> | |
| <description>Pin function select P0.9.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.9</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2STX_SDA</name> | |
| <description>I2STX_SDA</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MOSI1</name> | |
| <description>MOSI1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT2</name> | |
| <description>MAT2.3</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_10</name> | |
| <description>Pin function select P0.10.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.10</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TXD2</name> | |
| <description>TXD2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SDA2</name> | |
| <description>SDA2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT3</name> | |
| <description>MAT3.0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_11</name> | |
| <description>Pin function select P0.11.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.11</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RXD2</name> | |
| <description>RXD2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCL2</name> | |
| <description>SCL2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT3</name> | |
| <description>MAT3.1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[29:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_15</name> | |
| <description>Pin function select P0.15.</description> | |
| <bitRange>[31:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.15</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TXD1</name> | |
| <description>TXD1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCK0</name> | |
| <description>SCK0</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCK</name> | |
| <description>SCK</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINSEL1</name> | |
| <description>Pin function select register 1.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_16</name> | |
| <description>Pin function select P0.16.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.16</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RXD1</name> | |
| <description>RXD1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SSEL0</name> | |
| <description>SSEL0</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SSEL</name> | |
| <description>SSEL</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_17</name> | |
| <description>Pin function select P0.17.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.17</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CTS1</name> | |
| <description>CTS1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MISO0</name> | |
| <description>MISO0</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MISO</name> | |
| <description>MISO</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_18</name> | |
| <description>Pin function select P0.18.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.18</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DCD1</name> | |
| <description>DCD1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MOSI0</name> | |
| <description>MOSI0</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MOSI</name> | |
| <description>MOSI</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_19</name> | |
| <description>Pin function select P019.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.19.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DSR1</name> | |
| <description>DSR1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SDA1</name> | |
| <description>SDA1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_20</name> | |
| <description>Pin function select P0.20.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.20.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DTR1</name> | |
| <description>DTR1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCL1</name> | |
| <description>SCL1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_21</name> | |
| <description>Pin function select P0.21.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_PORT_0</name> | |
| <description>GPIO Port 0.21.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RI1</name> | |
| <description>RI1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RD1</name> | |
| <description>RD1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_22</name> | |
| <description>Pin function select P022</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.22.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RTS1</name> | |
| <description>RTS1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TD1</name> | |
| <description>TD1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_23</name> | |
| <description>Pin function select P023.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.23.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AD0</name> | |
| <description>AD0.0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2SRX_CLK</name> | |
| <description>I2SRX_CLK</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CAP3</name> | |
| <description>CAP3.0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_24</name> | |
| <description>Pin function select P0.24.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.24.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AD0</name> | |
| <description>AD0.1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2SRX_WS</name> | |
| <description>I2SRX_WS</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CAP3</name> | |
| <description>CAP3.1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_25</name> | |
| <description>Pin function select P0.25.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.25</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AD0</name> | |
| <description>AD0.2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2SRX_SDA</name> | |
| <description>I2SRX_SDA</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TXD3</name> | |
| <description>TXD3</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_26</name> | |
| <description>Pin function select P0.26.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.26</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AD0</name> | |
| <description>AD0.3</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AOUT</name> | |
| <description>AOUT</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RXD3</name> | |
| <description>RXD3</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_27</name> | |
| <description>Pin function select P0.27.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.27</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SDA0</name> | |
| <description>SDA0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>USB_SDA</name> | |
| <description>USB_SDA</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_28</name> | |
| <description>Pin function select P0.28.</description> | |
| <bitRange>[25:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.28</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCL0</name> | |
| <description>SCL0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>USB_SCL</name> | |
| <description>USB_SCL</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_29</name> | |
| <description>Pin function select P0.29</description> | |
| <bitRange>[27:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.29</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>USB_DP</name> | |
| <description>USB_D+</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_30</name> | |
| <description>Pin function select P0.30.</description> | |
| <bitRange>[29:28]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P0</name> | |
| <description>GPIO P0.30</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>USB_DM</name> | |
| <description>USB_D-</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <bitRange>[31:30]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINSEL2</name> | |
| <description>Pin function select register 2.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P1_0</name> | |
| <description>Pin function select P1.0.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.0</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_TXD0</name> | |
| <description>ENET_TXD0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_1</name> | |
| <description>Pin function select P1.1.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.1</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_TXD1</name> | |
| <description>ENET_TXD1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_4</name> | |
| <description>Pin function select P1.4.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.4.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_TX_EN</name> | |
| <description>ENET_TX_EN</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[15:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_8</name> | |
| <description>Pin function select P1.8.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.8.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_CRS</name> | |
| <description>ENET_CRS</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_9</name> | |
| <description>Pin function select P1.9.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_PORT_1</name> | |
| <description>GPIO Port 1.9</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_RXD0</name> | |
| <description>ENET_RXD0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_10</name> | |
| <description>Pin function select P1.10.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.10</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_RXD1</name> | |
| <description>ENET_RXD1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[29:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_14</name> | |
| <description>Pin function select P1.14.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.14</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_RX_ER</name> | |
| <description>ENET_RX_ER</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[29:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_15</name> | |
| <description>Pin function select P1.15.</description> | |
| <bitRange>[31:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.15</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_REF_CLK</name> | |
| <description>ENET_REF_CLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINSEL3</name> | |
| <description>Pin function select register 3.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P1_16</name> | |
| <description>Pin function select P1.16.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.16</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_MDC</name> | |
| <description>ENET_MDC</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_17</name> | |
| <description>Pin function select P1.17.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.17</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_MDIO</name> | |
| <description>ENET_MDIO</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_18</name> | |
| <description>Pin function select P1.18.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.18</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>USB_UP_LED</name> | |
| <description>USB_UP_LED</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CAP1</name> | |
| <description>CAP1.0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_19</name> | |
| <description>Pin function select P1.19.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.19.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOA0</name> | |
| <description>MCOA0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>USB_PPWR</name> | |
| <description>USB_PPWR</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CAP1</name> | |
| <description>CAP1.1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_20</name> | |
| <description>Pin function select P1.20.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.20.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCI0</name> | |
| <description>MCI0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCK0</name> | |
| <description>SCK0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_21</name> | |
| <description>Pin function select P1.21.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.21.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCABORT</name> | |
| <description>MCABORT</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.3</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SSEL0</name> | |
| <description>SSEL0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_22</name> | |
| <description>Pin function select P1.22</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.22.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOB0</name> | |
| <description>MCOB0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>USB_PWRD</name> | |
| <description>USB_PWRD</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT1</name> | |
| <description>MAT1.0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_23</name> | |
| <description>Pin function select P1.23.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.23.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCI1</name> | |
| <description>MCI1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.4</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MISO0</name> | |
| <description>MISO0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_24</name> | |
| <description>Pin function select P1.24.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.24.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCI2</name> | |
| <description>MCI2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.5</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MOSI0</name> | |
| <description>MOSI0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_25</name> | |
| <description>Pin function select P1.25.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.25</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOA1</name> | |
| <description>MCOA1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT1</name> | |
| <description>MAT1.1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_26</name> | |
| <description>Pin function select P1.26.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.26</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOB1</name> | |
| <description>MCOB1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.6</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CAP0</name> | |
| <description>CAP0.0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_27</name> | |
| <description>Pin function select P1.27.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.27</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CLKOUT</name> | |
| <description>CLKOUT</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>USB_OVRCR</name> | |
| <description>USB_OVRCR</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CAP0</name> | |
| <description>CAP0.1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_28</name> | |
| <description>Pin function select P1.28.</description> | |
| <bitRange>[25:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.28</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOA2</name> | |
| <description>MCOA2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PCAP1</name> | |
| <description>PCAP1.0</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT0</name> | |
| <description>MAT0.0</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_29</name> | |
| <description>Pin function select P1.29</description> | |
| <bitRange>[27:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.29</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOB2</name> | |
| <description>MCOB2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PCAP1</name> | |
| <description>PCAP1.1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT0</name> | |
| <description>MAT0.1</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_30</name> | |
| <description>Pin function select P1.30.</description> | |
| <bitRange>[29:28]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P1</name> | |
| <description>GPIO P1.30</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>VBUS</name> | |
| <description>VBUS</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AD0</name> | |
| <description>AD0.4</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_31</name> | |
| <description>Pin function select P1.31.</description> | |
| <bitRange>[31:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_PORT_1</name> | |
| <description>GPIO Port 1.31</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SCK1</name> | |
| <description>SCK1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>AD0</name> | |
| <description>AD0.5</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINSEL4</name> | |
| <description>Pin function select register 4</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P2_0</name> | |
| <description>Pin function select P2.0.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.0</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TXD1</name> | |
| <description>TXD1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_1</name> | |
| <description>Pin function select P2.1.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.1</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RXD1</name> | |
| <description>RXD1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_2</name> | |
| <description>Pin function select P2.2.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.2</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.3</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CTS1</name> | |
| <description>CTS1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_3</name> | |
| <description>Pin function select P2.3.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.3.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.4</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DCD1</name> | |
| <description>DCD1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_4</name> | |
| <description>Pin function select P2.4.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.4.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.5</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DSR1</name> | |
| <description>DSR1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_5</name> | |
| <description>Pin function select P2.5.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.5.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.6</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DTR1</name> | |
| <description>DTR1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_6</name> | |
| <description>Pin function select P2.6.</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.6.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PCAP1</name> | |
| <description>PCAP1.0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RI1</name> | |
| <description>RI1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_7</name> | |
| <description>Pin function select P2.7.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.7.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RD2</name> | |
| <description>RD2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RTS1</name> | |
| <description>RTS1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_8</name> | |
| <description>Pin function select P2.8.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.8.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TD2</name> | |
| <description>TD2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TXD2</name> | |
| <description>TXD2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_MDC</name> | |
| <description>ENET_MDC</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_9</name> | |
| <description>Pin function select P2.9.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.9</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>USB_CONNECT</name> | |
| <description>USB_CONNECT</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RXD2</name> | |
| <description>RXD2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENET_MDIO</name> | |
| <description>ENET_MDIO</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_10</name> | |
| <description>Pin function select P2.10.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.10</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EINT0</name> | |
| <description>EINT0</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>NMI</name> | |
| <description>NMI</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_11</name> | |
| <description>Pin function select P2.11.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.11</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EINT1</name> | |
| <description>EINT1</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2STX_CLK</name> | |
| <description>I2STX_CLK</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_12</name> | |
| <description>Pin function select P2.12.</description> | |
| <bitRange>[25:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.12</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EINT2</name> | |
| <description>EINT2</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2STX_WS</name> | |
| <description>I2STX_WS</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_13</name> | |
| <description>Pin function select P2.13.</description> | |
| <bitRange>[27:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P2</name> | |
| <description>GPIO P2.13</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EINT3</name> | |
| <description>EINT3</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>I2STX_SDA</name> | |
| <description>I2STX_SDA</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:28]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINSEL7</name> | |
| <description>Pin function select register 7</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[17:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P3_25</name> | |
| <description>Pin function select P3.25.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P3</name> | |
| <description>GPIO P3.25</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT0</name> | |
| <description>MAT0.0</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.2</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P3_26</name> | |
| <description>Pin function select P3.26.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P3</name> | |
| <description>GPIO P3.26</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STCLK</name> | |
| <description>STCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT0</name> | |
| <description>MAT0.1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PWM1</name> | |
| <description>PWM1.3</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:22]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINSEL9</name> | |
| <description>Pin function select register 9</description> | |
| <addressOffset>0x024</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[23:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P4_28</name> | |
| <description>Pin function select P4.28.</description> | |
| <bitRange>[25:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P4</name> | |
| <description>GPIO P4.28</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RX_MCLK</name> | |
| <description>RX_MCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT2</name> | |
| <description>MAT2.0</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TXD3</name> | |
| <description>TXD3</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P4_29</name> | |
| <description>Pin function select P4.29.</description> | |
| <bitRange>[27:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>GPIO_P4</name> | |
| <description>GPIO P4.29</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TX_MCLK</name> | |
| <description>TX_MCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT2</name> | |
| <description>MAT2.1</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RXD3</name> | |
| <description>RXD3</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:28]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINSEL10</name> | |
| <description>Pin function select register 10</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Software should not write 1 to these bits.</description> | |
| <bitRange>[2:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TPIUCTRL</name> | |
| <description>TPIU interface pins control.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. TPIU interface is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLED</name> | |
| <description>Enabled. TPIU interface is enabled. TPIU signals are available on the pins hosting them regardless of the PINSEL4 content.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Software should not write 1 to these bits.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE0</name> | |
| <description>Pin mode select register 0</description> | |
| <addressOffset>0x040</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_00MODE</name> | |
| <description>Port 0 pin 0 on-chip pull-up/down resistor control.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.0 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.0 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.0 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.0 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_01MODE</name> | |
| <description>Port 0 pin 1 control.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.1 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.1 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.1 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.1 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_02MODE</name> | |
| <description>Port 0 pin 2 control.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.2 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.2 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.2 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.2 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_03MODE</name> | |
| <description>Port 0 pin 3 control.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.3 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.3 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.3 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.3 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_04MODE</name> | |
| <description>Port 0 pin 4 control.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.4 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.4 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.4 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.4 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_05MODE</name> | |
| <description>Port 0 pin 5 control.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.5 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.5 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.5 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.5 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_06MODE</name> | |
| <description>Port 0 pin 6 control.</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.6 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. Repeater. P0.6 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.6 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.6 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_07MODE</name> | |
| <description>Port 0 pin 7 control.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.7 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.7 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.7 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.7 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_08MODE</name> | |
| <description>Port 0 pin 8 control.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.8 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.8 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.8 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.8 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_09MODE</name> | |
| <description>Port 0 pin 9 control.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.9 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.9 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.9 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.9 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_10MODE</name> | |
| <description>Port 0 pin 10 control.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.10 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.10 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.10 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.10 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_11MODE</name> | |
| <description>Port 0 pin 11 control.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.11 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.11 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.11 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.11 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[29:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_15MODE</name> | |
| <description>Port 0 pin 15 control.</description> | |
| <bitRange>[31:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.15 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.15 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.15 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.15 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE1</name> | |
| <description>Pin mode select register 1</description> | |
| <addressOffset>0x044</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_16MODE</name> | |
| <description>Port 1 pin 16 control.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.16 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.16 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.16 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.16 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_17MODE</name> | |
| <description>Port 1 pin 17 control.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.17 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.17 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.17 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.17 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_18MODE</name> | |
| <description>Port 1 pin 18 control.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.18 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.18 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.18 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.18 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_19MODE</name> | |
| <description>Port 1 pin 19 control.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.19 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.19 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.19 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.19 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_20MODE</name> | |
| <description>Port 1 pin 20 control.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.20 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.20 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.20 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.20 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_21MODE</name> | |
| <description>Port 1 pin 21 control.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.21 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.21 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.21 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.21 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_22MODE</name> | |
| <description>Port 1 pin 22 control.</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.22 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.22 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.22 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.22 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_23MODE</name> | |
| <description>Port 1 pin 23 control.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.23 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.23 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.23 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.23 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_24MODE</name> | |
| <description>Port 1 pin 24 control.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.24 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.24 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.24 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.24 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_25MODE</name> | |
| <description>Port 1 pin 25 control.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.25 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.25 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.25 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.25 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_26MODE</name> | |
| <description>Port 1 pin 26 control.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P0.26 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P0.26 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P0.26 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P0.26 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[29:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:30]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE2</name> | |
| <description>Pin mode select register 2</description> | |
| <addressOffset>0x048</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P1_00MODE</name> | |
| <description>Port 1 pin 0 control.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.0 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.0 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.0 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.0 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_01MODE</name> | |
| <description>Port 1 pin 1 control.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.1 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.1 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.1 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.1 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_04MODE</name> | |
| <description>Port 1 pin 4 control.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.4 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.4 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.4 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.4 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[15:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_08MODE</name> | |
| <description>Port 1 pin 8 control.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.8 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.8 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.8 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.8 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_09MODE</name> | |
| <description>Port 1 pin 9 control.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.9 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.9 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.9 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.9 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_10MODE</name> | |
| <description>Port 1 pin 10 control.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.10 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.10 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.10 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.10 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[27:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_14MODE</name> | |
| <description>Port 1 pin 14 control.</description> | |
| <bitRange>[29:28]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.14 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.14 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.14 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.14 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_15MODE</name> | |
| <description>Port 1 pin 15 control.</description> | |
| <bitRange>[31:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.15 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.15 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.15 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.15 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE3</name> | |
| <description>Pin mode select register 3.</description> | |
| <addressOffset>0x04C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P1_16MODE</name> | |
| <description>Port 1 pin 16 control.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.16 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.16 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.16 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.16 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_17MODE</name> | |
| <description>Port 1 pin 17 control.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.17 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.17 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.17 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.17 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_18MODE</name> | |
| <description>Port 1 pin 18 control.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.18 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.18 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.18 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.18 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_19MODE</name> | |
| <description>Port 1 pin 19 control.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.19 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.19 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.19 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.19 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_20MODE</name> | |
| <description>Port 1 pin 20 control.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.20 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.20 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.20 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.20 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_21MODE</name> | |
| <description>Port 1 pin 21 control.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.21 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.21 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.21 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.21 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_22MODE</name> | |
| <description>Port 1 pin 22 control.</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.22 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.22 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.22 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.22 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_23MODE</name> | |
| <description>Port 1 pin 23 control.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.23 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.23 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.23 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.23 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_24MODE</name> | |
| <description>Port 1 pin 24 control.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.24 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.24 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.24 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.24 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_25MODE</name> | |
| <description>Port 1 pin 25 control.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.25 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.25 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.25 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.25 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_26MODE</name> | |
| <description>Port 1 pin 26 control.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.26 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.26 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.26 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.26 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_27MODE</name> | |
| <description>Port 1 pin 27 control.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.27 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.27 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.27 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.27 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_28MODE</name> | |
| <description>Port 1 pin 28 control.</description> | |
| <bitRange>[25:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.28 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.28 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.28 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.28 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_29MODE</name> | |
| <description>Port 1 pin 29 control.</description> | |
| <bitRange>[27:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.29 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.29 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.29 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.29 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_30MODE</name> | |
| <description>Port 1 pin 30 control.</description> | |
| <bitRange>[29:28]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.30 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.30 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.30 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.30 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_31MODE</name> | |
| <description>Port 1 pin 31 control.</description> | |
| <bitRange>[31:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P1.31 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P1.31 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P1.31 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P1.31 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE4</name> | |
| <description>Pin mode select register 4</description> | |
| <addressOffset>0x050</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P2_00MODE</name> | |
| <description>Port 2 pin 0 control.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.0 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.0 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.0 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.0 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_01MODE</name> | |
| <description>Port 2 pin 1 control.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.1 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.1 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.1 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.1 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_02MODE</name> | |
| <description>Port 2 pin 2 control.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.2 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.2 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.2 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.2 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_03MODE</name> | |
| <description>Port 2 pin 3 control.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.3 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.3 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.3 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.3 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_04MODE</name> | |
| <description>Port 2 pin 4 control.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.4 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.4 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.4 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.4 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_05MODE</name> | |
| <description>Port 2 pin 5 control.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.5 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.5 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.5 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.5 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_06MODE</name> | |
| <description>Port 2 pin 6 control.</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.6 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.6 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.6 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.6 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_07MODE</name> | |
| <description>Port 2 pin 7 control.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.7 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.7 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.7 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.7 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_08MODE</name> | |
| <description>Port 2 pin 8 control.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.8 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.8 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.8 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.8 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_09MODE</name> | |
| <description>Port 2 pin 9 control.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.9 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.9 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.9 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.9 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_10MODE</name> | |
| <description>Port 2 pin 10 control.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.10 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.10 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.10 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.10 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_11MODE</name> | |
| <description>Port 2 pin 11 control.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.11 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.11 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.11 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.11 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_12MODE</name> | |
| <description>Port 2 pin 12 control.</description> | |
| <bitRange>[25:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.12 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.12 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.12 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.12 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_13MODE</name> | |
| <description>Port 2 pin 13 control.</description> | |
| <bitRange>[27:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P2.13 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P2.13 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P2.13 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P2.13 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:28]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE7</name> | |
| <description>Pin mode select register 7</description> | |
| <addressOffset>0x05C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <bitRange>[17:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P3_25MODE</name> | |
| <description>Port 3 pin 25 control.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P3.25 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P3.25 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P3.25 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P3.25 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P3_26MODE</name> | |
| <description>Port 3 pin 26 control.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P3.26 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P3.26 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P3.26 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P3.26 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:22]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE9</name> | |
| <description>Pin mode select register 9</description> | |
| <addressOffset>0x064</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[23:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P4_28MODE</name> | |
| <description>Port 4 pin 28 control.</description> | |
| <bitRange>[25:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P4.28 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P4.28 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P4.28 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P4.28 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P4_29MODE</name> | |
| <description>Port 4 pin 29 control.</description> | |
| <bitRange>[27:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PULL_UP</name> | |
| <description>Pull-up. P4.29 pin has a pull-up resistor enabled.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>REPEATER</name> | |
| <description>Repeater. P4.29 pin has repeater mode enabled.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. P4.29 pin has neither pull-up nor pull-down.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PULL_DOWN</name> | |
| <description>Pull-down. P4.29 has a pull-down resistor enabled.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:28]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE_OD0</name> | |
| <description>Open drain mode control register 0</description> | |
| <addressOffset>0x068</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P0_00OD</name> | |
| <description>Port 0 pin 0 open drain mode control. Pins may potentially be used for I2C-buses using standard port pins. If so, they should be configured for open drain mode via the related bits in PINMODE_OD0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.0 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.0 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_01OD</name> | |
| <description>Port 0 pin 1 open drain mode control. Pins may potentially be used for I2C-buses using standard port pins. If so, they should be configured for open drain mode via the related bits in PINMODE_OD0.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.1 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.1 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_02OD</name> | |
| <description>Port 0 pin 2 open drain mode control</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.2 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.2 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_03OD</name> | |
| <description>Port 0 pin 3 open drain mode control</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.3 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.3 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_04OD</name> | |
| <description>Port 0 pin 4 open drain mode control</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.4 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.4 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_05OD</name> | |
| <description>Port 0 pin 5 open drain mode control</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.5 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.5 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_06OD</name> | |
| <description>Port 0 pin 6 open drain mode control</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.6 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.6 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_07OD</name> | |
| <description>Port 0 pin 7 open drain mode control</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.7 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.7 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_08OD</name> | |
| <description>Port 0 pin 8 open drain mode control</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.8 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.8 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_09OD</name> | |
| <description>Port 0 pin 9 open drain mode control</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.9 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.9 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_10OD</name> | |
| <description>Port 0 pin 10 open drain mode control. Pins may potentially be used for I2C-buses using standard port pins. If so, they should be configured for open drain mode via the related bits in PINMODE_OD0.</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.10 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.10 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_11OD</name> | |
| <description>Port 0 pin 11 open drain mode control. Pins may potentially be used for I2C-buses using standard port pins. If so, they should be configured for open drain mode via the related bits in PINMODE_OD0.</description> | |
| <bitRange>[11:11]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.11 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.11 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[14:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_15OD</name> | |
| <description>Port 0 pin 15 open drain mode control</description> | |
| <bitRange>[15:15]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.15 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.15 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_16OD</name> | |
| <description>Port 0 pin 16 open drain mode control</description> | |
| <bitRange>[16:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.16 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.16 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_17OD</name> | |
| <description>Port 0 pin 17 open drain mode control</description> | |
| <bitRange>[17:17]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.17 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.17 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_18OD</name> | |
| <description>Port 0 pin 18 open drain mode control</description> | |
| <bitRange>[18:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.18 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.18 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_19OD</name> | |
| <description>Port 0 pin 19 open drain mode control. Pins may potentially be used for I2C-buses using standard port pins. If so, they should be configured for open drain mode via the related bits in PINMODE_OD0.</description> | |
| <bitRange>[19:19]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.19 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.19 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_20OD</name> | |
| <description>Port 0 pin 20open drain mode control. Pins may potentially be used for I2C-buses using standard port pins. If so, they should be configured for open drain mode via the related bits in PINMODE_OD0.</description> | |
| <bitRange>[20:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.20 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.20 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_21OD</name> | |
| <description>Port 0 pin 21 open drain mode control</description> | |
| <bitRange>[21:21]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.21 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.21 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_22OD</name> | |
| <description>Port 0 pin 22 open drain mode control</description> | |
| <bitRange>[22:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.22 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.22 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_23OD</name> | |
| <description>Port 0 pin 23 open drain mode control</description> | |
| <bitRange>[23:23]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.23 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.23 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_24OD</name> | |
| <description>Port 0 pin 24open drain mode control</description> | |
| <bitRange>[24:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.23 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.23 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_25OD</name> | |
| <description>Port 0 pin 25 open drain mode control</description> | |
| <bitRange>[25:25]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.25 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.25 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_26OD</name> | |
| <description>Port 0 pin 26 open drain mode control</description> | |
| <bitRange>[26:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.26 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.26 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[28:27]</bitRange> | |
| </field> | |
| <field> | |
| <name>P0_29OD</name> | |
| <description>Port 0 pin 29 open drain mode control</description> | |
| <bitRange>[29:29]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.29 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.29 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P0_30OD</name> | |
| <description>Port 0 pin 30 open drain mode control</description> | |
| <bitRange>[30:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P0.30 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P0.30 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE_OD1</name> | |
| <description>Open drain mode control register 1</description> | |
| <addressOffset>0x06C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P1_00OD</name> | |
| <description>Port 1 pin 0 open drain mode control.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.0 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.0 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_01OD</name> | |
| <description>Port 1 pin 1 open drain mode control, see P1.00OD</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.1 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.1 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[3:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_04OD</name> | |
| <description>Port 1 pin 4 open drain mode control, see P1.00OD</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.4 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.4 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_08OD</name> | |
| <description>Port 1 pin 8 open drain mode control, see P1.00OD</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.8 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.8 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_09OD</name> | |
| <description>Port 1 pin 9 open drain mode control, see P1.00OD</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.9 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.9 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_10OD</name> | |
| <description>Port 1 pin 10 open drain mode control, see P1.00OD</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.10 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.10 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[13:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>P1_14OD</name> | |
| <description>Port 1 pin 14 open drain mode control, see P1.00OD</description> | |
| <bitRange>[14:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.14 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.14 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_15OD</name> | |
| <description>Port 1 pin 15 open drain mode control, see P1.00OD</description> | |
| <bitRange>[15:15]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.15 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.15 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_16OD</name> | |
| <description>Port 1 pin 16 open drain mode control, see P1.00OD</description> | |
| <bitRange>[16:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.16 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.16 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_17OD</name> | |
| <description>Port 1 pin 17 open drain mode control, see P1.00OD</description> | |
| <bitRange>[17:17]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.17 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.17 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_18OD</name> | |
| <description>Port 1 pin 18 open drain mode control, see P1.00OD</description> | |
| <bitRange>[18:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.18 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.18 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_19OD</name> | |
| <description>Port 1 pin 19 open drain mode control, see P1.00OD</description> | |
| <bitRange>[19:19]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.19 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.19 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_20OD</name> | |
| <description>Port 1 pin 20open drain mode control, see P1.00OD</description> | |
| <bitRange>[20:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.20 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.20 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_21OD</name> | |
| <description>Port 1 pin 21 open drain mode control, see P1.00OD</description> | |
| <bitRange>[21:21]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.21 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.21 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_22OD</name> | |
| <description>Port 1 pin 22 open drain mode control, see P1.00OD</description> | |
| <bitRange>[22:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.22 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.22 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_23OD</name> | |
| <description>Port 1 pin 23 open drain mode control, see P1.00OD</description> | |
| <bitRange>[23:23]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.23 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.23 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_24OD</name> | |
| <description>Port 1 pin 24open drain mode control, see P1.00OD</description> | |
| <bitRange>[24:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.24 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.24 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_25OD</name> | |
| <description>Port 1 pin 25 open drain mode control, see P1.00OD</description> | |
| <bitRange>[25:25]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.25 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.25 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_26OD</name> | |
| <description>Port 1 pin 26 open drain mode control, see P1.00OD</description> | |
| <bitRange>[26:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.26 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.26 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_27OD</name> | |
| <description>Port 1 pin 27 open drain mode control, see P1.00OD</description> | |
| <bitRange>[27:27]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.27 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.27 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_28OD</name> | |
| <description>Port 1 pin 28 open drain mode control, see P1.00OD</description> | |
| <bitRange>[28:28]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.28 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.28 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_29OD</name> | |
| <description>Port 1 pin 29 open drain mode control, see P1.00OD</description> | |
| <bitRange>[29:29]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.29 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.29 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_30OD</name> | |
| <description>Port 1 pin 30 open drain mode control, see P1.00OD</description> | |
| <bitRange>[30:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.30 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.30 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P1_31OD</name> | |
| <description>Port 1 pin 31 open drain mode control.</description> | |
| <bitRange>[31:31]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P1.31 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P1.31 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE_OD2</name> | |
| <description>Open drain mode control register 2</description> | |
| <addressOffset>0x070</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>P2_00OD</name> | |
| <description>Port 2 pin 0 open drain mode control.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.0 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.0 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_01OD</name> | |
| <description>Port 2 pin 1 open drain mode control, see P2.00OD</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.1 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.1p in is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_02OD</name> | |
| <description>Port 2 pin 2 open drain mode control, see P2.00OD</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.2 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.2 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_03OD</name> | |
| <description>Port 2 pin 3 open drain mode control, see P2.00OD</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.3 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.3 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_04OD</name> | |
| <description>Port 2 pin 4 open drain mode control, see P2.00OD</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.4 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.4 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_05OD</name> | |
| <description>Port 2 pin 5 open drain mode control, see P2.00OD</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.5 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.5 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_06OD</name> | |
| <description>Port 2 pin 6 open drain mode control, see P2.00OD</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.6 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.6 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_07OD</name> | |
| <description>Port 2 pin 7 open drain mode control, see P2.00OD</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.7 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.7 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_08OD</name> | |
| <description>Port 2 pin 8 open drain mode control, see P2.00OD</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.8 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.8 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_09OD</name> | |
| <description>Port 2 pin 9 open drain mode control, see P2.00OD</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.9 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.9 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_10OD</name> | |
| <description>Port 2 pin 10 open drain mode control, see P2.00OD</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.10 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.10 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_11OD</name> | |
| <description>Port 2 pin 11 open drain mode control, see P2.00OD</description> | |
| <bitRange>[11:11]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.11 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.11 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_12OD</name> | |
| <description>Port 2 pin 12 open drain mode control, see P2.00OD</description> | |
| <bitRange>[12:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.12 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.12 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P2_13OD</name> | |
| <description>Port 2 pin 13 open drain mode control, see P2.00OD</description> | |
| <bitRange>[13:13]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P2.13 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P2.13 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:14]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE_OD3</name> | |
| <description>Open drain mode control register 3</description> | |
| <addressOffset>0x074</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[24:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P3_25OD</name> | |
| <description>Port 3 pin 25 open drain mode control.</description> | |
| <bitRange>[25:25]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P3.25 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P3.25 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P3_26OD</name> | |
| <description>Port 3 pin 26 open drain mode control, see P3.25OD</description> | |
| <bitRange>[26:26]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:27]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PINMODE_OD4</name> | |
| <description>Open drain mode control register 4</description> | |
| <addressOffset>0x078</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[27:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>P4_28OD</name> | |
| <description>Port 4 pin 28 open drain mode control.</description> | |
| <bitRange>[28:28]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>Normal. P4.28 pin is in the normal (not open drain) mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OPEN_DRAIN</name> | |
| <description>Open-drain. P4.28 pin is in the open drain mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>P4_29OD</name> | |
| <description>Port 4 pin 29 open drain mode control, see P4.28OD</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:30]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>I2CPADCFG</name> | |
| <description>I2C Pin Configuration register</description> | |
| <addressOffset>0x07C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>SDADRV0</name> | |
| <description>Drive mode control for the SDA0 pin, P0.27.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>STANDARD</name> | |
| <description>Standard. The SDA0 pin is in the standard drive mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FAST_MODE_PLUS</name> | |
| <description>Fast-mode plus. The SDA0 pin is in Fast Mode Plus drive mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SDAI2C0</name> | |
| <description>I 2C filter mode control for the SDA0 pin, P0.27.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLED</name> | |
| <description>Enabled. The SDA0 pin has I2C glitch filtering and slew rate control enabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. The SDA0 pin has I2C glitch filtering and slew rate control disabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SCLDRV0</name> | |
| <description>Drive mode control for the SCL0 pin, P0.28.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>STANDARD</name> | |
| <description>Standard. The SCL0 pin is in the standard drive mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FAST_MODE_PLUS</name> | |
| <description>Fast-mode plus. The SCL0 pin is in Fast Mode Plus drive mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SCLI2C0</name> | |
| <description>I 2C filter mode control for the SCL0 pin, P0.28.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ENABLED</name> | |
| <description>Enabled. The SCL0 pin has I2C glitch filtering and slew rate control enabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. The SCL0 pin has I2C glitch filtering and slew rate control disabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>SSP1</name> | |
| <description>SSP1 controller</description> | |
| <baseAddress>0x40030000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>SSP1</name> | |
| <value>15</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>CR0</name> | |
| <description>Control Register 0. Selects the serial clock rate, bus type, and data size.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DSS</name> | |
| <description>Data Size Select. This field controls the number of bits transferred in each frame. Values 0000-0010 are not supported and should not be used.</description> | |
| <bitRange>[3:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>4_BIT_TRANSFER</name> | |
| <description>4-bit transfer</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>5_BIT_TRANSFER</name> | |
| <description>5-bit transfer</description> | |
| <value>0x4</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>6_BIT_TRANSFER</name> | |
| <description>6-bit transfer</description> | |
| <value>0x5</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>7_BIT_TRANSFER</name> | |
| <description>7-bit transfer</description> | |
| <value>0x6</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>8_BIT_TRANSFER</name> | |
| <description>8-bit transfer</description> | |
| <value>0x7</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>9_BIT_TRANSFER</name> | |
| <description>9-bit transfer</description> | |
| <value>0x8</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>10_BIT_TRANSFER</name> | |
| <description>10-bit transfer</description> | |
| <value>0x9</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>11_BIT_TRANSFER</name> | |
| <description>11-bit transfer</description> | |
| <value>0xA</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>12_BIT_TRANSFER</name> | |
| <description>12-bit transfer</description> | |
| <value>0xB</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>13_BIT_TRANSFER</name> | |
| <description>13-bit transfer</description> | |
| <value>0xC</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>14_BIT_TRANSFER</name> | |
| <description>14-bit transfer</description> | |
| <value>0xD</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>15_BIT_TRANSFER</name> | |
| <description>15-bit transfer</description> | |
| <value>0xE</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>16_BIT_TRANSFER</name> | |
| <description>16-bit transfer</description> | |
| <value>0xF</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>FRF</name> | |
| <description>Frame Format.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SPI</name> | |
| <description>SPI</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TI</name> | |
| <description>TI</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MICROWIRE</name> | |
| <description>Microwire</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THIS_COMBINATION_IS_</name> | |
| <description>This combination is not supported and should not be used.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CPOL</name> | |
| <description>Clock Out Polarity. This bit is only used in SPI mode.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>BUS_LOW</name> | |
| <description>SSP controller maintains the bus clock low between frames.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>BUS_HIGH</name> | |
| <description>SSP controller maintains the bus clock high between frames.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CPHA</name> | |
| <description>Clock Out Phase. This bit is only used in SPI mode.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>FIRST_CLOCK</name> | |
| <description>SSP controller captures serial data on the first clock transition of the frame, that is, the transition away from the inter-frame state of the clock line.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SECOND_CLOCK</name> | |
| <description>SSP controller captures serial data on the second clock transition of the frame, that is, the transition back to the inter-frame state of the clock line.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SCR</name> | |
| <description>Serial Clock Rate. The number of prescaler-output clocks per bit on the bus, minus one. Given that CPSDVSR is the prescale divider, and the APB clock PCLK clocks the prescaler, the bit frequency is PCLK / (CPSDVSR X [SCR+1]).</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CR1</name> | |
| <description>Control Register 1. Selects master/slave and other modes.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>LBM</name> | |
| <description>Loop Back Mode.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL</name> | |
| <description>During normal operation.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OUPTU</name> | |
| <description>Serial input is taken from the serial output (MOSI or MISO) rather than the serial input pin (MISO or MOSI respectively).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SSE</name> | |
| <description>SSP Enable.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>The SSP controller is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLED</name> | |
| <description>The SSP controller will interact with other devices on the serial bus. Software should write the appropriate control information to the other SSP registers and interrupt controller registers, before setting this bit.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MS</name> | |
| <description>Master/Slave Mode.This bit can only be written when the SSE bit is 0.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MASTER</name> | |
| <description>The SSP controller acts as a master on the bus, driving the SCLK, MOSI, and SSEL lines and receiving the MISO line.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SLAVE</name> | |
| <description>The SSP controller acts as a slave on the bus, driving MISO line and receiving SCLK, MOSI, and SSEL lines.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SOD</name> | |
| <description>Slave Output Disable. This bit is relevant only in slave mode (MS = 1). If it is 1, this blocks this SSP controller from driving the transmit data line (MISO).</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DR</name> | |
| <description>Data Register. Writes fill the transmit FIFO, and reads empty the receive FIFO.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <readAction>modify</readAction> | |
| <fields> | |
| <field> | |
| <name>DATA</name> | |
| <description>Write: software can write data to be sent in a future frame to this register whenever the TNF bit in the Status register is 1, indicating that the Tx FIFO is not full. If the Tx FIFO was previously empty and the SSP controller is not busy on the bus, transmission of the data will begin immediately. Otherwise the data written to this register will be sent as soon as all previous data has been sent (and received). If the data length is less than 16 bits, software must right-justify the data written to this register. Read: software can read data from this register whenever the RNE bit in the Status register is 1, indicating that the Rx FIFO is not empty. When software reads this register, the SSP controller returns data from the least recent frame in the Rx FIFO. If the data length is less than 16 bits, the data is right-justified in this field with higher order bits filled with 0s.</description> | |
| <bitRange>[15:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SR</name> | |
| <description>Status Register</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x00000003</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>TFE</name> | |
| <description>Transmit FIFO Empty. This bit is 1 is the Transmit FIFO is empty, 0 if not.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TNF</name> | |
| <description>Transmit FIFO Not Full. This bit is 0 if the Tx FIFO is full, 1 if not.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RNE</name> | |
| <description>Receive FIFO Not Empty. This bit is 0 if the Receive FIFO is empty, 1 if not.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RFF</name> | |
| <description>Receive FIFO Full. This bit is 1 if the Receive FIFO is full, 0 if not.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>BSY</name> | |
| <description>Busy. This bit is 0 if the SSPn controller is idle, or 1 if it is currently sending/receiving a frame and/or the Tx FIFO is not empty.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:5]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CPSR</name> | |
| <description>Clock Prescale Register</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CPSDVSR</name> | |
| <description>This even value between 2 and 254, by which PCLK is divided to yield the prescaler output clock. Bit 0 always reads as 0.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IMSC</name> | |
| <description>Interrupt Mask Set and Clear Register</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RORIM</name> | |
| <description>Software should set this bit to enable interrupt when a Receive Overrun occurs, that is, when the Rx FIFO is full and another frame is completely received. The ARM spec implies that the preceding frame data is overwritten by the new frame data when this occurs.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTIM</name> | |
| <description>Software should set this bit to enable interrupt when a Receive Time-out condition occurs. A Receive Time-out occurs when the Rx FIFO is not empty, and no has not been read for a time-out period. The time-out period is the same for master and slave modes and is determined by the SSP bit rate: 32 bits at PCLK / (CPSDVSR X [SCR+1]).</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RXIM</name> | |
| <description>Software should set this bit to enable interrupt when the Rx FIFO is at least half full.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>TXIM</name> | |
| <description>Software should set this bit to enable interrupt when the Tx FIFO is at least half empty.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RIS</name> | |
| <description>Raw Interrupt Status Register</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x00000008</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RORRIS</name> | |
| <description>This bit is 1 if another frame was completely received while the RxFIFO was full. The ARM spec implies that the preceding frame data is overwritten by the new frame data when this occurs.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTRIS</name> | |
| <description>This bit is 1 if the Rx FIFO is not empty, and has not been read for a time-out period. The time-out period is the same for master and slave modes and is determined by the SSP bit rate: 32 bits at PCLK / (CPSDVSR X [SCR+1]).</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RXRIS</name> | |
| <description>This bit is 1 if the Rx FIFO is at least half full.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>TXRIS</name> | |
| <description>This bit is 1 if the Tx FIFO is at least half empty.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MIS</name> | |
| <description>Masked Interrupt Status Register</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RORMIS</name> | |
| <description>This bit is 1 if another frame was completely received while the RxFIFO was full, and this interrupt is enabled.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTMIS</name> | |
| <description>This bit is 1 if the Rx FIFO is not empty, has not been read for a time-out period, and this interrupt is enabled. The time-out period is the same for master and slave modes and is determined by the SSP bit rate: 32 bits at PCLK / (CPSDVSR X [SCR+1]).</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RXMIS</name> | |
| <description>This bit is 1 if the Rx FIFO is at least half full, and this interrupt is enabled.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>TXMIS</name> | |
| <description>This bit is 1 if the Tx FIFO is at least half empty, and this interrupt is enabled.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ICR</name> | |
| <description>SSPICR Interrupt Clear Register</description> | |
| <addressOffset>0x020</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>RORIC</name> | |
| <description>Writing a 1 to this bit clears the frame was received when RxFIFO was full interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTIC</name> | |
| <description>Writing a 1 to this bit clears the Rx FIFO was not empty and has not been read for a time-out period interrupt. The time-out period is the same for master and slave modes and is determined by the SSP bit rate: 32 bits at PCLK / (CPSDVSR / [SCR+1]).</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:2]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DMACR</name> | |
| <description>SSP0 DMA control register</description> | |
| <addressOffset>0x024</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RXDMAE</name> | |
| <description>Receive DMA Enable. When this bit is set to one 1, DMA for the receive FIFO is enabled, otherwise receive DMA is disabled.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TXDMAE</name> | |
| <description>Transmit DMA Enable. When this bit is set to one 1, DMA for the transmit FIFO is enabled, otherwise transmit DMA is disabled</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:2]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>ADC</name> | |
| <description>Analog-to-Digital Converter (ADC) </description> | |
| <groupName>ADC</groupName> | |
| <baseAddress>0x40034000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>ADC</name> | |
| <value>22</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>CR</name> | |
| <description>A/D Control Register. The ADCR register must be written to select the operating mode before A/D conversion can occur.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>SEL</name> | |
| <description>Selects which of the AD0[7:0] pins is (are) to be sampled and converted. For AD0, bit 0 selects Pin AD0[0], and bit 7 selects pin AD0[7]. In software-controlled mode, only one of these bits should be 1. In hardware scan mode, any value containing 1 to 8 ones is allowed. All zeroes is equivalent to 0x01.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CLKDIV</name> | |
| <description>The APB clock (PCLK) is divided by (this value plus one) to produce the clock for the A/D converter, which should be less than or equal to 12.4 MHz. Typically, software should program the smallest value in this field that yields a clock of 12.4 MHz or slightly less, but in certain cases (such as a high-impedance analog source) a slower clock may be desirable.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>BURST</name> | |
| <description>Burst mode</description> | |
| <bitRange>[16:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>BURST</name> | |
| <description>The AD converter does repeated conversions at up to 400 kHz, scanning (if necessary) through the pins selected by bits set to ones in the SEL field. The first conversion after the start corresponds to the least-significant 1 in the SEL field, then higher numbered 1-bits (pins) if applicable. Repeated conversions can be terminated by clearing this bit, but the conversion that's in progress when this bit is cleared will be completed. START bits must be 000 when BURST = 1 or conversions will not start.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SW</name> | |
| <description>Conversions are software controlled and require 31 clocks.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[20:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>PDN</name> | |
| <description>Power down mode</description> | |
| <bitRange>[21:21]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>POWERED</name> | |
| <description>The A/D converter is operational.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>POWERDOWN</name> | |
| <description>The A/D converter is in power-down mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[23:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>START</name> | |
| <description>When the BURST bit is 0, these bits control whether and when an A/D conversion is started:</description> | |
| <bitRange>[26:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_START_THIS_VALUE</name> | |
| <description>No start (this value should be used when clearing PDN to 0).</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>START_CONVERSION_NOW</name> | |
| <description>Start conversion now.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>P2_10</name> | |
| <description>Start conversion when the edge selected by bit 27 occurs on the P2[10] pin.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>P1_27</name> | |
| <description>Start conversion when the edge selected by bit 27 occurs on the P1[27] pin.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT0_1</name> | |
| <description>Start conversion when the edge selected by bit 27 occurs on MAT0.1. Note that this does not require that the MAT0.1 function appear on a device pin.</description> | |
| <value>0x4</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT0_3</name> | |
| <description>Start conversion when the edge selected by bit 27 occurs on MAT0.3. Note that it is not possible to cause the MAT0.3 function to appear on a device pin.</description> | |
| <value>0x5</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT1_0</name> | |
| <description>Start conversion when the edge selected by bit 27 occurs on MAT1.0. Note that this does not require that the MAT1.0 function appear on a device pin.</description> | |
| <value>0x6</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MAT1_1</name> | |
| <description>Start conversion when the edge selected by bit 27 occurs on MAT1.1. Note that this does not require that the MAT1.1 function appear on a device pin.</description> | |
| <value>0x7</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EDGE</name> | |
| <description>This bit is significant only when the START field contains 010-111. In these cases:</description> | |
| <bitRange>[27:27]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>FALLLING</name> | |
| <description>Start conversion on a falling edge on the selected CAP/MAT signal.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>Start conversion on a rising edge on the selected CAP/MAT signal.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:28]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>GDR</name> | |
| <description>A/D Global Data Register. This register contains the ADC's DONE bit and the result of the most recent A/D conversion.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESULT</name> | |
| <description>When DONE is 1, this field contains a binary fraction representing the voltage on the AD0[n] pin selected by the SEL field, as it falls within the range of VREFP to VSS. Zero in the field indicates that the voltage on the input pin was less than, equal to, or close to that on VSS, while 0xFFF indicates that the voltage on the input was close to, equal to, or greater than that on VREFP.</description> | |
| <bitRange>[15:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[23:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>CHN</name> | |
| <description>These bits contain the channel from which the RESULT bits were converted (e.g. 000 identifies channel 0, 001 channel 1...).</description> | |
| <bitRange>[26:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[29:27]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN</name> | |
| <description>This bit is 1 in burst mode if the results of one or more conversions was (were) lost and overwritten before the conversion that produced the result in the RESULT bits. This bit is cleared by reading this register.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>DONE</name> | |
| <description>This bit is set to 1 when an A/D conversion completes. It is cleared when this register is read and when the ADCR is written. If the ADCR is written while a conversion is still in progress, this bit is set and a new conversion is started.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INTEN</name> | |
| <description>A/D Interrupt Enable Register. This register contains enable bits that allow the DONE flag of each A/D channel to be included or excluded from contributing to the generation of an A/D interrupt.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x100</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>ADINTEN0</name> | |
| <description>Interrupt enable</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Completion of a conversion on ADC channel 0 will not generate an interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>Completion of a conversion on ADC channel 0 will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ADINTEN1</name> | |
| <description>Interrupt enable</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Completion of a conversion on ADC channel 1 will not generate an interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>Completion of a conversion on ADC channel 1 will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ADINTEN2</name> | |
| <description>Interrupt enable</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Completion of a conversion on ADC channel 2 will not generate an interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>Completion of a conversion on ADC channel 2 will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ADINTEN3</name> | |
| <description>Interrupt enable</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Completion of a conversion on ADC channel 3 will not generate an interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>Completion of a conversion on ADC channel 3 will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ADINTEN4</name> | |
| <description>Interrupt enable</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Completion of a conversion on ADC channel 4 will not generate an interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>Completion of a conversion on ADC channel 4 will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ADINTEN5</name> | |
| <description>Interrupt enable</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Completion of a conversion on ADC channel 5 will not generate an interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>Completion of a conversion on ADC channel 5 will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ADINTEN6</name> | |
| <description>Interrupt enable</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Completion of a conversion on ADC channel 6 will not generate an interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>Completion of a conversion on ADC channel 6 will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ADINTEN7</name> | |
| <description>Interrupt enable</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Completion of a conversion on ADC channel 7 will not generate an interrupt.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>Completion of a conversion on ADC channel 7 will generate an interrupt.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ADGINTEN</name> | |
| <description>Interrupt enable</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CHANNELS</name> | |
| <description>Only the individual ADC channels enabled by ADINTEN7:0 will generate interrupts.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>GLOBAL</name> | |
| <description>The global DONE flag in ADDR is enabled to generate an interrupt in addition to any individual ADC channels that are enabled to generate interrupts.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:9]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>8</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-7</dimIndex> | |
| <name>DR[%s]</name> | |
| <displayName>DR[%s]</displayName> | |
| <description>A/D Channel 0 Data Register. This register contains the result of the most recent conversion completed on channel 0.</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESULT</name> | |
| <description>When DONE is 1, this field contains a binary fraction representing the voltage on the AD0[n] pin, as it falls within the range of VREFP to V SS. Zero in the field indicates that the voltage on the input pin was less than, equal to, or close to that on VSS, while 0xFFF indicates that the voltage on the input was close to, equal to, or greater than that on VREFP.</description> | |
| <bitRange>[15:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[29:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN</name> | |
| <description>This bit is 1 in burst mode if the results of one or more conversions was (were) lost and overwritten before the conversion that produced the result in the RESULT bits.This bit is cleared by reading this register.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>DONE</name> | |
| <description>This bit is set to 1 when an A/D conversion completes. It is cleared when this register is read.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>STAT</name> | |
| <description>A/D Status Register. This register contains DONE and OVERRUN flags for all of the A/D channels, as well as the A/D interrupt/DMA flag.</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DONE0</name> | |
| <description>This bit mirrors the DONE status flag from the result register for A/D channel 0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DONE1</name> | |
| <description>This bit mirrors the DONE status flag from the result register for A/D channel 1.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>DONE2</name> | |
| <description>This bit mirrors the DONE status flag from the result register for A/D channel 2.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DONE3</name> | |
| <description>This bit mirrors the DONE status flag from the result register for A/D channel 3.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>DONE4</name> | |
| <description>This bit mirrors the DONE status flag from the result register for A/D channel 4.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>DONE5</name> | |
| <description>This bit mirrors the DONE status flag from the result register for A/D channel 5.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>DONE6</name> | |
| <description>This bit mirrors the DONE status flag from the result register for A/D channel 6.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>DONE7</name> | |
| <description>This bit mirrors the DONE status flag from the result register for A/D channel 7.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN0</name> | |
| <description>This bit mirrors the OVERRRUN status flag from the result register for A/D channel 0.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN1</name> | |
| <description>This bit mirrors the OVERRRUN status flag from the result register for A/D channel 1.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN2</name> | |
| <description>This bit mirrors the OVERRRUN status flag from the result register for A/D channel 2.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN3</name> | |
| <description>This bit mirrors the OVERRRUN status flag from the result register for A/D channel 3.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN4</name> | |
| <description>This bit mirrors the OVERRRUN status flag from the result register for A/D channel 4.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN5</name> | |
| <description>This bit mirrors the OVERRRUN status flag from the result register for A/D channel 5.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN6</name> | |
| <description>This bit mirrors the OVERRRUN status flag from the result register for A/D channel 6.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>OVERRUN7</name> | |
| <description>This bit mirrors the OVERRRUN status flag from the result register for A/D channel 7.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>ADINT</name> | |
| <description>This bit is the A/D interrupt flag. It is one when any of the individual A/D channel Done flags is asserted and enabled to contribute to the A/D interrupt via the ADINTEN register.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:17]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TRM</name> | |
| <description>ADC trim register.</description> | |
| <addressOffset>0x034</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>ADCOFFS</name> | |
| <description>Offset trim bits for ADC operation. Initialized by the boot code. Can be overwritten by the user.</description> | |
| <bitRange>[7:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>TRIM</name> | |
| <description>written-to by boot code. Can not be overwritten by the user. These bits are locked after boot code write.</description> | |
| <bitRange>[11:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>CANAFRAM</name> | |
| <description>CAN acceptance filter RAM</description> | |
| <baseAddress>0x40038000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <registers> | |
| <register> | |
| <dim>512</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-511</dimIndex> | |
| <name>MASK[%s]</name> | |
| <displayName>MASK[%s]</displayName> | |
| <description>CAN AF ram access register</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>MASK</name> | |
| <description>CAN AF RAM mask</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>CANAF</name> | |
| <description> CAN controller acceptance filter </description> | |
| <groupName>CANAF</groupName> | |
| <baseAddress>0x4003C000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <registers> | |
| <register> | |
| <name>AFMR</name> | |
| <description>Acceptance Filter Register</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>ACCOFF</name> | |
| <description>if AccBP is 0, the Acceptance Filter is not operational. All Rx messages on all CAN buses are ignored.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>ACCBP</name> | |
| <description>All Rx messages are accepted on enabled CAN controllers. Software must set this bit before modifying the contents of any of the registers described below, and before modifying the contents of Lookup Table RAM in any way other than setting or clearing Disable bits in Standard Identifier entries. When both this bit and AccOff are 0, the Acceptance filter operates to screen received CAN Identifiers.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>EFCAN</name> | |
| <description>FullCAN mode</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SOFTWARE_MUST_READ_A</name> | |
| <description>Software must read all messages for all enabled IDs on all enabled CAN buses, from the receiving CAN controllers.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_ACCEPTANCE_FILTE</name> | |
| <description>The Acceptance Filter itself will take care of receiving and storing messages for selected Standard ID values on selected CAN buses. See Section 21.16 FullCAN mode on page 576.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:3]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SFF_SA</name> | |
| <description>Standard Frame Individual Start Address Register</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>SFF_SA</name> | |
| <description>The start address of the table of individual Standard Identifiers in AF Lookup RAM. If the table is empty, write the same value in this register and the SFF_GRP_sa register described below. For compatibility with possible future devices, write zeroes in bits 31:11 and 1:0 of this register. If the eFCAN bit in the AFMR is 1, this value also indicates the size of the table of Standard IDs which the Acceptance Filter will search and (if found) automatically store received messages in Acceptance Filter RAM.</description> | |
| <bitRange>[10:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:11]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SFF_GRP_SA</name> | |
| <description>Standard Frame Group Start Address Register</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>SFF_GRP_SA</name> | |
| <description>The start address of the table of grouped Standard Identifiers in AF Lookup RAM. If the table is empty, write the same value in this register and the EFF_sa register described below. The largest value that should be written to this register is 0x800, when only the Standard Individual table is used, and the last word (address 0x7FC) in AF Lookup Table RAM is used. For compatibility with possible future devices, please write zeroes in bits 31:12 and 1:0 of this register.</description> | |
| <bitRange>[11:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>EFF_SA</name> | |
| <description>Extended Frame Start Address Register</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>EFF_SA</name> | |
| <description>The start address of the table of individual Extended Identifiers in AF Lookup RAM. If the table is empty, write the same value in this register and the EFF_GRP_sa register described below. The largest value that should be written to this register is 0x800, when both Extended Tables are empty and the last word (address 0x7FC) in AF Lookup Table RAM is used. For compatibility with possible future devices, please write zeroes in bits 31:11 and 1:0 of this register.</description> | |
| <bitRange>[10:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:11]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>EFF_GRP_SA</name> | |
| <description>Extended Frame Group Start Address Register</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>EFF_GRP_SA</name> | |
| <description>The start address of the table of grouped Extended Identifiers in AF Lookup RAM. If the table is empty, write the same value in this register and the ENDofTable register described below. The largest value that should be written to this register is 0x800, when this table is empty and the last word (address 0x7FC) in AF Lookup Table RAM is used. For compatibility with possible future devices, please write zeroes in bits 31:12 and 1:0 of this register.</description> | |
| <bitRange>[11:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ENDOFTABLE</name> | |
| <description>End of AF Tables register</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>ENDOFTABLE</name> | |
| <description>The address above the last active address in the last active AF table. For compatibility with possible future devices, please write zeroes in bits 31:12 and 1:0 of this register. If the eFCAN bit in the AFMR is 0, the largest value that should be written to this register is 0x800, which allows the last word (address 0x7FC) in AF Lookup Table RAM to be used. If the eFCAN bit in the AFMR is 1, this value marks the start of the area of Acceptance Filter RAM, into which the Acceptance Filter will automatically receive messages for selected IDs on selected CAN buses. In this case, the maximum value that should be written to this register is 0x800 minus 6 times the value in SFF_sa. This allows 12 bytes of message storage between this address and the end of Acceptance Filter RAM, for each Standard ID that is specified between the start of Acceptance Filter RAM, and the next active AF table.</description> | |
| <bitRange>[11:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>LUTERRAD</name> | |
| <description>LUT Error Address register</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[1:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>LUTERRAD</name> | |
| <description>It the LUT Error bit (below) is 1, this read-only field contains the address in AF Lookup Table RAM, at which the Acceptance Filter encountered an error in the content of the tables.</description> | |
| <bitRange>[10:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:11]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>LUTERR</name> | |
| <description>LUT Error Register</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>LUTERR</name> | |
| <description>This read-only bit is set to 1 if the Acceptance Filter encounters an error in the content of the tables in AF RAM. It is cleared when software reads the LUTerrAd register. This condition is ORed with the other CAN interrupts from the CAN controllers, to produce the request that is connected to the NVIC.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:1]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>FCANIE</name> | |
| <description>FullCAN interrupt enable register</description> | |
| <addressOffset>0x020</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>FCANIE</name> | |
| <description>Global FullCAN Interrupt Enable. When 1, this interrupt is enabled.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:1]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>FCANIC0</name> | |
| <description>FullCAN interrupt and capture register0</description> | |
| <addressOffset>0x024</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>INTPND</name> | |
| <description>FullCan Interrupt Pending 0 = FullCan Interrupt Pending bit 0. 1 = FullCan Interrupt Pending bit 1. ... 31 = FullCan Interrupt Pending bit 31.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>FCANIC1</name> | |
| <description>FullCAN interrupt and capture register1</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>IntPnd32</name> | |
| <description>FullCan Interrupt Pending bit 32. 0 = FullCan Interrupt Pending bit 32. 1 = FullCan Interrupt Pending bit 33. ... 31 = FullCan Interrupt Pending bit 63.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>CCAN</name> | |
| <description>Central CAN controller </description> | |
| <groupName>CCAN</groupName> | |
| <baseAddress>0x40040000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>CANActivity</name> | |
| <value>34</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>TXSR</name> | |
| <description>CAN Central Transmit Status Register</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x00030300</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>TS1</name> | |
| <description>When 1, the CAN controller 1 is sending a message (same as TS in the CAN1GSR).</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TS2</name> | |
| <description>When 1, the CAN controller 2 is sending a message (same as TS in the CAN2GSR)</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>TBS1</name> | |
| <description>When 1, all 3 Tx Buffers of the CAN1 controller are available to the CPU (same as TBS in CAN1GSR).</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>TBS2</name> | |
| <description>When 1, all 3 Tx Buffers of the CAN2 controller are available to the CPU (same as TBS in CAN2GSR).</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>TCS1</name> | |
| <description>When 1, all requested transmissions have been completed successfully by the CAN1 controller (same as TCS in CAN1GSR).</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>TCS2</name> | |
| <description>When 1, all requested transmissions have been completed successfully by the CAN2 controller (same as TCS in CAN2GSR).</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:18]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RXSR</name> | |
| <description>CAN Central Receive Status Register</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RS1</name> | |
| <description>When 1, CAN1 is receiving a message (same as RS in CAN1GSR).</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RS2</name> | |
| <description>When 1, CAN2 is receiving a message (same as RS in CAN2GSR).</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RB1</name> | |
| <description>When 1, a received message is available in the CAN1 controller (same as RBS in CAN1GSR).</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RB2</name> | |
| <description>When 1, a received message is available in the CAN2 controller (same as RBS in CAN2GSR).</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>DOS1</name> | |
| <description>When 1, a message was lost because the preceding message to CAN1 controller was not read out quickly enough (same as DOS in CAN1GSR).</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>DOS2</name> | |
| <description>When 1, a message was lost because the preceding message to CAN2 controller was not read out quickly enough (same as DOS in CAN2GSR).</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:18]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MSR</name> | |
| <description>CAN Central Miscellaneous Register</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>E1</name> | |
| <description>When 1, one or both of the CAN1 Tx and Rx Error Counters has reached the limit set in the CAN1EWL register (same as ES in CAN1GSR)</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>E2</name> | |
| <description>When 1, one or both of the CAN2 Tx and Rx Error Counters has reached the limit set in the CAN2EWL register (same as ES in CAN2GSR)</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>BS1</name> | |
| <description>When 1, the CAN1 controller is currently involved in bus activities (same as BS in CAN1GSR).</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>BS2</name> | |
| <description>When 1, the CAN2 controller is currently involved in bus activities (same as BS in CAN2GSR).</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:10]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>CAN1</name> | |
| <description>CAN1 controller </description> | |
| <groupName>CAN</groupName> | |
| <baseAddress>0x40044000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>CAN</name> | |
| <value>25</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>MOD</name> | |
| <description>Controls the operating mode of the CAN Controller.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>RM</name> | |
| <description>Reset Mode.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL_THE_CAN_CONTR</name> | |
| <description>Normal.The CAN Controller is in the Operating Mode, and certain registers can not be written.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESET_CAN_OPERATION</name> | |
| <description>Reset. CAN operation is disabled, writable registers can be written and the current transmission/reception of a message is aborted.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>LOM</name> | |
| <description>Listen Only Mode.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL_THE_CAN_CONT</name> | |
| <description>Normal. The CAN controller acknowledges a successfully received message on the CAN bus. The error counters are stopped at the current value.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>LISTEN_ONLY_THE_CON</name> | |
| <description>Listen only. The controller gives no acknowledgment, even if a message is successfully received. Messages cannot be sent, and the controller operates in error passive mode. This mode is intended for software bit rate detection and hot plugging.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>STM</name> | |
| <description>Self Test Mode.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NORMAL_A_TRANSMITTE</name> | |
| <description>Normal. A transmitted message must be acknowledged to be considered successful.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELF_TEST_THE_CONTR</name> | |
| <description>Self test. The controller will consider a Tx message successful even if there is no acknowledgment received. In this mode a full node test is possible without any other active node on the bus using the SRR bit in CANxCMR.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TPM</name> | |
| <description>Transmit Priority Mode.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CAN_ID_THE_TRANSMIT</name> | |
| <description>CAN ID. The transmit priority for 3 Transmit Buffers depends on the CAN Identifier.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>LOCAL_PRIORITY_THE_</name> | |
| <description>Local priority. The transmit priority for 3 Transmit Buffers depends on the contents of the Tx Priority register within the Transmit Buffer.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SM</name> | |
| <description>Sleep Mode.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>WAKE_UP_NORMAL_OPER</name> | |
| <description>Wake-up. Normal operation.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SLEEP_THE_CAN_CONTR</name> | |
| <description>Sleep. The CAN controller enters Sleep Mode if no CAN interrupt is pending and there is no bus activity. See the Sleep Mode description Section 21.8.2 on page 565.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RPM</name> | |
| <description>Receive Polarity Mode.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LOW_ACTIVE_RD_INPUT</name> | |
| <description>Low active. RD input is active Low (dominant bit = 0).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>HIGH_ACTIVE_RD_INPU</name> | |
| <description>High active. RD input is active High (dominant bit = 1) -- reverse polarity.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>TM</name> | |
| <description>Test Mode.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED_NORMAL_OPE</name> | |
| <description>Disabled. Normal operation.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLED_THE_TD_PIN_</name> | |
| <description>Enabled. The TD pin will reflect the bit, detected on RD pin, with the next positive edge of the system clock.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CMR</name> | |
| <description>Command bits that affect the state of the CAN Controller</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>TR</name> | |
| <description>Transmission Request.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ABSENT_NO_TRANSMISSI</name> | |
| <description>Absent.No transmission request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PRESENT_THE_MESSAGE</name> | |
| <description>Present. The message, previously written to the CANxTFI, CANxTID, and optionally the CANxTDA and CANxTDB registers, is queued for transmission from the selected Transmit Buffer. If at two or all three of STB1, STB2 and STB3 bits are selected when TR=1 is written, Transmit Buffer will be selected based on the chosen priority scheme (for details see Section 21.5.3 Transmit Buffers (TXB))</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>AT</name> | |
| <description>Abort Transmission.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_ACTION_DO_NOT_AB</name> | |
| <description>No action. Do not abort the transmission.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PRESENT_IF_NOT_ALRE</name> | |
| <description>Present. if not already in progress, a pending Transmission Request for the selected Transmit Buffer is cancelled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RRB</name> | |
| <description>Release Receive Buffer.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_ACTION_DO_NOT_RE</name> | |
| <description>No action. Do not release the receive buffer.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RELEASED_THE_INFORM</name> | |
| <description>Released. The information in the Receive Buffer (consisting of CANxRFS, CANxRID, and if applicable the CANxRDA and CANxRDB registers) is released, and becomes eligible for replacement by the next received frame. If the next received frame is not available, writing this command clears the RBS bit in the Status Register(s).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CDO</name> | |
| <description>Clear Data Overrun.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NO_ACTION_DO_NOT_CL</name> | |
| <description>No action. Do not clear the data overrun bit.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CLEAR_THE_DATA_OVER</name> | |
| <description>Clear. The Data Overrun bit in Status Register(s) is cleared.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>SRR</name> | |
| <description>Self Reception Request.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ABSENT_NO_SELF_RECE</name> | |
| <description>Absent. No self reception request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PRESENT_THE_MESSAGE</name> | |
| <description>Present. The message, previously written to the CANxTFS, CANxTID, and optionally the CANxTDA and CANxTDB registers, is queued for transmission from the selected Transmit Buffer and received simultaneously. This differs from the TR bit above in that the receiver is not disabled during the transmission, so that it receives the message if its Identifier is recognized by the Acceptance Filter.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>STB1</name> | |
| <description>Select Tx Buffer 1.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NOT_SELECTED_TX_BUF</name> | |
| <description>Not selected. Tx Buffer 1 is not selected for transmission.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECTED_TX_BUFFER_</name> | |
| <description>Selected. Tx Buffer 1 is selected for transmission.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>STB2</name> | |
| <description>Select Tx Buffer 2.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NOT_SELECTED_TX_BUF</name> | |
| <description>Not selected. Tx Buffer 2 is not selected for transmission.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECTED_TX_BUFFER_</name> | |
| <description>Selected. Tx Buffer 2 is selected for transmission.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>STB3</name> | |
| <description>Select Tx Buffer 3.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NOT_SELECTED_TX_BUF</name> | |
| <description>Not selected. Tx Buffer 3 is not selected for transmission.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECTED_TX_BUFFER_</name> | |
| <description>Selected. Tx Buffer 3 is selected for transmission.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>GSR</name> | |
| <description>Global Controller Status and Error Counters. The error counters can only be written when RM in CANMOD is 1.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x3C</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RBS</name> | |
| <description>Receive Buffer Status. After reading all messages and releasing their memory space with the command 'Release Receive Buffer,' this bit is cleared.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>EMPTY_NO_MESSAGE_IS</name> | |
| <description>Empty. No message is available.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FULL_AT_LEAST_ONE_C</name> | |
| <description>Full. At least one complete message is received by the Double Receive Buffer and available in the CANxRFS, CANxRID, and if applicable the CANxRDA and CANxRDB registers. This bit is cleared by the Release Receive Buffer command in CANxCMR, if no subsequent received message is available.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DOS</name> | |
| <description>Data Overrun Status. If there is not enough space to store the message within the Receive Buffer, that message is dropped and the Data Overrun condition is signalled to the CPU in the moment this message becomes valid. If this message is not completed successfully (e.g. because of an error), no overrun condition is signalled.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ABSENT_NO_DATA_OVER</name> | |
| <description>Absent. No data overrun has occurred since the last Clear Data Overrun command was given/written to CANxCMR (or since Reset).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OVERRUN_A_MESSAGE_W</name> | |
| <description>Overrun. A message was lost because the preceding message to this CAN controller was not read and released quickly enough (there was not enough space for a new message in the Double Receive Buffer).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TBS</name> | |
| <description>Transmit Buffer Status.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LOCKED_AT_LEAST_ONE</name> | |
| <description>Locked. At least one of the Transmit Buffers is not available for the CPU, i.e. at least one previously queued message for this CAN controller has not yet been sent, and therefore software should not write to the CANxTFI, CANxTID, CANxTDA, nor CANxTDB registers of that (those) Tx buffer(s).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RELEASED_ALL_THREE_</name> | |
| <description>Released. All three Transmit Buffers are available for the CPU. No transmit message is pending for this CAN controller (in any of the 3 Tx buffers), and software may write to any of the CANxTFI, CANxTID, CANxTDA, and CANxTDB registers.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TCS</name> | |
| <description>Transmit Complete Status. The Transmission Complete Status bit is set '0' (incomplete) whenever the Transmission Request bit or the Self Reception Request bit is set '1' at least for one of the three Transmit Buffers. The Transmission Complete Status bit will remain '0' until all messages are transmitted successfully.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INCOMPLETE_AT_LEAST</name> | |
| <description>Incomplete. At least one requested transmission has not been successfully completed yet.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>COMPLETE_ALL_REQUES</name> | |
| <description>Complete. All requested transmission(s) has (have) been successfully completed.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RS</name> | |
| <description>Receive Status. If both the Receive Status and the Transmit Status bits are '0' (idle), the CAN-Bus is idle. If both bits are set, the controller is waiting to become idle again. After hardware reset 11 consecutive recessive bits have to be detected until idle status is reached. After Bus-off this will take 128 times of 11 consecutive recessive bits.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>IDLE_THE_CAN_CONTRO</name> | |
| <description>Idle. The CAN controller is idle.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RECEIVE_THE_CAN_CON</name> | |
| <description>Receive. The CAN controller is receiving a message.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TS</name> | |
| <description>Transmit Status. If both the Receive Status and the Transmit Status bits are '0' (idle), the CAN-Bus is idle. If both bits are set, the controller is waiting to become idle again. After hardware reset 11 consecutive recessive bits have to be detected until idle status is reached. After Bus-off this will take 128 times of 11 consecutive recessive bits.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>IDLE_THE_CAN_CONTRO</name> | |
| <description>Idle. The CAN controller is idle.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRANSMIT_THE_CAN_CO</name> | |
| <description>Transmit. The CAN controller is sending a message.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ES</name> | |
| <description>Error Status. Errors detected during reception or transmission will effect the error counters according to the CAN specification. The Error Status bit is set when at least one of the error counters has reached or exceeded the Error Warning Limit. An Error Warning Interrupt is generated, if enabled. The default value of the Error Warning Limit after hardware reset is 96 decimal, see also Section 21.7.7 CAN Error Warning Limit register (CAN1EWL - 0x4004 4018, CAN2EWL - 0x4004 8018).</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>OK_BOTH_ERROR_COUNT</name> | |
| <description>OK. Both error counters are below the Error Warning Limit.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ERROR_ONE_OR_BOTH_O</name> | |
| <description>Error. One or both of the Transmit and Receive Error Counters has reached the limit set in the Error Warning Limit register.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>BS</name> | |
| <description>Bus Status. Mode bit '1' (present) and an Error Warning Interrupt is generated, if enabled. Afterwards the Transmit Error Counter is set to '127', and the Receive Error Counter is cleared. It will stay in this mode until the CPU clears the Reset Mode bit. Once this is completed the CAN Controller will wait the minimum protocol-defined time (128 occurrences of the Bus-Free signal) counting down the Transmit Error Counter. After that, the Bus Status bit is cleared (Bus-On), the Error Status bit is set '0' (ok), the Error Counters are reset, and an Error Warning Interrupt is generated, if enabled. Reading the TX Error Counter during this time gives information about the status of the Bus-Off recovery.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>BUS_ON_THE_CAN_CONT</name> | |
| <description>Bus-on. The CAN Controller is involved in bus activities</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>BUS_OFF_THE_CAN_CON</name> | |
| <description>Bus-off. The CAN controller is currently not involved/prohibited from bus activity because the Transmit Error Counter reached its limiting value of 255.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RXERR</name> | |
| <description>The current value of the Rx Error Counter (an 8-bit value).</description> | |
| <bitRange>[23:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>TXERR</name> | |
| <description>The current value of the Tx Error Counter (an 8-bit value).</description> | |
| <bitRange>[31:24]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>ICR</name> | |
| <description>Interrupt status, Arbitration Lost Capture, Error Code Capture</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RI</name> | |
| <description>Receive Interrupt. This bit is set whenever the RBS bit in CANxSR and the RIE bit in CANxIER are both 1, indicating that a new message was received and stored in the Receive Buffer. The Receive Interrupt Bit is not cleared upon a read access to the Interrupt Register. Giving the Command Release Receive Buffer will clear RI temporarily. If there is another message available within the Receive Buffer after the release command, RI is set again. Otherwise RI remains cleared.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TI1</name> | |
| <description>Transmit Interrupt 1. This bit is set when the TBS1 bit in CANxSR goes from 0 to 1 (whenever a message out of TXB1 was successfully transmitted or aborted), indicating that Transmit buffer 1 is available, and the TIE1 bit in CANxIER is 1.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EI</name> | |
| <description>Error Warning Interrupt. This bit is set on every change (set or clear) of either the Error Status or Bus Status bit in CANxSR and the EIE bit bit is set within the Interrupt Enable Register at the time of the change.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DOI</name> | |
| <description>Data Overrun Interrupt. This bit is set when the DOS bit in CANxSR goes from 0 to 1 and the DOIE bit in CANxIER is 1.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>WUI</name> | |
| <description>Wake-Up Interrupt. This bit is set if the CAN controller is sleeping and bus activity is detected and the WUIE bit in CANxIER is 1. A Wake-Up Interrupt is also generated if the CPU tries to set the Sleep bit while the CAN controller is involved in bus activities or a CAN Interrupt is pending. The WUI flag can also get asserted when the according enable bit WUIE is not set. In this case a Wake-Up Interrupt does not get asserted.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EPI</name> | |
| <description>Error Passive Interrupt. This bit is set if the EPIE bit in CANxIER is 1, and the CAN controller switches between Error Passive and Error Active mode in either direction. This is the case when the CAN Controller has reached the Error Passive Status (at least one error counter exceeds the CAN protocol defined level of 127) or if the CAN Controller is in Error Passive Status and enters the Error Active Status again.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ALI</name> | |
| <description>Arbitration Lost Interrupt. This bit is set if the ALIE bit in CANxIER is 1, and the CAN controller loses arbitration while attempting to transmit. In this case the CAN node becomes a receiver.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>BEI</name> | |
| <description>Bus Error Interrupt -- this bit is set if the BEIE bit in CANxIER is 1, and the CAN controller detects an error on the bus.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>IDI</name> | |
| <description>ID Ready Interrupt -- this bit is set if the IDIE bit in CANxIER is 1, and a CAN Identifier has been received (a message was successfully transmitted or aborted). This bit is set whenever a message was successfully transmitted or aborted and the IDIE bit is set in the IER register.</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TI2</name> | |
| <description>Transmit Interrupt 2. This bit is set when the TBS2 bit in CANxSR goes from 0 to 1 (whenever a message out of TXB2 was successfully transmitted or aborted), indicating that Transmit buffer 2 is available, and the TIE2 bit in CANxIER is 1.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TI3</name> | |
| <description>Transmit Interrupt 3. This bit is set when the TBS3 bit in CANxSR goes from 0 to 1 (whenever a message out of TXB3 was successfully transmitted or aborted), indicating that Transmit buffer 3 is available, and the TIE3 bit in CANxIER is 1.</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>RESET</name> | |
| <description>Reset</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET</name> | |
| <description>Set</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>ERRBIT4_0</name> | |
| <description>Error Code Capture: when the CAN controller detects a bus error, the location of the error within the frame is captured in this field. The value reflects an internal state variable, and as a result is not very linear: 00011 = Start of Frame 00010 = ID28 ... ID21 00110 = ID20 ... ID18 00100 = SRTR Bit 00101 = IDE bit 00111 = ID17 ... 13 01111 = ID12 ... ID5 01110 = ID4 ... ID0 01100 = RTR Bit 01101 = Reserved Bit 1 01001 = Reserved Bit 0 01011 = Data Length Code 01010 = Data Field 01000 = CRC Sequence 11000 = CRC Delimiter 11001 = Acknowledge Slot 11011 = Acknowledge Delimiter 11010 = End of Frame 10010 = Intermission Whenever a bus error occurs, the corresponding bus error interrupt is forced, if enabled. At the same time, the current position of the Bit Stream Processor is captured into the Error Code Capture Register. The content within this register is fixed until the user software has read out its content once. From now on, the capture mechanism is activated again, i.e. reading the CANxICR enables another Bus Error Interrupt.</description> | |
| <bitRange>[20:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>ERRDIR</name> | |
| <description>When the CAN controller detects a bus error, the direction of the current bit is captured in this bit.</description> | |
| <bitRange>[21:21]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>ERROR_OCCURRED_DURIN</name> | |
| <description>Error occurred during transmitting.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ERROR_OCCURRED_DURIN</name> | |
| <description>Error occurred during receiving.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ERRC1_0</name> | |
| <description>When the CAN controller detects a bus error, the type of error is captured in this field:</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>BIT_ERROR</name> | |
| <description>Bit error</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FORM_ERROR</name> | |
| <description>Form error</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>STUFF_ERROR</name> | |
| <description>Stuff error</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>OTHER_ERROR</name> | |
| <description>Other error</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ALCBIT</name> | |
| <description>Each time arbitration is lost while trying to send on the CAN, the bit number within the frame is captured into this field. After the content of ALCBIT is read, the ALI bit is cleared and a new Arbitration Lost interrupt can occur. 00 = arbitration lost in the first bit (MS) of identifier ... 11 = arbitration lost in SRTS bit (RTR bit for standard frame messages) 12 = arbitration lost in IDE bit 13 = arbitration lost in 12th bit of identifier (extended frame only) ... 30 = arbitration lost in last bit of identifier (extended frame only) 31 = arbitration lost in RTR bit (extended frame only) On arbitration lost, the corresponding arbitration lost interrupt is forced, if enabled. At that time, the current bit position of the Bit Stream Processor is captured into the Arbitration Lost Capture Register. The content within this register is fixed until the user application has read out its contents once. From now on, the capture mechanism is activated again.</description> | |
| <bitRange>[31:24]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IER</name> | |
| <description>Interrupt Enable</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RIE</name> | |
| <description>Receiver Interrupt Enable. When the Receive Buffer Status is 'full', the CAN Controller requests the respective interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TIE1</name> | |
| <description>Transmit Interrupt Enable for Buffer1. When a message has been successfully transmitted out of TXB1 or Transmit Buffer 1 is accessible again (e.g. after an Abort Transmission command), the CAN Controller requests the respective interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>EIE</name> | |
| <description>Error Warning Interrupt Enable. If the Error or Bus Status change (see Status Register), the CAN Controller requests the respective interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DOIE</name> | |
| <description>Data Overrun Interrupt Enable. If the Data Overrun Status bit is set (see Status Register), the CAN Controller requests the respective interrupt.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>WUIE</name> | |
| <description>Wake-Up Interrupt Enable. If the sleeping CAN controller wakes up, the respective interrupt is requested.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>EPIE</name> | |
| <description>Error Passive Interrupt Enable. If the error status of the CAN Controller changes from error active to error passive or vice versa, the respective interrupt is requested.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>ALIE</name> | |
| <description>Arbitration Lost Interrupt Enable. If the CAN Controller has lost arbitration, the respective interrupt is requested.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>BEIE</name> | |
| <description>Bus Error Interrupt Enable. If a bus error has been detected, the CAN Controller requests the respective interrupt.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>IDIE</name> | |
| <description>ID Ready Interrupt Enable. When a CAN identifier has been received, the CAN Controller requests the respective interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>TIE2</name> | |
| <description>Transmit Interrupt Enable for Buffer2. When a message has been successfully transmitted out of TXB2 or Transmit Buffer 2 is accessible again (e.g. after an Abort Transmission command), the CAN Controller requests the respective interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>TIE3</name> | |
| <description>Transmit Interrupt Enable for Buffer3. When a message has been successfully transmitted out of TXB3 or Transmit Buffer 3 is accessible again (e.g. after an Abort Transmission command), the CAN Controller requests the respective interrupt.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:11]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>BTR</name> | |
| <description>Bus Timing. Can only be written when RM in CANMOD is 1.</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x1C0000</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>BRP</name> | |
| <description>Baud Rate Prescaler. The APB clock is divided by (this value plus one) to produce the CAN clock.</description> | |
| <bitRange>[9:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[13:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>SJW</name> | |
| <description>The Synchronization Jump Width is (this value plus one) CAN clocks.</description> | |
| <bitRange>[15:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>TESG1</name> | |
| <description>The delay from the nominal Sync point to the sample point is (this value plus one) CAN clocks.</description> | |
| <bitRange>[19:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>TESG2</name> | |
| <description>The delay from the sample point to the next nominal sync point is (this value plus one) CAN clocks. The nominal CAN bit time is (this value plus the value in TSEG1 plus 3) CAN clocks.</description> | |
| <bitRange>[22:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>SAM</name> | |
| <description>Sampling</description> | |
| <bitRange>[23:23]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_BUS_IS_SAMPLED_O</name> | |
| <description>The bus is sampled once (recommended for high speed buses)</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_BUS_IS_SAMPLED_3</name> | |
| <description>The bus is sampled 3 times (recommended for low to medium speed buses to filter spikes on the bus-line)</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:24]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>EWL</name> | |
| <description>Error Warning Limit. Can only be written when RM in CANMOD is 1.</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x60</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>EWL</name> | |
| <description>During CAN operation, this value is compared to both the Tx and Rx Error Counters. If either of these counter matches this value, the Error Status (ES) bit in CANSR is set.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SR</name> | |
| <description>Status Register</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x3C3C3C</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RBS_1</name> | |
| <description>Receive Buffer Status. This bit is identical to the RBS bit in the CANxGSR.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DOS_1</name> | |
| <description>Data Overrun Status. This bit is identical to the DOS bit in the CANxGSR.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>TBS1_1</name> | |
| <description>Transmit Buffer Status 1.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LOCKED_SOFTWARE_CAN</name> | |
| <description>Locked. Software cannot access the Tx Buffer 1 nor write to the corresponding CANxTFI, CANxTID, CANxTDA, and CANxTDB registers because a message is either waiting for transmission or is in transmitting process.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RELEASED_SOFTWARE_M</name> | |
| <description>Released. Software may write a message into the Transmit Buffer 1 and its CANxTFI, CANxTID, CANxTDA, and CANxTDB registers.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TCS1_1</name> | |
| <description>Transmission Complete Status.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INCOMPLETE_THE_PREV</name> | |
| <description>Incomplete. The previously requested transmission for Tx Buffer 1 is not complete.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>COMPLETE_THE_PREVIO</name> | |
| <description>Complete. The previously requested transmission for Tx Buffer 1 has been successfully completed.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RS_1</name> | |
| <description>Receive Status. This bit is identical to the RS bit in the GSR.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>TS1_1</name> | |
| <description>Transmit Status 1.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>IDLE_THERE_IS_NO_TR</name> | |
| <description>Idle. There is no transmission from Tx Buffer 1.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRANSMIT_THE_CAN_CO</name> | |
| <description>Transmit. The CAN Controller is transmitting a message from Tx Buffer 1.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ES_1</name> | |
| <description>Error Status. This bit is identical to the ES bit in the CANxGSR.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>BS_1</name> | |
| <description>Bus Status. This bit is identical to the BS bit in the CANxGSR.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>RBS_2</name> | |
| <description>Receive Buffer Status. This bit is identical to the RBS bit in the CANxGSR.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>DOS_2</name> | |
| <description>Data Overrun Status. This bit is identical to the DOS bit in the CANxGSR.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>TBS2_2</name> | |
| <description>Transmit Buffer Status 2.</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LOCKED_SOFTWARE_CAN</name> | |
| <description>Locked. Software cannot access the Tx Buffer 2 nor write to the corresponding CANxTFI, CANxTID, CANxTDA, and CANxTDB registers because a message is either waiting for transmission or is in transmitting process.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RELEASED_SOFTWARE_M</name> | |
| <description>Released. Software may write a message into the Transmit Buffer 2 and its CANxTFI, CANxTID, CANxTDA, and CANxTDB registers.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TCS2_2</name> | |
| <description>Transmission Complete Status.</description> | |
| <bitRange>[11:11]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INCOMPLETE_THE_PREV</name> | |
| <description>Incomplete. The previously requested transmission for Tx Buffer 2 is not complete.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>COMPLETE_THE_PREVIO</name> | |
| <description>Complete. The previously requested transmission for Tx Buffer 2 has been successfully completed.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RS_2</name> | |
| <description>Receive Status. This bit is identical to the RS bit in the GSR.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>TS2_2</name> | |
| <description>Transmit Status 2.</description> | |
| <bitRange>[13:13]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>IDLE_THERE_IS_NO_TR</name> | |
| <description>Idle. There is no transmission from Tx Buffer 2.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRANSMIT_THE_CAN_CO</name> | |
| <description>Transmit. The CAN Controller is transmitting a message from Tx Buffer 2.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ES_2</name> | |
| <description>Error Status. This bit is identical to the ES bit in the CANxGSR.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>BS_2</name> | |
| <description>Bus Status. This bit is identical to the BS bit in the CANxGSR.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RBS_3</name> | |
| <description>Receive Buffer Status. This bit is identical to the RBS bit in the CANxGSR.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>DOS_3</name> | |
| <description>Data Overrun Status. This bit is identical to the DOS bit in the CANxGSR.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>TBS3_3</name> | |
| <description>Transmit Buffer Status 3.</description> | |
| <bitRange>[18:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LOCKED_SOFTWARE_CAN</name> | |
| <description>Locked. Software cannot access the Tx Buffer 3 nor write to the corresponding CANxTFI, CANxTID, CANxTDA, and CANxTDB registers because a message is either waiting for transmission or is in transmitting process.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RELEASED_SOFTWARE_M</name> | |
| <description>Released. Software may write a message into the Transmit Buffer 3 and its CANxTFI, CANxTID, CANxTDA, and CANxTDB registers.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TCS3_3</name> | |
| <description>Transmission Complete Status.</description> | |
| <bitRange>[19:19]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INCOMPLETE_THE_PREV</name> | |
| <description>Incomplete. The previously requested transmission for Tx Buffer 3 is not complete.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>COMPLETE_THE_PREVIO</name> | |
| <description>Complete. The previously requested transmission for Tx Buffer 3 has been successfully completed.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RS_3</name> | |
| <description>Receive Status. This bit is identical to the RS bit in the GSR.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>TS3_3</name> | |
| <description>Transmit Status 3.</description> | |
| <bitRange>[21:21]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>IDLE_THERE_IS_NO_TR</name> | |
| <description>Idle. There is no transmission from Tx Buffer 3.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TRANSMIT_THE_CAN_CO</name> | |
| <description>Transmit. The CAN Controller is transmitting a message from Tx Buffer 3.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ES_3</name> | |
| <description>Error Status. This bit is identical to the ES bit in the CANxGSR.</description> | |
| <bitRange>[22:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>BS_3</name> | |
| <description>Bus Status. This bit is identical to the BS bit in the CANxGSR.</description> | |
| <bitRange>[23:23]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, the value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:24]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RFS</name> | |
| <description>Receive frame status. Can only be written when RM in CANMOD is 1.</description> | |
| <addressOffset>0x020</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>IDINDEX</name> | |
| <description>ID Index. If the BP bit (below) is 0, this value is the zero-based number of the Lookup Table RAM entry at which the Acceptance Filter matched the received Identifier. Disabled entries in the Standard tables are included in this numbering, but will not be matched. See Section 21.17 Examples of acceptance filter tables and ID index values on page 587 for examples of ID Index values.</description> | |
| <bitRange>[9:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>BP</name> | |
| <description>If this bit is 1, the current message was received in AF Bypass mode, and the ID Index field (above) is meaningless.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>DLC</name> | |
| <description>The field contains the Data Length Code (DLC) field of the current received message. When RTR = 0, this is related to the number of data bytes available in the CANRDA and CANRDB registers as follows: 0000-0111 = 0 to 7 bytes1000-1111 = 8 bytes With RTR = 1, this value indicates the number of data bytes requested to be sent back, with the same encoding.</description> | |
| <bitRange>[19:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[29:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTR</name> | |
| <description>This bit contains the Remote Transmission Request bit of the current received message. 0 indicates a Data Frame, in which (if DLC is non-zero) data can be read from the CANRDA and possibly the CANRDB registers. 1 indicates a Remote frame, in which case the DLC value identifies the number of data bytes requested to be sent using the same Identifier.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>FF</name> | |
| <description>A 0 in this bit indicates that the current received message included an 11-bit Identifier, while a 1 indicates a 29-bit Identifier. This affects the contents of the CANid register described below.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RID</name> | |
| <description>Received Identifier. Can only be written when RM in CANMOD is 1.</description> | |
| <addressOffset>0x024</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>ID</name> | |
| <description>The 11-bit Identifier field of the current received message. In CAN 2.0A, these bits are called ID10-0, while in CAN 2.0B they're called ID29-18.</description> | |
| <bitRange>[10:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:11]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RDA</name> | |
| <description>Received data bytes 1-4. Can only be written when RM in CANMOD is 1.</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DATA1</name> | |
| <description>Data 1. If the DLC field in CANRFS >= 0001, this contains the first Data byte of the current received message.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA2</name> | |
| <description>Data 2. If the DLC field in CANRFS >= 0010, this contains the first Data byte of the current received message.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA3</name> | |
| <description>Data 3. If the DLC field in CANRFS >= 0011, this contains the first Data byte of the current received message.</description> | |
| <bitRange>[23:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA4</name> | |
| <description>Data 4. If the DLC field in CANRFS >= 0100, this contains the first Data byte of the current received message.</description> | |
| <bitRange>[31:24]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RDB</name> | |
| <description>Received data bytes 5-8. Can only be written when RM in CANMOD is 1.</description> | |
| <addressOffset>0x02C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DATA5</name> | |
| <description>Data 5. If the DLC field in CANRFS >= 0101, this contains the first Data byte of the current received message.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA6</name> | |
| <description>Data 6. If the DLC field in CANRFS >= 0110, this contains the first Data byte of the current received message.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA7</name> | |
| <description>Data 7. If the DLC field in CANRFS >= 0111, this contains the first Data byte of the current received message.</description> | |
| <bitRange>[23:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA8</name> | |
| <description>Data 8. If the DLC field in CANRFS >= 1000, this contains the first Data byte of the current received message.</description> | |
| <bitRange>[31:24]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x10</dimIncrement> | |
| <dimIndex>1-3</dimIndex> | |
| <name>TFI%s</name> | |
| <description>Transmit | |
| frame info (Tx Buffer )</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PRIO</name> | |
| <description>If the TPM (Transmit Priority Mode) bit in the CANxMOD register is set to 1, enabled Tx Buffers contend for the right to send their messages based on this field. The buffer with the lowest TX Priority value wins the prioritization and is sent first.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>DLC</name> | |
| <description>Data Length Code. This value is sent in the DLC field of the next transmit message. In addition, if RTR = 0, this value controls the number of Data bytes sent in the next transmit message, from the CANxTDA and CANxTDB registers: 0000-0111 = 0-7 bytes 1xxx = 8 bytes</description> | |
| <bitRange>[19:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[29:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>RTR</name> | |
| <description>This value is sent in the RTR bit of the next transmit message. If this bit is 0, the number of data bytes called out by the DLC field are sent from the CANxTDA and CANxTDB registers. If this bit is 1, a Remote Frame is sent, containing a request for that number of bytes.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>FF</name> | |
| <description>If this bit is 0, the next transmit message will be sent with an 11-bit Identifier (standard frame format), while if it's 1, the message will be sent with a 29-bit Identifier (extended frame format).</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x10</dimIncrement> | |
| <dimIndex>1-3</dimIndex> | |
| <name>TID%s</name> | |
| <description>Transmit | |
| Identifier (Tx Buffer)</description> | |
| <addressOffset>0x034</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>ID</name> | |
| <description>The 11-bit Identifier to be sent in the next transmit message.</description> | |
| <bitRange>[10:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:11]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x10</dimIncrement> | |
| <dimIndex>1-3</dimIndex> | |
| <name>TDA%s</name> | |
| <description>Transmit | |
| data bytes 1-4 (Tx Buffer)</description> | |
| <addressOffset>0x038</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DATA1</name> | |
| <description>Data 1. If RTR = 0 and DLC >= 0001 in the corresponding CANxTFI, this byte is sent as the first Data byte of the next transmit message.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA2</name> | |
| <description>Data 2. If RTR = 0 and DLC >= 0010 in the corresponding CANxTFI, this byte is sent as the 2nd Data byte of the next transmit message.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA3</name> | |
| <description>Data 3. If RTR = 0 and DLC >= 0011 in the corresponding CANxTFI, this byte is sent as the 3rd Data byte of the next transmit message.</description> | |
| <bitRange>[23:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA4</name> | |
| <description>Data 4. If RTR = 0 and DLC >= 0100 in the corresponding CANxTFI, this byte is sent as the 4th Data byte of the next transmit message.</description> | |
| <bitRange>[31:24]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x10</dimIncrement> | |
| <dimIndex>1-3</dimIndex> | |
| <name>TDB%s</name> | |
| <description>Transmit | |
| data bytes 5-8 (Tx Buffer )</description> | |
| <addressOffset>0x03C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>DATA5</name> | |
| <description>Data 5. If RTR = 0 and DLC >= 0101 in the corresponding CANTFI, this byte is sent as the 5th Data byte of the next transmit message.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA6</name> | |
| <description>Data 6. If RTR = 0 and DLC >= 0110 in the corresponding CANTFI, this byte is sent as the 6th Data byte of the next transmit message.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA7</name> | |
| <description>Data 7. If RTR = 0 and DLC >= 0111 in the corresponding CANTFI, this byte is sent as the 7th Data byte of the next transmit message.</description> | |
| <bitRange>[23:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>DATA8</name> | |
| <description>Data 8. If RTR = 0 and DLC >= 1000 in the corresponding CANTFI, this byte is sent as the 8th Data byte of the next transmit message.</description> | |
| <bitRange>[31:24]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral derivedFrom="CAN1"> | |
| <name>CAN2</name> | |
| <baseAddress>0x40048000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| </peripheral> | |
| <peripheral derivedFrom="I2C0"> | |
| <name>I2C1</name> | |
| <baseAddress>0x4005C000</baseAddress> | |
| <interrupt> | |
| <name>I2C1</name> | |
| <value>11</value> | |
| </interrupt> | |
| </peripheral> | |
| <peripheral derivedFrom="SSP1"> | |
| <name>SSP0</name> | |
| <description>SSP controller</description> | |
| <groupName>SSP</groupName> | |
| <baseAddress>0x40088000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0x300</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>SSP0</name> | |
| <value>14</value> | |
| </interrupt> | |
| </peripheral> | |
| <peripheral> | |
| <name>DAC</name> | |
| <description> Digital-to-Analog Converter (DAC) </description> | |
| <groupName>DAC</groupName> | |
| <baseAddress>0x4008C000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <registers> | |
| <register> | |
| <name>CR</name> | |
| <description>D/A Converter Register. This register contains the digital value to be converted to analog and a power control bit.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[5:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>VALUE</name> | |
| <description>After the selected settling time after this field is written with a new VALUE, the voltage on the DAC_OUT pin (with respect to VSSA) is VALUE x ((VREFP - V REFN)/1024) + VREFN.</description> | |
| <bitRange>[15:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>BIAS</name> | |
| <description>Settling time The settling times noted in the description of the BIAS bit are valid for a capacitance load on the DAC_OUT pin not exceeding 100 pF. A load impedance value greater than that value will cause settling time longer than the specified time. One or more graphs of load impedance vs. settling time will be included in the final data sheet.</description> | |
| <bitRange>[16:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>FAST</name> | |
| <description>The settling time of the DAC is 1 us max, and the maximum current is 700 uA. This allows a maximum update rate of 1 MHz.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SLOW</name> | |
| <description>The settling time of the DAC is 2.5 us and the maximum current is 350 uA. This allows a maximum update rate of 400 kHz.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:17]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CTRL</name> | |
| <description>DAC Control register. This register controls DMA and timer operation.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>INT_DMA_REQ</name> | |
| <description>DMA interrupt request</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CLEAR_ON_ANY_WRITE_T</name> | |
| <description>Clear on any write to the DACR register.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SET_BY_HARDWARE_WHEN</name> | |
| <description>Set by hardware when the timer times out.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DBLBUF_ENA</name> | |
| <description>Double buffering</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Disable</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_WHEN_THIS_BI</name> | |
| <description>Enable. When this bit and the CNT_ENA bit are both set, the double-buffering feature in the DACR register will be enabled. Writes to the DACR register are written to a pre-buffer and then transferred to the DACR on the next time-out of the counter.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CNT_ENA</name> | |
| <description>Time-out counter operation</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Disable</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE</name> | |
| <description>Enable</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DMA_ENA</name> | |
| <description>DMA access</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLE</name> | |
| <description>Disable</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLE_DMA_BURST_RE</name> | |
| <description>Enable. DMA Burst Request Input 7 is enabled for the DAC (see Table 672).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CNTVAL</name> | |
| <description>DAC Counter Value register. This register contains the reload value for the DAC DMA/Interrupt timer.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>VALUE</name> | |
| <description>16-bit reload value for the DAC interrupt/DMA timer.</description> | |
| <bitRange>[15:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral derivedFrom="TIMER0"> | |
| <name>TIMER2</name> | |
| <baseAddress>0x40090000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>TIMER2</name> | |
| <value>3</value> | |
| </interrupt> | |
| </peripheral> | |
| <peripheral derivedFrom="TIMER0"> | |
| <name>TIMER3</name> | |
| <baseAddress>0x40094000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>TIMER3</name> | |
| <value>4</value> | |
| </interrupt> | |
| </peripheral> | |
| <peripheral derivedFrom="UART0"> | |
| <name>UART2</name> | |
| <baseAddress>0x40098000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>UART2</name> | |
| <value>7</value> | |
| </interrupt> | |
| </peripheral> | |
| <peripheral derivedFrom="UART0"> | |
| <name>UART3</name> | |
| <baseAddress>0x4009C000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>UART3</name> | |
| <value>8</value> | |
| </interrupt> | |
| </peripheral> | |
| <peripheral derivedFrom="I2C0"> | |
| <name>I2C2</name> | |
| <baseAddress>0x400A0000</baseAddress> | |
| <interrupt> | |
| <name>I2C2</name> | |
| <value>12</value> | |
| </interrupt> | |
| </peripheral> | |
| <peripheral> | |
| <name>I2S</name> | |
| <description>I2S interface</description> | |
| <groupName>I2S</groupName> | |
| <baseAddress>0x400A8000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>I2S</name> | |
| <value>27</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>DAO</name> | |
| <description>I2S Digital Audio Output Register. Contains control bits for the I2S transmit channel.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x87E1</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>WORDWIDTH</name> | |
| <description>Selects the number of bytes in data as follows:</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>8_BIT_DATA</name> | |
| <description>8-bit data</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>16_BIT_DATA</name> | |
| <description>16-bit data</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>32_BIT_DATA</name> | |
| <description>32-bit data</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MONO</name> | |
| <description>When 1, data is of monaural format. When 0, the data is in stereo format.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>STOP</name> | |
| <description>When 1, disables accesses on FIFOs, places the transmit channel in mute mode.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESET</name> | |
| <description>When 1, asynchronously resets the transmit channel and FIFO.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>WS_SEL</name> | |
| <description>When 0, the interface is in master mode. When 1, the interface is in slave mode. See Section 34.7.2 for a summary of useful combinations for this bit with TXMODE.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>WS_HALFPERIOD</name> | |
| <description>Word select half period minus 1, i.e. WS 64clk period -> ws_halfperiod = 31.</description> | |
| <bitRange>[14:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>MUTE</name> | |
| <description>When 1, the transmit channel sends only zeroes.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DAI</name> | |
| <description>I2S Digital Audio Input Register. Contains control bits for the I2S receive channel.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x07E1</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>WORDWIDTH</name> | |
| <description>Selects the number of bytes in data as follows:</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>8_BIT_DATA</name> | |
| <description>8-bit data</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>16_BIT_DATA</name> | |
| <description>16-bit data</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>32_BIT_DATA</name> | |
| <description>32-bit data</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>MONO</name> | |
| <description>When 1, data is of monaural format. When 0, the data is in stereo format.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>STOP</name> | |
| <description>When 1, disables accesses on FIFOs, places the transmit channel in mute mode.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESET</name> | |
| <description>When 1, asynchronously reset the transmit channel and FIFO.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>WS_SEL</name> | |
| <description>When 0, the interface is in master mode. When 1, the interface is in slave mode. See Section 34.7.2 for a summary of useful combinations for this bit with RXMODE.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>WS_HALFPERIOD</name> | |
| <description>Word select half period minus 1, i.e. WS 64clk period -> ws_halfperiod = 31.</description> | |
| <bitRange>[14:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:15]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TXFIFO</name> | |
| <description>I2S Transmit FIFO. Access register for the 8 x 32-bit transmitter FIFO.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>I2STXFIFO</name> | |
| <description>8 x 32-bit transmit FIFO.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RXFIFO</name> | |
| <description>I2S Receive FIFO. Access register for the 8 x 32-bit receiver FIFO.</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <readAction>modify</readAction> | |
| <fields> | |
| <field> | |
| <name>I2SRXFIFO</name> | |
| <description>8 x 32-bit transmit FIFO.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>STATE</name> | |
| <description>I2S Status Feedback Register. Contains status information about the I2S interface.</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0x7</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>IRQ</name> | |
| <description>This bit reflects the presence of Receive Interrupt or Transmit Interrupt. This is determined by comparing the current FIFO levels to the rx_depth_irq and tx_depth_irq fields in the IRQ register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DMAREQ1</name> | |
| <description>This bit reflects the presence of Receive or Transmit DMA Request 1. This is determined by comparing the current FIFO levels to the rx_depth_dma1 and tx_depth_dma1 fields in the DMA1 register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>DMAREQ2</name> | |
| <description>This bit reflects the presence of Receive or Transmit DMA Request 2. This is determined by comparing the current FIFO levels to the rx_depth_dma2 and tx_depth_dma2 fields in the DMA2 register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RX_LEVEL</name> | |
| <description>Reflects the current level of the Receive FIFO.</description> | |
| <bitRange>[11:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>TX_LEVEL</name> | |
| <description>Reflects the current level of the Transmit FIFO.</description> | |
| <bitRange>[19:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:20]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DMA1</name> | |
| <description>I2S DMA Configuration Register 1. Contains control information for DMA request 1.</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RX_DMA1_ENABLE</name> | |
| <description>When 1, enables DMA1 for I2S receive.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TX_DMA1_ENABLE</name> | |
| <description>When 1, enables DMA1 for I2S transmit.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RX_DEPTH_DMA1</name> | |
| <description>Set the FIFO level that triggers a receive DMA request on DMA1.</description> | |
| <bitRange>[11:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>TX_DEPTH_DMA1</name> | |
| <description>Set the FIFO level that triggers a transmit DMA request on DMA1.</description> | |
| <bitRange>[19:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:20]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DMA2</name> | |
| <description>I2S DMA Configuration Register 2. Contains control information for DMA request 2.</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RX_DMA2_ENABLE</name> | |
| <description>When 1, enables DMA1 for I2S receive.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TX_DMA2_ENABLE</name> | |
| <description>When 1, enables DMA1 for I2S transmit.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RX_DEPTH_DMA2</name> | |
| <description>Set the FIFO level that triggers a receive DMA request on DMA2.</description> | |
| <bitRange>[11:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>TX_DEPTH_DMA2</name> | |
| <description>Set the FIFO level that triggers a transmit DMA request on DMA2.</description> | |
| <bitRange>[19:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:20]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IRQ</name> | |
| <description>I2S Interrupt Request Control Register. Contains bits that control how the I2S interrupt request is generated.</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RX_IRQ_ENABLE</name> | |
| <description>When 1, enables I2S receive interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TX_IRQ_ENABLE</name> | |
| <description>When 1, enables I2S transmit interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RX_DEPTH_IRQ</name> | |
| <description>Set the FIFO level on which to create an irq request.</description> | |
| <bitRange>[11:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>TX_DEPTH_IRQ</name> | |
| <description>Set the FIFO level on which to create an irq request.</description> | |
| <bitRange>[19:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:20]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TXRATE</name> | |
| <description>I2S Transmit MCLK divider. This register determines the I2S TX MCLK rate by specifying the value to divide PCLK by in order to produce MCLK.</description> | |
| <addressOffset>0x020</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>Y_DIVIDER</name> | |
| <description>I2S transmit MCLK rate denominator. This value is used to divide PCLK to produce the transmit MCLK. Eight bits of fractional divide supports a wide range of possibilities. A value of 0 stops the clock.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>X_DIVIDER</name> | |
| <description>I2S transmit MCLK rate numerator. This value is used to multiply PCLK by to produce the transmit MCLK. A value of 0 stops the clock. Eight bits of fractional divide supports a wide range of possibilities. Note: the resulting ratio X/Y is divided by 2.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RXRATE</name> | |
| <description>I2S Receive MCLK divider. This register determines the I2S RX MCLK rate by specifying the value to divide PCLK by in order to produce MCLK.</description> | |
| <addressOffset>0x024</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>Y_DIVIDER</name> | |
| <description>I2S receive MCLK rate denominator. This value is used to divide PCLK to produce the receive MCLK. Eight bits of fractional divide supports a wide range of possibilities. A value of 0 stops the clock.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>X_DIVIDER</name> | |
| <description>I2S receive MCLK rate numerator. This value is used to multiply PCLK by to produce the receive MCLK. A value of 0 stops the clock. Eight bits of fractional divide supports a wide range of possibilities. Note: the resulting ratio X/Y is divided by 2.</description> | |
| <bitRange>[15:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TXBITRATE</name> | |
| <description>I2S Transmit bit rate divider. This register determines the I2S transmit bit rate by specifying the value to divide TX_MCLK by in order to produce the transmit bit clock.</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>TX_BITRATE</name> | |
| <description>I2S transmit bit rate. This value plus one is used to divide TX_MCLK to produce the transmit bit clock.</description> | |
| <bitRange>[5:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RXBITRATE</name> | |
| <description>I2S Receive bit rate divider. This register determines the I2S receive bit rate by specifying the value to divide RX_MCLK by in order to produce the receive bit clock.</description> | |
| <addressOffset>0x02C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RX_BITRATE</name> | |
| <description>I2S receive bit rate. This value plus one is used to divide RX_MCLK to produce the receive bit clock.</description> | |
| <bitRange>[5:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TXMODE</name> | |
| <description>I2S Transmit mode control.</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>TXCLKSEL</name> | |
| <description>Clock source selection for the transmit bit clock divider.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SELECT_THE_TX_FRACTI</name> | |
| <description>Select the TX fractional rate divider clock output as the source</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECT_THE_RX_MCLK_S</name> | |
| <description>Select the RX_MCLK signal as the TX_MCLK clock source</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TX4PIN</name> | |
| <description>Transmit 4-pin mode selection. When 1, enables 4-pin mode.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>TXMCENA</name> | |
| <description>Enable for the TX_MCLK output. When 0, output of TX_MCLK is not enabled. When 1, output of TX_MCLK is enabled.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RXMODE</name> | |
| <description>I2S Receive mode control.</description> | |
| <addressOffset>0x034</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RXCLKSEL</name> | |
| <description>Clock source selection for the receive bit clock divider.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SELECT_THE_RX_FRACTI</name> | |
| <description>Select the RX fractional rate divider clock output as the source</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECT_THE_TX_MCLK_S</name> | |
| <description>Select the TX_MCLK signal as the RX_MCLK clock source</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RX4PIN</name> | |
| <description>Receive 4-pin mode selection. When 1, enables 4-pin mode.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RXMCENA</name> | |
| <description>Enable for the RX_MCLK output. When 0, output of RX_MCLK is not enabled. When 1, output of RX_MCLK is enabled.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>RITIMER</name> | |
| <description>Repetitive Interrupt Timer (RIT) </description> | |
| <groupName>RIT</groupName> | |
| <baseAddress>0x400B0000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>RIT</name> | |
| <value>29</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>COMPVAL</name> | |
| <description>Compare register</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0xFFFFFFFF</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RICOMP</name> | |
| <description>Compare register. Holds the compare value which is compared to the counter.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MASK</name> | |
| <description>Mask register. This register holds the 32-bit mask value. A 1 written to any bit will force a compare on the corresponding bit of the counter and compare register.</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RIMASK</name> | |
| <description>Mask register. This register holds the 32-bit mask value. A one written to any bit overrides the result of the comparison for the corresponding bit of the counter and compare register (causes the comparison of the register bits to be always true).</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CTRL</name> | |
| <description>Control register.</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0xC</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RITINT</name> | |
| <description>Interrupt flag</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_BIT_IS_SET_TO_1</name> | |
| <description>This bit is set to 1 by hardware whenever the counter value equals the masked compare value specified by the contents of RICOMPVAL and RIMASK registers. Writing a 1 to this bit will clear it to 0. Writing a 0 has no effect.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_COUNTER_VALUE_DO</name> | |
| <description>The counter value does not equal the masked compare value.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RITENCLR</name> | |
| <description>Timer enable clear</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_TIMER_WILL_BE_CL</name> | |
| <description>The timer will be cleared to 0 whenever the counter value equals the masked compare value specified by the contents of RICOMPVAL and RIMASK registers. This will occur on the same clock that sets the interrupt flag.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>THE_TIMER_WILL_NOT_B</name> | |
| <description>The timer will not be cleared to 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RITENBR</name> | |
| <description>Timer enable for debug</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THE_TIMER_IS_HALTED_</name> | |
| <description>The timer is halted when the processor is halted for debugging.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DEBUG_HAS_NO_EFFECT_</name> | |
| <description>Debug has no effect on the timer operation.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RITEN</name> | |
| <description>Timer enable.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>TIMER_ENABLED_THIS_</name> | |
| <description>Timer enabled. This can be overruled by a debug halt if enabled in bit 2.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>TIMER_DISABLED_</name> | |
| <description>Timer disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>COUNTER</name> | |
| <description>32-bit counter</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RICOUNTER</name> | |
| <description>32-bit up counter. Counts continuously unless RITEN bit in RICTRL register is cleared or debug mode is entered (if enabled by the RITNEBR bit in RICTRL). Can be loaded to any value in software.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>MCPWM</name> | |
| <description>Motor Control PWM</description> | |
| <groupName>MCPWM</groupName> | |
| <baseAddress>0x400B8000</baseAddress> | |
| <addressBlock> | |
| <offset>0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>MCPWM</name> | |
| <value>30</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>CON</name> | |
| <description>PWM Control read address</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RUN0</name> | |
| <description>Stops/starts timer channel 0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>STOP_</name> | |
| <description>Stop.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RUN_</name> | |
| <description>Run.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CENTER0</name> | |
| <description>Edge/center aligned operation for channel 0.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>EDGE_ALIGNED_</name> | |
| <description>Edge-aligned.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CENTER_ALIGNED_</name> | |
| <description>Center-aligned.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>POLA0</name> | |
| <description>Selects polarity of the MCOA0 and MCOB0 pins.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PASSIVE_STATE_IS_LOW</name> | |
| <description>Passive state is LOW, active state is HIGH.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PASSIVE_STATE_IS_HIG</name> | |
| <description>Passive state is HIGH, active state is LOW.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DTE0</name> | |
| <description>Controls the dead-time feature for channel 0.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DEAD_TIME_DISABLED_</name> | |
| <description>Dead-time disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DEAD_TIME_ENABLED_</name> | |
| <description>Dead-time enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DISUP0</name> | |
| <description>Enable/disable updates of functional registers for channel 0 (see Section 24.8.2).</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>UPDATE</name> | |
| <description>Functional registers are updated from the write registers at the end of each PWM cycle.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>NOUPDATE</name> | |
| <description>Functional registers remain the same as long as the timer is running.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RUN1</name> | |
| <description>Stops/starts timer channel 1.</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>STOP_</name> | |
| <description>Stop.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RUN_</name> | |
| <description>Run.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CENTER1</name> | |
| <description>Edge/center aligned operation for channel 1.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>EDGE_ALIGNED_</name> | |
| <description>Edge-aligned.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CENTER_ALIGNED_</name> | |
| <description>Center-aligned.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>POLA1</name> | |
| <description>Selects polarity of the MCOA1 and MCOB1 pins.</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PASSIVE_STATE_IS_LOW</name> | |
| <description>Passive state is LOW, active state is HIGH.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PASSIVE_STATE_IS_HIG</name> | |
| <description>Passive state is HIGH, active state is LOW.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DTE1</name> | |
| <description>Controls the dead-time feature for channel 1.</description> | |
| <bitRange>[11:11]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DEAD_TIME_DISABLED_</name> | |
| <description>Dead-time disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DEAD_TIME_ENABLED_</name> | |
| <description>Dead-time enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DISUP1</name> | |
| <description>Enable/disable updates of functional registers for channel 1 (see Section 24.8.2).</description> | |
| <bitRange>[12:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>UPDATE</name> | |
| <description>Functional registers are updated from the write registers at the end of each PWM cycle.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>NOUPDATE</name> | |
| <description>Functional registers remain the same as long as the timer is running.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[15:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>RUN2</name> | |
| <description>Stops/starts timer channel 2.</description> | |
| <bitRange>[16:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>STOP_</name> | |
| <description>Stop.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RUN_</name> | |
| <description>Run.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CENTER2</name> | |
| <description>Edge/center aligned operation for channel 2.</description> | |
| <bitRange>[17:17]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>EDGE_ALIGNED_</name> | |
| <description>Edge-aligned.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CENTER_ALIGNED_</name> | |
| <description>Center-aligned.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>POLA2</name> | |
| <description>Selects polarity of the MCOA2 and MCOB2 pins.</description> | |
| <bitRange>[18:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>PASSIVE_STATE_IS_LOW</name> | |
| <description>Passive state is LOW, active state is HIGH.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>PASSIVE_STATE_IS_HIG</name> | |
| <description>Passive state is HIGH, active state is LOW.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DTE2</name> | |
| <description>Controls the dead-time feature for channel 1.</description> | |
| <bitRange>[19:19]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DEAD_TIME_DISABLED_</name> | |
| <description>Dead-time disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>DEAD_TIME_ENABLED_</name> | |
| <description>Dead-time enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DISUP2</name> | |
| <description>Enable/disable updates of functional registers for channel 2 (see Section 24.8.2).</description> | |
| <bitRange>[20:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>UPDATE</name> | |
| <description>Functional registers are updated from the write registers at the end of each PWM cycle.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>NOUPDATE</name> | |
| <description>Functional registers remain the same as long as the timer is running.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[28:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>INVBDC</name> | |
| <description>Controls the polarity of the MCOB outputs for all 3 channels. This bit is typically set to 1 only in 3-phase DC mode.</description> | |
| <bitRange>[29:29]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>OPPOSITE</name> | |
| <description>The MCOB outputs have opposite polarity from the MCOA outputs (aside from dead time).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SAME</name> | |
| <description>The MCOB outputs have the same basic polarity as the MCOA outputs. (see Section 24.8.6)</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ACMODE</name> | |
| <description>3-phase AC mode select (see Section 24.8.7).</description> | |
| <bitRange>[30:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>3_PHASE_AC_MODE_OFF</name> | |
| <description>3-phase AC-mode off: Each PWM channel uses its own timer-counter and period register.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>3_PHASE_AC_MODE_ON_</name> | |
| <description>3-phase AC-mode on: All PWM channels use the timer-counter and period register of channel 0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>DCMODE</name> | |
| <description>3-phase DC mode select (see Section 24.8.6).</description> | |
| <bitRange>[31:31]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>3_PHASE_DC_MODE_OFF</name> | |
| <description>3-phase DC mode off: PWM channels are independent (unless bit ACMODE = 1)</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>3_PHASE_DC_MODE_ON_</name> | |
| <description>3-phase DC mode on: The internal MCOA0 output is routed through the CP register (i.e. a mask) register to all six PWM outputs.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CON_SET</name> | |
| <description>PWM Control set address</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>RUN0_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CENTER0_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>POLA0_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DTE0_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>DISUP0_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[7:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RUN1_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>CENTER1_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>POLA1_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>DTE1_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>DISUP1_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[15:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>RUN2_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>CENTER2_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>POLA2_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>DTE2_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>DISUP2_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[28:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>INVBDC_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>ACMODE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>DCMODE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CON register.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CON_CLR</name> | |
| <description>PWM Control clear address</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>RUN0_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CENTER0_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>POLA0_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DTE0_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>DISUP0_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[7:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RUN1_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>CENTER1_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>POLA1_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>DTE1_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>DISUP1_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[15:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>RUN2_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>CENTER2_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>POLA2_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>DTE2_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>DISUP2_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[28:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>INVBDC_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>ACMOD_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>DCMODE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CON register.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CAPCON</name> | |
| <description>Capture Control read address</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CAP0MCI0_RE</name> | |
| <description>A 1 in this bit enables a channel 0 capture event on a rising edge on MCI0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI0_FE</name> | |
| <description>A 1 in this bit enables a channel 0 capture event on a falling edge on MCI0.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI1_RE</name> | |
| <description>A 1 in this bit enables a channel 0 capture event on a rising edge on MCI1.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI1_FE</name> | |
| <description>A 1 in this bit enables a channel 0 capture event on a falling edge on MCI1.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI2_RE</name> | |
| <description>A 1 in this bit enables a channel 0 capture event on a rising edge on MCI2.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI2_FE</name> | |
| <description>A 1 in this bit enables a channel 0 capture event on a falling edge on MCI2.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI0_RE</name> | |
| <description>A 1 in this bit enables a channel 1 capture event on a rising edge on MCI0.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI0_FE</name> | |
| <description>A 1 in this bit enables a channel 1 capture event on a falling edge on MCI0.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI1_RE</name> | |
| <description>A 1 in this bit enables a channel 1 capture event on a rising edge on MCI1.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI1_FE</name> | |
| <description>A 1 in this bit enables a channel 1 capture event on a falling edge on MCI1.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI2_RE</name> | |
| <description>A 1 in this bit enables a channel 1 capture event on a rising edge on MCI2.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI2_FE</name> | |
| <description>A 1 in this bit enables a channel 1 capture event on a falling edge on MCI2.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI0_RE</name> | |
| <description>A 1 in this bit enables a channel 2 capture event on a rising edge on MCI0.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI0_FE</name> | |
| <description>A 1 in this bit enables a channel 2 capture event on a falling edge on MCI0.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI1_RE</name> | |
| <description>A 1 in this bit enables a channel 2 capture event on a rising edge on MCI1.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI1_FE</name> | |
| <description>A 1 in this bit enables a channel 2 capture event on a falling edge on MCI1.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI2_RE</name> | |
| <description>A 1 in this bit enables a channel 2 capture event on a rising edge on MCI2.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI2_FE</name> | |
| <description>A 1 in this bit enables a channel 2 capture event on a falling edge on MCI2.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>RT0</name> | |
| <description>If this bit is 1, TC0 is reset by a channel 0 capture event.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>RT1</name> | |
| <description>If this bit is 1, TC1 is reset by a channel 1 capture event.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>RT2</name> | |
| <description>If this bit is 1, TC2 is reset by a channel 2 capture event.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:21]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CAPCON_SET</name> | |
| <description>Capture Control set address</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>CAP0MCI0_RE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI0_FE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI1_RE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI1_FE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI2_RE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI2_FE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI0_RE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI0_FE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI1_RE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI1_FE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI2_RE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI2_FE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI0_RE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI0_FE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI1_RE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI1_FE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI2_RE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI2_FE_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>RT0_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>RT1_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>RT2_SET</name> | |
| <description>Writing a one sets the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:21]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CAPCON_CLR</name> | |
| <description>Event Control clear address</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>CAP0MCI0_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI0_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI1_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI1_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI2_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP0MCI2_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI0_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI0_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI1_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI1_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI2_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP1MCI2_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI0_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI0_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI1_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI1_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI2_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP2MCI2_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>RT0_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>RT1_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>RT2_CLR</name> | |
| <description>Writing a one clears the corresponding bits in the CAPCON register.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:21]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-2</dimIndex> | |
| <name>TC[%s]</name> | |
| <displayName>TC[%s]</displayName> | |
| <description>Timer Counter register</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MCTC</name> | |
| <description>Timer/Counter value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-2</dimIndex> | |
| <name>LIM[%s]</name> | |
| <displayName>LIM[%s]</displayName> | |
| <description>Limit register</description> | |
| <addressOffset>0x024</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MCLIM</name> | |
| <description>Limit value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-2</dimIndex> | |
| <name>MAT[%s]</name> | |
| <displayName>MAT[%s]</displayName> | |
| <description>Match register</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MCMAT</name> | |
| <description>Match value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DT</name> | |
| <description>Dead time register</description> | |
| <addressOffset>0x03C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x3FFFFFFF</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DT0</name> | |
| <description>Dead time for channel 0.[1]</description> | |
| <bitRange>[9:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DT1</name> | |
| <description>Dead time for channel 1.[2]</description> | |
| <bitRange>[19:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>DT2</name> | |
| <description>Dead time for channel 2.[2]</description> | |
| <bitRange>[29:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>reserved</description> | |
| <bitRange>[31:30]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CP</name> | |
| <description>Communication Pattern register</description> | |
| <addressOffset>0x040</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CCPA0</name> | |
| <description>Communication pattern output A, channel 0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MCOA0_PASSIVE_</name> | |
| <description>MCOA0 passive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERNAL_MCOA0_</name> | |
| <description>internal MCOA0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CCPB0</name> | |
| <description>Communication pattern output B, channel 0.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MCOB0_PASSIVE_</name> | |
| <description>MCOB0 passive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOB0_TRACKS_INTERNA</name> | |
| <description>MCOB0 tracks internal MCOA0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CCPA1</name> | |
| <description>Communication pattern output A, channel 1.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MCOA1_PASSIVE_</name> | |
| <description>MCOA1 passive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOA1_TRACKS_INTERNA</name> | |
| <description>MCOA1 tracks internal MCOA0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CCPB1</name> | |
| <description>Communication pattern output B, channel 1.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MCOB1_PASSIVE_</name> | |
| <description>MCOB1 passive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOB1_TRACKS_INTERNA</name> | |
| <description>MCOB1 tracks internal MCOA0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CCPA2</name> | |
| <description>Communication pattern output A, channel 2.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MCOA2_PASSIVE_</name> | |
| <description>MCOA2 passive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOA2_TRACKS_INTERNA</name> | |
| <description>MCOA2 tracks internal MCOA0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CCPB2</name> | |
| <description>Communication pattern output B, channel 2.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>MCOB2_PASSIVE_</name> | |
| <description>MCOB2 passive.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>MCOB2_TRACKS_INTERNA</name> | |
| <description>MCOB2 tracks internal MCOA0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:6]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <dim>3</dim> | |
| <dimIncrement>0x4</dimIncrement> | |
| <dimIndex>0-2</dimIndex> | |
| <name>CAP[%s]</name> | |
| <displayName>CAP[%s]</displayName> | |
| <description>Capture register</description> | |
| <addressOffset>0x044</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CAP</name> | |
| <description>Current TC value at a capture event.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INTEN</name> | |
| <description>Interrupt Enable read address</description> | |
| <addressOffset>0x050</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>ILIM0</name> | |
| <description>Limit interrupt for channel 0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>IMAT0</name> | |
| <description>Match interrupt for channel 0.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ICAP0</name> | |
| <description>Capture interrupt for channel 0.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM1</name> | |
| <description>Limit interrupt for channel 1.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>IMAT1</name> | |
| <description>Match interrupt for channel 1.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ICAP1</name> | |
| <description>Capture interrupt for channel 1.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM2</name> | |
| <description>Limit interrupt for channel 2.</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>IMAT2</name> | |
| <description>Match interrupt for channel 2.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ICAP2</name> | |
| <description>Capture interrupt for channel 2.</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[14:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABORT</name> | |
| <description>Fast abort interrupt.</description> | |
| <bitRange>[15:15]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>INTERRUPT_DISABLED_</name> | |
| <description>Interrupt disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>INTERRUPT_ENABLED_</name> | |
| <description>Interrupt enabled.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INTEN_SET</name> | |
| <description>Interrupt Enable set address</description> | |
| <addressOffset>0x054</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>ILIM0_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT0_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP0_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM1_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT1_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP1_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM2_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT2_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP2_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[14:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABORT_SET</name> | |
| <description>Writing a one sets the corresponding bit in INTEN, thus enabling the interrupt.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INTEN_CLR</name> | |
| <description>Interrupt Enable clear address</description> | |
| <addressOffset>0x058</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>ILIM0_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT0_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP0_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM1_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT1_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP1_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM2_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT2_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP2_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[14:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABORT_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INTF</name> | |
| <description>Interrupt flags read address</description> | |
| <addressOffset>0x068</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>ILIM0_F</name> | |
| <description>Limit interrupt flag for channel 0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>IMAT0_F</name> | |
| <description>Match interrupt flag for channel 0.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ICAP0_F</name> | |
| <description>Capture interrupt flag for channel 0.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM1_F</name> | |
| <description>Limit interrupt flag for channel 1.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>IMAT1_F</name> | |
| <description>Match interrupt flag for channel 1.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ICAP1_F</name> | |
| <description>Capture interrupt flag for channel 1.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM2_F</name> | |
| <description>Limit interrupt flag for channel 2.</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>IMAT2_F</name> | |
| <description>Match interrupt flag for channel 2.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>ICAP2_F</name> | |
| <description>Capture interrupt flag for channel 2.</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[14:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABORT_F</name> | |
| <description>Fast abort interrupt flag.</description> | |
| <bitRange>[15:15]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>THIS_INTERRUPT_SOURC</name> | |
| <description>This interrupt source is not contributing to the MCPWM interrupt request.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>IF_THE_CORRESPONDING</name> | |
| <description>If the corresponding bit in INTEN is 1, the MCPWM module is asserting its interrupt request to the Interrupt Controller.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INTF_SET</name> | |
| <description>Interrupt flags set address</description> | |
| <addressOffset>0x06C</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>ILIM0_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT0_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP0_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM1_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT1_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP1_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM2_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT2_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP2_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[14:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABORT_F_SET</name> | |
| <description>Writing a one sets the corresponding bit in the INTF register, thus possibly simulating hardware interrupt.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INTF_CLR</name> | |
| <description>Interrupt flags clear address</description> | |
| <addressOffset>0x070</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>ILIM0_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the INTF register, thus clearing the corresponding interrupt request.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT0_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP0_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM1_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT1_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP1_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>ILIM2_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>IMAT2_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>ICAP2_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[14:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>ABORT_F_CLR</name> | |
| <description>Writing a one clears the corresponding bit in INTEN, thus disabling the interrupt.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CNTCON</name> | |
| <description>Count Control read address</description> | |
| <addressOffset>0x05C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>TC0MCI0_RE</name> | |
| <description>Counter 0 rising edge mode, channel 0.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_RISING_EDGE_ON_MCI</name> | |
| <description>A rising edge on MCI0 does not affect counter 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>If MODE0 is 1, counter 0 advances on a rising edge on MCI0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC0MCI0_FE</name> | |
| <description>Counter 0 falling edge mode, channel 0.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_FALLING_EDGE_ON_MC</name> | |
| <description>A falling edge on MCI0 does not affect counter 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING</name> | |
| <description>If MODE0 is 1, counter 0 advances on a falling edge on MCI0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC0MCI1_RE</name> | |
| <description>Counter 0 rising edge mode, channel 1.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_RISING_EDGE_ON_MCI</name> | |
| <description>A rising edge on MCI1 does not affect counter 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>If MODE0 is 1, counter 0 advances on a rising edge on MCI1.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC0MCI1_FE</name> | |
| <description>Counter 0 falling edge mode, channel 1.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_FALLING_EDGE_ON_MC</name> | |
| <description>A falling edge on MCI1 does not affect counter 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING</name> | |
| <description>If MODE0 is 1, counter 0 advances on a falling edge on MCI1.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC0MCI2_RE</name> | |
| <description>Counter 0 rising edge mode, channel 2.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_RISING_EDGE_ON_MCI</name> | |
| <description>A rising edge on MCI0 does not affect counter 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>If MODE0 is 1, counter 0 advances on a rising edge on MCI2.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC0MCI2_FE</name> | |
| <description>Counter 0 falling edge mode, channel 2.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_FALLING_EDGE_ON_MC</name> | |
| <description>A falling edge on MCI0 does not affect counter 0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLLING</name> | |
| <description>If MODE0 is 1, counter 0 advances on a falling edge on MCI2.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC1MCI0_RE</name> | |
| <description>Counter 1 rising edge mode, channel 0.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_RISING_EDGE_ON_MCI</name> | |
| <description>A rising edge on MCI0 does not affect counter 1.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>If MODE1 is 1, counter 1 advances on a rising edge on MCI0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC1MCI0_FE</name> | |
| <description>Counter 1 falling edge mode, channel 0.</description> | |
| <bitRange>[7:7]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_FALLING_EDGE_ON_MC</name> | |
| <description>A falling edge on MCI0 does not affect counter 1.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING</name> | |
| <description>If MODE1 is 1, counter 1 advances on a falling edge on MCI0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC1MCI1_RE</name> | |
| <description>Counter 1 rising edge mode, channel 1.</description> | |
| <bitRange>[8:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_RISING_EDGE_ON_MCI</name> | |
| <description>A rising edge on MCI1 does not affect counter 1.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>If MODE1 is 1, counter 1 advances on a rising edge on MCI1.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC1MCI1_FE</name> | |
| <description>Counter 1 falling edge mode, channel 1.</description> | |
| <bitRange>[9:9]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_FALLING_EDGE_ON_MC</name> | |
| <description>A falling edge on MCI0 does not affect counter 1.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING</name> | |
| <description>If MODE1 is 1, counter 1 advances on a falling edge on MCI1.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC1MCI2_RE</name> | |
| <description>Counter 1 rising edge mode, channel 2.</description> | |
| <bitRange>[10:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_RISING_EDGE_ON_MCI</name> | |
| <description>A rising edge on MCI2 does not affect counter 1.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>If MODE1 is 1, counter 1 advances on a rising edge on MCI2.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC1MCI2_FE</name> | |
| <description>Counter 1 falling edge mode, channel 2.</description> | |
| <bitRange>[11:11]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_FALLING_EDGE_ON_MC</name> | |
| <description>A falling edge on MCI2 does not affect counter 1.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING</name> | |
| <description>If MODE1 is 1, counter 1 advances on a falling edge on MCI2.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC2MCI0_RE</name> | |
| <description>Counter 2 rising edge mode, channel 0.</description> | |
| <bitRange>[12:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_RISING_EDGE_ON_MCI</name> | |
| <description>A rising edge on MCI0 does not affect counter 2.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>If MODE2 is 1, counter 2 advances on a rising edge on MCI0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC2MCI0_FE</name> | |
| <description>Counter 2 falling edge mode, channel 0.</description> | |
| <bitRange>[13:13]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_FALLING_EDGE_ON_MC</name> | |
| <description>A falling edge on MCI0 does not affect counter 2.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING</name> | |
| <description>If MODE2 is 1, counter 2 advances on a falling edge on MCI0.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC2MCI1_RE</name> | |
| <description>Counter 2 rising edge mode, channel 1.</description> | |
| <bitRange>[14:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_RISING_EDGE_ON_MCI</name> | |
| <description>A rising edge on MCI1 does not affect counter 2.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING</name> | |
| <description>If MODE2 is 1, counter 2 advances on a rising edge on MCI1.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC2MCI1_FE</name> | |
| <description>Counter 2 falling edge mode, channel 1.</description> | |
| <bitRange>[15:15]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_FALLING_EDGE_ON_MC</name> | |
| <description>A falling edge on MCI1 does not affect counter 2.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING</name> | |
| <description>If MODE2 is 1, counter 2 advances on a falling edge on MCI1.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC2MCI2_RE</name> | |
| <description>Counter 2 rising edge mode, channel 2.</description> | |
| <bitRange>[16:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_RISING_EDGE_ON_MCI</name> | |
| <description>A rising edge on MCI2 does not affect counter 2.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISIING</name> | |
| <description>If MODE2 is 1, counter 2 advances on a rising edge on MCI2.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>TC2MCI2_FE</name> | |
| <description>Counter 2 falling edge mode, channel 2.</description> | |
| <bitRange>[17:17]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>A_FALLING_EDGE_ON_MC</name> | |
| <description>A falling edge on MCI2 does not affect counter 2.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>FALLING</name> | |
| <description>If MODE2 is 1, counter 2 advances on a falling edge on MCI2.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[28:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>CNTR0</name> | |
| <description>Channel 0 counter/timer mode.</description> | |
| <bitRange>[29:29]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CHANNEL_0_IS_IN_TIME</name> | |
| <description>Channel 0 is in timer mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CHANNEL_0_IS_IN_COUN</name> | |
| <description>Channel 0 is in counter mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CNTR1</name> | |
| <description>Channel 1 counter/timer mode.</description> | |
| <bitRange>[30:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CHANNEL_1_IS_IN_TIME</name> | |
| <description>Channel 1 is in timer mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CHANNEL_1_IS_IN_COUN</name> | |
| <description>Channel 1 is in counter mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CNTR2</name> | |
| <description>Channel 2 counter/timer mode.</description> | |
| <bitRange>[31:31]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CHANNEL_2_IS_IN_TIME</name> | |
| <description>Channel 2 is in timer mode.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CHANNEL_2_IS_IN_COUN</name> | |
| <description>Channel 2 is in counter mode.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CNTCON_SET</name> | |
| <description>Count Control set address</description> | |
| <addressOffset>0x060</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>TC0MCI0_RE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI0_FE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI1_RE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI1_FE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI2_RE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI2_FE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI0_RE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI0_FE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI1_RE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI1_FE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI2_RE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI2_FE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI0_RE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI0_FE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI1_RE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI1_FE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI2_RE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI2_FE_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[28:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>CNTR0_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>CNTR1_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>CNTR2_SET</name> | |
| <description>Writing a one sets the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CNTCON_CLR</name> | |
| <description>Count Control clear address</description> | |
| <addressOffset>0x064</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>TC0MCI0_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI0_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI1_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI1_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI2_RE</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC0MCI2_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI0_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI0_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI1_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI1_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI2_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC1MCI2_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI0_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI0_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI1_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI1_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI2_RE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>TC2MCI2_FE_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[28:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>CNTR0_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>CNTR1_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>CNTR2_CLR</name> | |
| <description>Writing a one clears the corresponding bit in the CNTCON register.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CAP_CLR</name> | |
| <description>Capture clear address</description> | |
| <addressOffset>0x074</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>CAP_CLR0</name> | |
| <description>Writing a 1 to this bit clears the CAP0 register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP_CLR1</name> | |
| <description>Writing a 1 to this bit clears the CAP1 register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAP_CLR2</name> | |
| <description>Writing a 1 to this bit clears the CAP2 register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved</description> | |
| <bitRange>[31:3]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>QEI</name> | |
| <description>Quadrature Encoder Interface (QEI) </description> | |
| <groupName>QEI</groupName> | |
| <baseAddress>0x400BC000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>QEI</name> | |
| <value>31</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>CON</name> | |
| <description>Control register</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESP</name> | |
| <description>Reset position counter. When set = 1, resets the position counter to all zeros. Autoclears when the position counter is cleared.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESPI</name> | |
| <description>Reset position counter on index. When set = 1, resets the position counter to all zeros once only the first time an index pulse occurs. Autoclears when the position counter is cleared.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESV</name> | |
| <description>Reset velocity. When set = 1, resets the velocity counter to all zeros, reloads the velocity timer, and presets the velocity compare register. Autoclears when the velocity counter is cleared.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESI</name> | |
| <description>Reset index counter. When set = 1, resets the index counter to all zeros. Autoclears when the index counter is cleared.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CONF</name> | |
| <description>Configuration register</description> | |
| <addressOffset>0x008</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DIRINV</name> | |
| <description>Direction invert. When 1, complements the DIR bit.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>SIGMODE</name> | |
| <description>Signal Mode. When 0, PhA and PhB function as quadrature encoder inputs. When 1, PhA functions as the direction signal and PhB functions as the clock signal.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAPMODE</name> | |
| <description>Capture Mode. When 0, only PhA edges are counted (2X). When 1, BOTH PhA and PhB edges are counted (4X), increasing resolution but decreasing range.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>INVINX</name> | |
| <description>Invert Index. When 1, inverts the sense of the index input.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>CRESPI</name> | |
| <description>Continuously reset the position counter on index. When 1, resets the position counter to all zeros whenever an index pulse occurs after the next position increase (recalibration).</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[15:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>INXGATE</name> | |
| <description>Index gating configuration: When INXGATE[16] = 1, pass the index when PHA = 1 and PHB = 0, otherwise block index. When INXGATE[17] = 1, pass the index when PHA = 1 and PHB = 1, otherwise block index. When INXGATE[18] = 1, pass the index when PHA = 0 and PHB = 1, otherwise block index. When INXGATE[19] = 1, pass the index when PHA = 0 and PHB = 0, otherwise block index.</description> | |
| <bitRange>[19:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:20]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>STAT</name> | |
| <description>Status register</description> | |
| <addressOffset>0x004</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DIR</name> | |
| <description>Direction bit. In combination with DIRINV bit indicates forward or reverse direction. See Table 597.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:1]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>POS</name> | |
| <description>Position register</description> | |
| <addressOffset>0x00C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>POS</name> | |
| <description>Current position value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>MAXPOS</name> | |
| <description>Maximum position register</description> | |
| <addressOffset>0x010</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MAXPOS</name> | |
| <description>Current maximum position value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CMPOS0</name> | |
| <description>Position compare register 0</description> | |
| <addressOffset>0x014</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0xFFFFFFFF</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PCMP0</name> | |
| <description>Position compare value 0.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CMPOS1</name> | |
| <description>Position compare register 1</description> | |
| <addressOffset>0x018</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0xFFFFFFFF</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PCMP1</name> | |
| <description>Position compare value 1.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CMPOS2</name> | |
| <description>Position compare register 2</description> | |
| <addressOffset>0x01C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0xFFFFFFFF</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PCMP2</name> | |
| <description>Position compare value 2.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INXCNT</name> | |
| <description>Index count register 0</description> | |
| <addressOffset>0x020</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>ENCPOS</name> | |
| <description>Current index counter value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INXCMP0</name> | |
| <description>Index compare register 0</description> | |
| <addressOffset>0x024</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0xFFFFFFFF</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>ICMP0</name> | |
| <description>Index compare value 0.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>LOAD</name> | |
| <description>Velocity timer reload register</description> | |
| <addressOffset>0x028</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>VELLOAD</name> | |
| <description>Current velocity timer load value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>TIME</name> | |
| <description>Velocity timer register</description> | |
| <addressOffset>0x02C</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>VELVAL</name> | |
| <description>Current velocity timer value.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>VEL</name> | |
| <description>Velocity counter register</description> | |
| <addressOffset>0x030</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>VELPC</name> | |
| <description>Current velocity pulse count.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CAP</name> | |
| <description>Velocity capture register</description> | |
| <addressOffset>0x034</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0xFFFFFFFF</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>VELCAP</name> | |
| <description>Last velocity capture.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>VELCOMP</name> | |
| <description>Velocity compare register</description> | |
| <addressOffset>0x038</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>VELPC</name> | |
| <description>Compare velocity pulse count.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>FILTER</name> | |
| <description>Digital filter register</description> | |
| <addressOffset>0x03C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>FILTA</name> | |
| <description>Digital filter sampling delay.</description> | |
| <bitRange>[31:0]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>INTSTAT</name> | |
| <description>Interrupt status register</description> | |
| <addressOffset>0xFE0</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>INX_INT</name> | |
| <description>Indicates that an index pulse was detected.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TIM_INT</name> | |
| <description>Indicates that a velocity timer overflow occurred</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>VELC_INT</name> | |
| <description>Indicates that captured velocity is less than compare velocity.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DIR_INT</name> | |
| <description>Indicates that a change of direction was detected.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ERR_INT</name> | |
| <description>Indicates that an encoder phase error was detected.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>ENCLK_INT</name> | |
| <description>Indicates that and encoder clock pulse was detected.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0_INT</name> | |
| <description>Indicates that the position 0 compare value is equal to the current position.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1_INT</name> | |
| <description>Indicates that the position 1compare value is equal to the current position.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2_INT</name> | |
| <description>Indicates that the position 2 compare value is equal to the current position.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV0_INT</name> | |
| <description>Indicates that the index compare 0 value is equal to the current index count.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0REV_INT</name> | |
| <description>Combined position 0 and revolution count interrupt. Set when both the POS0_Int bit is set and the REV0_Int is set.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1REV_INT</name> | |
| <description>Combined position 1 and revolution count interrupt. Set when both the POS1_Int bit is set and the REV1_Int is set.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2REV_INT</name> | |
| <description>Combined position 2 and revolution count interrupt. Set when both the POS2_Int bit is set and the REV2_Int is set.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV1_INT</name> | |
| <description>Indicates that the index compare 1value is equal to the current index count.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV2_INT</name> | |
| <description>Indicates that the index compare 2 value is equal to the current index count.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAXPOS_INT</name> | |
| <description>Indicates that the current position count goes through the MAXPOS value to zero in the forward direction, or through zero to MAXPOS in the reverse direction.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SET</name> | |
| <description>Interrupt status set register</description> | |
| <addressOffset>0xFEC</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>INX_INT</name> | |
| <description>Writing a 1 sets the INX_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TIM_INT</name> | |
| <description>Writing a 1 sets the TIN_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>VELC_INT</name> | |
| <description>Writing a 1 sets the VELC_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DIR_INT</name> | |
| <description>Writing a 1 sets the DIR_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ERR_INT</name> | |
| <description>Writing a 1 sets the ERR_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>ENCLK_INT</name> | |
| <description>Writing a 1 sets the ENCLK_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0_INT</name> | |
| <description>Writing a 1 sets the POS0_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1_INT</name> | |
| <description>Writing a 1 sets the POS1_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2_INT</name> | |
| <description>Writing a 1 sets the POS2_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV0_INT</name> | |
| <description>Writing a 1 sets the REV0_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0REV_INT</name> | |
| <description>Writing a 1 sets the POS0REV_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1REV_INT</name> | |
| <description>Writing a 1 sets the POS1REV_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2REV_INT</name> | |
| <description>Writing a 1 sets the POS2REV_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV1_INT</name> | |
| <description>Writing a 1 sets the REV1_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV2_INT</name> | |
| <description>Writing a 1 sets the REV2_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAXPOS_INT</name> | |
| <description>Writing a 1 sets the MAXPOS_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CLR</name> | |
| <description>Interrupt status clear register</description> | |
| <addressOffset>0xFE8</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>INX_INT</name> | |
| <description>Writing a 1 clears the INX_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TIM_INT</name> | |
| <description>Writing a 1 clears the TIN_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>VELC_INT</name> | |
| <description>Writing a 1 clears the VELC_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DIR_INT</name> | |
| <description>Writing a 1 clears the DIR_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ERR_INT</name> | |
| <description>Writing a 1 clears the ERR_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>ENCLK_INT</name> | |
| <description>Writing a 1 clears the ENCLK_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0_INT</name> | |
| <description>Writing a 1 clears the POS0_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1_INT</name> | |
| <description>Writing a 1 clears the POS1_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2_INT</name> | |
| <description>Writing a 1 clears the POS2_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV0_INT</name> | |
| <description>Writing a 1 clears the REV0_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0REV_INT</name> | |
| <description>Writing a 1 clears the POS0REV_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1REV_INT</name> | |
| <description>Writing a 1 clears the POS1REV_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2REV_INT</name> | |
| <description>Writing a 1 clears the POS2REV_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV1_INT</name> | |
| <description>Writing a 1 clears the REV1_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV2_INT</name> | |
| <description>Writing a 1 clears the REV2_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAXPOS_INT</name> | |
| <description>Writing a 1 clears the MAXPOS_Int bit in QEIINTSTAT.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IE</name> | |
| <description>Interrupt enable register</description> | |
| <addressOffset>0xFE4</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>INX_INT</name> | |
| <description>When 1, the INX_Int interrupt is enabled.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TIM_INT</name> | |
| <description>When 1, the TIN_Int interrupt is enabled.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>VELC_INT</name> | |
| <description>When 1, the VELC_Int interrupt is enabled.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DIR_INT</name> | |
| <description>When 1, the DIR_Int interrupt is enabled.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ERR_INT</name> | |
| <description>When 1, the ERR_Int interrupt is enabled.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>ENCLK_INT</name> | |
| <description>When 1, the ENCLK_Int interrupt is enabled.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0_INT</name> | |
| <description>When 1, the POS0_Int interrupt is enabled.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1_INT</name> | |
| <description>When 1, the POS1_Int interrupt is enabled.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2_INT</name> | |
| <description>When 1, the POS2_Int interrupt is enabled.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV0_INT</name> | |
| <description>When 1, the REV0_Int interrupt is enabled.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0REV_INT</name> | |
| <description>When 1, the POS0REV_Int interrupt is enabled.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1REV_INT</name> | |
| <description>When 1, the POS1REV_Int interrupt is enabled.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2REV_INT</name> | |
| <description>When 1, the POS2REV_Int interrupt is enabled.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV1_INT</name> | |
| <description>When 1, the REV1_Int interrupt is enabled.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV2_INT</name> | |
| <description>When 1, the REV2_Int interrupt is enabled.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAXPOS_INT</name> | |
| <description>When 1, the MAXPOS_Int interrupt is enabled.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IES</name> | |
| <description>Interrupt enable set register</description> | |
| <addressOffset>0xFDC</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>INX_INT</name> | |
| <description>Writing a 1 enables the INX_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TIM_INT</name> | |
| <description>Writing a 1 enables the TIN_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>VELC_INT</name> | |
| <description>Writing a 1 enables the VELC_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DIR_INT</name> | |
| <description>Writing a 1 enables the DIR_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ERR_INT</name> | |
| <description>Writing a 1 enables the ERR_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>ENCLK_INT</name> | |
| <description>Writing a 1 enables the ENCLK_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0_INT</name> | |
| <description>Writing a 1 enables the POS0_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1_INT</name> | |
| <description>Writing a 1 enables the POS1_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2_INT</name> | |
| <description>Writing a 1 enables the POS2_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV0_INT</name> | |
| <description>Writing a 1 enables the REV0_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0REV_INT</name> | |
| <description>Writing a 1 enables the POS0REV_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1REV_INT</name> | |
| <description>Writing a 1 enables the POS1REV_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2REV_INT</name> | |
| <description>Writing a 1 enables the POS2REV_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV1_INT</name> | |
| <description>Writing a 1 enables the REV1_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV2_INT</name> | |
| <description>Writing a 1 enables the REV2_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAXPOS_INT</name> | |
| <description>Writing a 1 enables the MAXPOS_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>IEC</name> | |
| <description>Interrupt enable clear register</description> | |
| <addressOffset>0xFD8</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>INX_INT</name> | |
| <description>Writing a 1 disables the INX_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>TIM_INT</name> | |
| <description>Writing a 1 disables the TIN_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>VELC_INT</name> | |
| <description>Writing a 1 disables the VELC_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DIR_INT</name> | |
| <description>Writing a 1 disables the DIR_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>ERR_INT</name> | |
| <description>Writing a 1 disables the ERR_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>ENCLK_INT</name> | |
| <description>Writing a 1 disables the ENCLK_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0_INT</name> | |
| <description>Writing a 1 disables the POS0_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1_INT</name> | |
| <description>Writing a 1 disables the POS1_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2_INT</name> | |
| <description>Writing a 1 disables the POS2_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV0_INT</name> | |
| <description>Writing a 1 disables the REV0_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS0REV_INT</name> | |
| <description>Writing a 1 disables the POS0REV_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS1REV_INT</name> | |
| <description>Writing a 1 disables the POS1REV_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>POS2REV_INT</name> | |
| <description>Writing a 1 disables the POS2REV_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV1_INT</name> | |
| <description>Writing a 1 disables the REV1_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>REV2_INT</name> | |
| <description>Writing a 1 disables the REV2_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>MAXPOS_INT</name> | |
| <description>Writing a 1 disables the MAXPOS_Int interrupt in the QEIIE register.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>SYSCON</name> | |
| <description>System and clock control</description> | |
| <groupName>SYSCON</groupName> | |
| <baseAddress>0x400FC000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>EINT0</name> | |
| <value>18</value> | |
| </interrupt> | |
| <interrupt> | |
| <name>EINT1</name> | |
| <value>19</value> | |
| </interrupt> | |
| <interrupt> | |
| <name>EINT2</name> | |
| <value>20</value> | |
| </interrupt> | |
| <interrupt> | |
| <name>EINT3</name> | |
| <value>21</value> | |
| </interrupt> | |
| <interrupt> | |
| <name>BOD</name> | |
| <value>23</value> | |
| </interrupt> | |
| <interrupt> | |
| <name>PLL0</name> | |
| <value>16</value> | |
| </interrupt> | |
| <interrupt> | |
| <name>PLL1</name> | |
| <value>32</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>FLASHCFG</name> | |
| <description>Flash Accelerator Configuration Register. Controls flash access timing.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x303A</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not change these bits from the reset value.</description> | |
| <bitRange>[11:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>FLASHTIM</name> | |
| <description>Flash access time. The value of this field plus 1 gives the number of CPU clocks used for a flash access. Warning: improper setting of this value may result in incorrect operation of the device. Other values are reserved.</description> | |
| <bitRange>[15:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>1CLK</name> | |
| <description>Flash accesses use 1 CPU clock. Use for up to 20 MHz CPU clock.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>2CLK</name> | |
| <description>Flash accesses use 2 CPU clocks. Use for up to 40 MHz CPU clock.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>3CLK</name> | |
| <description>Flash accesses use 3 CPU clocks. Use for up to 60 MHz CPU clock.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>4CLK</name> | |
| <description>Flash accesses use 4 CPU clocks. Use for up to 80 MHz CPU clock.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>5CLK</name> | |
| <description>Flash accesses use 5 CPU clocks. Use for up to 100 MHz CPU clock. Use for up to 120 Mhz for LPC1759 and LPC1769 only.</description> | |
| <value>0x4</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>6CLK</name> | |
| <description>Flash accesses use 6 CPU clocks. This safe setting will work under any conditions.</description> | |
| <value>0x5</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:16]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PLL0CON</name> | |
| <description>PLL0 Control Register</description> | |
| <addressOffset>0x080</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PLLE0</name> | |
| <description>PLL0 Enable. When one, and after a valid PLL0 feed, this bit will activate PLL0 and allow it to lock to the requested frequency. See PLL0STAT register.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PLLC0</name> | |
| <description>PLL0 Connect. Setting PLLC0 to one after PLL0 has been enabled and locked, then followed by a valid PLL0 feed sequence causes PLL0 to become the clock source for the CPU, AHB peripherals, and used to derive the clocks for APB peripherals. The PLL0 output may potentially be used to clock the USB subsystem if the frequency is 48 MHz. See PLL0STAT register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:2]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PLL0CFG</name> | |
| <description>PLL0 Configuration Register</description> | |
| <addressOffset>0x084</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MSEL0</name> | |
| <description>PLL0 Multiplier value. Supplies the value M in PLL0 frequency calculations. The value stored here is M - 1. Note: Not all values of M are needed, and therefore some are not supported by hardware.</description> | |
| <bitRange>[14:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>NSEL0</name> | |
| <description>PLL0 Pre-Divider value. Supplies the value N in PLL0 frequency calculations. The value stored here is N - 1. Supported values for N are 1 through 32.</description> | |
| <bitRange>[23:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:24]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PLL0STAT</name> | |
| <description>PLL0 Status Register</description> | |
| <addressOffset>0x088</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MSEL0</name> | |
| <description>Read-back for the PLL0 Multiplier value. This is the value currently used by PLL0, and is one less than the actual multiplier.</description> | |
| <bitRange>[14:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>NSEL0</name> | |
| <description>Read-back for the PLL0 Pre-Divider value. This is the value currently used by PLL0, and is one less than the actual divider.</description> | |
| <bitRange>[23:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>PLLE0_STAT</name> | |
| <description>Read-back for the PLL0 Enable bit. This bit reflects the state of the PLEC0 bit in PLL0CON after a valid PLL0 feed. When one, PLL0 is currently enabled. When zero, PLL0 is turned off. This bit is automatically cleared when Power-down mode is entered.</description> | |
| <bitRange>[24:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>PLLC0_STAT</name> | |
| <description>Read-back for the PLL0 Connect bit. This bit reflects the state of the PLLC0 bit in PLL0CON after a valid PLL0 feed. When PLLC0 and PLLE0 are both one, PLL0 is connected as the clock source for the CPU. When either PLLC0 or PLLE0 is zero, PLL0 is bypassed. This bit is automatically cleared when Power-down mode is entered.</description> | |
| <bitRange>[25:25]</bitRange> | |
| </field> | |
| <field> | |
| <name>PLOCK0</name> | |
| <description>Reflects the PLL0 Lock status. When zero, PLL0 is not locked. When one, PLL0 is locked onto the requested frequency. See text for details.</description> | |
| <bitRange>[26:26]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:27]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PLL0FEED</name> | |
| <description>PLL0 Feed Register</description> | |
| <addressOffset>0x08C</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>PLL0FEED</name> | |
| <description>The PLL0 feed sequence must be written to this register in order for PLL0 configuration and control register changes to take effect.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PLL1CON</name> | |
| <description>PLL1 Control Register</description> | |
| <addressOffset>0x0A0</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PLLE1</name> | |
| <description>PLL1 Enable. When one, and after a valid PLL1 feed, this bit will activate PLL1 and allow it to lock to the requested frequency.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PLLC1</name> | |
| <description>PLL1 Connect. Setting PLLC to one after PLL1 has been enabled and locked, then followed by a valid PLL1 feed sequence causes PLL1 to become the clock source for the USB subsystem via the USB clock divider. See PLL1STAT register.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:2]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PLL1CFG</name> | |
| <description>PLL1 Configuration Register</description> | |
| <addressOffset>0x0A4</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MSEL1</name> | |
| <description>PLL1 Multiplier value. Supplies the value M in the PLL1 frequency calculations.</description> | |
| <bitRange>[4:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PSEL1</name> | |
| <description>PLL1 Divider value. Supplies the value P in the PLL1 frequency calculations.</description> | |
| <bitRange>[6:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:7]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PLL1STAT</name> | |
| <description>PLL1 Status Register</description> | |
| <addressOffset>0x0A8</addressOffset> | |
| <access>read-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>MSEL1</name> | |
| <description>Read-back for the PLL1 Multiplier value. This is the value currently used by PLL1.</description> | |
| <bitRange>[4:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PSEL1</name> | |
| <description>Read-back for the PLL1 Divider value. This is the value currently used by PLL1.</description> | |
| <bitRange>[6:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>PLLE1_STAT</name> | |
| <description>Read-back for the PLL1 Enable bit. When one, PLL1 is currently activated. When zero, PLL1 is turned off. This bit is automatically cleared when Power-down mode is activated.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>PLLC1_STAT</name> | |
| <description>Read-back for the PLL1 Connect bit. When PLLC and PLLE are both one, PLL1 is connected as the clock source for the microcontroller. When either PLLC or PLLE is zero, PLL1 is bypassed and the oscillator clock is used directly by the microcontroller. This bit is automatically cleared when Power-down mode is activated.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>PLOCK1</name> | |
| <description>Reflects the PLL1 Lock status. When zero, PLL1 is not locked. When one, PLL1 is locked onto the requested frequency.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:11]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PLL1FEED</name> | |
| <description>PLL1 Feed Register</description> | |
| <addressOffset>0x0AC</addressOffset> | |
| <access>write-only</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>PLL1FEED</name> | |
| <description>The PLL1 feed sequence must be written to this register in order for PLL1 configuration and control register changes to take effect.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PCON</name> | |
| <description>Power Control Register</description> | |
| <addressOffset>0x0C0</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PM0</name> | |
| <description>Power mode control bit 0. This bit controls entry to the Power-down mode.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PM1</name> | |
| <description>Power mode control bit 1. This bit controls entry to the Deep Power-down mode.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>BODRPM</name> | |
| <description>Brown-Out Reduced Power Mode. When BODRPM is 1, the Brown-Out Detect circuitry will be turned off when chip Power-down mode or Deep Sleep mode is entered, resulting in a further reduction in power usage. However, the possibility of using Brown-Out Detect as a wake-up source from the reduced power mode will be lost. When 0, the Brown-Out Detect function remains active during Power-down and Deep Sleep modes. See the System Control Block chapter for details of Brown-Out detection.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>BOGD</name> | |
| <description>Brown-Out Global Disable. When BOGD is 1, the Brown-Out Detect circuitry is fully disabled at all times, and does not consume power. When 0, the Brown-Out Detect circuitry is enabled. See the System Control Block chapter for details of Brown-Out detection. Note: the Brown-Out Reset Disable (BORD, in this register) and the Brown-Out Interrupt (xx) must be disabled when software changes the value of this bit.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>BORD</name> | |
| <description>Brown-Out Reset Disable. When BORD is 1, the BOD will not reset the device when the VDD(REG)(3V3) voltage dips goes below the BOD reset trip level. The Brown-Out interrupt is not affected. When BORD is 0, the BOD reset is enabled.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[7:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>SMFLAG</name> | |
| <description>Sleep Mode entry flag. Set when the Sleep mode is successfully entered. Cleared by software writing a one to this bit.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>DSFLAG</name> | |
| <description>Deep Sleep entry flag. Set when the Deep Sleep mode is successfully entered. Cleared by software writing a one to this bit.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>PDFLAG</name> | |
| <description>Power-down entry flag. Set when the Power-down mode is successfully entered. Cleared by software writing a one to this bit.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>DPDFLAG</name> | |
| <description>Deep Power-down entry flag. Set when the Deep Power-down mode is successfully entered. Cleared by software writing a one to this bit.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:12]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PCONP</name> | |
| <description>Power Control for Peripherals Register</description> | |
| <addressOffset>0x0C4</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x03BE</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCTIM0</name> | |
| <description>Timer/Counter 0 power/clock control bit.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCTIM1</name> | |
| <description>Timer/Counter 1 power/clock control bit.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCUART0</name> | |
| <description>UART0 power/clock control bit.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCUART1</name> | |
| <description>UART1 power/clock control bit.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCPWM1</name> | |
| <description>PWM1 power/clock control bit.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCI2C0</name> | |
| <description>The I2C0 interface power/clock control bit.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCSPI</name> | |
| <description>The SPI interface power/clock control bit.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCRTC</name> | |
| <description>The RTC power/clock control bit.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCSSP1</name> | |
| <description>The SSP 1 interface power/clock control bit.</description> | |
| <bitRange>[10:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[11:11]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCADC</name> | |
| <description>A/D converter (ADC) power/clock control bit. Note: Clear the PDN bit in the AD0CR before clearing this bit, and set this bit before setting PDN.</description> | |
| <bitRange>[12:12]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCCAN1</name> | |
| <description>CAN Controller 1 power/clock control bit.</description> | |
| <bitRange>[13:13]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCCAN2</name> | |
| <description>CAN Controller 2 power/clock control bit.</description> | |
| <bitRange>[14:14]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCGPIO</name> | |
| <description>Power/clock control bit for IOCON, GPIO, and GPIO interrupts.</description> | |
| <bitRange>[15:15]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCRIT</name> | |
| <description>Repetitive Interrupt Timer power/clock control bit.</description> | |
| <bitRange>[16:16]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCMCPWM</name> | |
| <description>Motor Control PWM</description> | |
| <bitRange>[17:17]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCQEI</name> | |
| <description>Quadrature Encoder Interface power/clock control bit.</description> | |
| <bitRange>[18:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCI2C1</name> | |
| <description>The I2C1 interface power/clock control bit.</description> | |
| <bitRange>[19:19]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[20:20]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCSSP0</name> | |
| <description>The SSP0 interface power/clock control bit.</description> | |
| <bitRange>[21:21]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCTIM2</name> | |
| <description>Timer 2 power/clock control bit.</description> | |
| <bitRange>[22:22]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCTIM3</name> | |
| <description>Timer 3 power/clock control bit.</description> | |
| <bitRange>[23:23]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCUART2</name> | |
| <description>UART 2 power/clock control bit.</description> | |
| <bitRange>[24:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCUART3</name> | |
| <description>UART 3 power/clock control bit.</description> | |
| <bitRange>[25:25]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCI2C2</name> | |
| <description>I2C interface 2 power/clock control bit.</description> | |
| <bitRange>[26:26]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCI2S</name> | |
| <description>I2S interface power/clock control bit.</description> | |
| <bitRange>[27:27]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[28:28]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCGPDMA</name> | |
| <description>GPDMA function power/clock control bit.</description> | |
| <bitRange>[29:29]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCENET</name> | |
| <description>Ethernet block power/clock control bit.</description> | |
| <bitRange>[30:30]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCUSB</name> | |
| <description>USB interface power/clock control bit.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CCLKCFG</name> | |
| <description>CPU Clock Configuration Register</description> | |
| <addressOffset>0x104</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CCLKSEL</name> | |
| <description>Selects the divide value for creating the CPU clock (CCLK) from the PLL0 output. 0 = pllclk is divided by 1 to produce the CPU clock. This setting is not allowed when the PLL0 is connected, because the rate would always be greater than the maximum allowed CPU clock. 1 = pllclk is divided by 2 to produce the CPU clock. This setting is not allowed when the PLL0 is connected, because the rate would always be greater than the maximum allowed CPU clock. 2 = pllclk is divided by 3 to produce the CPU clock. 3 = pllclk is divided by 4 to produce the CPU clock. ... 255 = pllclk is divided by 256 to produce the CPU clock.</description> | |
| <bitRange>[7:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>USBCLKCFG</name> | |
| <description>USB Clock Configuration Register</description> | |
| <addressOffset>0x108</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>USBSEL</name> | |
| <description>Selects the divide value for creating the USB clock from the PLL0 output. Only the values shown below can produce even number multiples of 48 MHz from the PLL0 output. Warning: Improper setting of this value will result in incorrect operation of the USB interface. 5 = PLL0 output is divided by 6. PLL0 output must be 288 MHz. 7 = PLL0 output is divided by 8. PLL0 output must be 384 MHz. 9 = PLL0 output is divided by 10. PLL0 output must be 480 MHz.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CLKSRCSEL</name> | |
| <description>Clock Source Select Register</description> | |
| <addressOffset>0x10C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CLKSRC</name> | |
| <description>Selects the clock source for PLL0 as follows. Warning: Improper setting of this value, or an incorrect sequence of changing this value may result in incorrect operation of the device.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SELECTS_THE_INTERNAL</name> | |
| <description>Selects the Internal RC oscillator as the PLL0 clock source (default).</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECTS_THE_MAIN_OSC</name> | |
| <description>Selects the main oscillator as the PLL0 clock source. Select the main oscillator as PLL0 clock source if the PLL0 clock output is used for USB or for CAN with baudrates > 100 kBit/s.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECTS_THE_RTC_OSCI</name> | |
| <description>Selects the RTC oscillator as the PLL0 clock source.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RESERVED</name> | |
| <description>Reserved, do not use this setting.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:2]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CANSLEEPCLR</name> | |
| <description>Allows clearing the current CAN channel sleep state as well as reading that state.</description> | |
| <addressOffset>0x110</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAN1SLEEP</name> | |
| <description>Sleep status and control for CAN channel 1. Read: when 1, indicates that CAN channel 1 is in the sleep mode. Write: writing a 1 causes clocks to be restored to CAN channel 1.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAN2SLEEP</name> | |
| <description>Sleep status and control for CAN channel 2. Read: when 1, indicates that CAN channel 2 is in the sleep mode. Write: writing a 1 causes clocks to be restored to CAN channel 2.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:3]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CANWAKEFLAGS</name> | |
| <description>Allows reading the wake-up state of the CAN channels.</description> | |
| <addressOffset>0x114</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAN1WAKE</name> | |
| <description>Wake-up status for CAN channel 1. Read: when 1, indicates that a falling edge has occurred on the receive data line of CAN channel 1. Write: writing a 1 clears this bit.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>CAN2WAKE</name> | |
| <description>Wake-up status for CAN channel 2. Read: when 1, indicates that a falling edge has occurred on the receive data line of CAN channel 2. Write: writing a 1 clears this bit.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:3]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>EXTINT</name> | |
| <description>External Interrupt Flag Register</description> | |
| <addressOffset>0x140</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>EINT0</name> | |
| <description>In level-sensitive mode, this bit is set if the EINT0 function is selected for its pin, and the pin is in its active state. In edge-sensitive mode, this bit is set if the EINT0 function is selected for its pin, and the selected edge occurs on the pin. This bit is cleared by writing a one to it, except in level sensitive mode when the pin is in its active state.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>EINT1</name> | |
| <description>In level-sensitive mode, this bit is set if the EINT1 function is selected for its pin, and the pin is in its active state. In edge-sensitive mode, this bit is set if the EINT1 function is selected for its pin, and the selected edge occurs on the pin. This bit is cleared by writing a one to it, except in level sensitive mode when the pin is in its active state.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>EINT2</name> | |
| <description>In level-sensitive mode, this bit is set if the EINT2 function is selected for its pin, and the pin is in its active state. In edge-sensitive mode, this bit is set if the EINT2 function is selected for its pin, and the selected edge occurs on the pin. This bit is cleared by writing a one to it, except in level sensitive mode when the pin is in its active state.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>EINT3</name> | |
| <description>In level-sensitive mode, this bit is set if the EINT3 function is selected for its pin, and the pin is in its active state. In edge-sensitive mode, this bit is set if the EINT3 function is selected for its pin, and the selected edge occurs on the pin. This bit is cleared by writing a one to it, except in level sensitive mode when the pin is in its active state.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>EXTMODE</name> | |
| <description>External Interrupt Mode register</description> | |
| <addressOffset>0x148</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>EXTMODE0</name> | |
| <description>External interrupt 0 EINT0 mode.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LEVEL_SENSITIVE</name> | |
| <description>Level-sensitive. Level-sensitivity is selected for EINT0.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EDGE_SENSITIVE</name> | |
| <description>Edge-sensitive. EINT0 is edge sensitive.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EXTMODE1</name> | |
| <description>External interrupt 1 EINT1 mode.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LEVEL_SENSITIVE</name> | |
| <description>Level-sensitive. Level-sensitivity is selected for EINT1.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EDGE_SENSITIVE</name> | |
| <description>Edge-sensitive. EINT1 is edge sensitive.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EXTMODE2</name> | |
| <description>External interrupt 2 EINT2 mode.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LEVEL_SENSITIVE</name> | |
| <description>Level-sensitive. Level-sensitivity is selected for EINT2.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EDGE_SENSITIVE</name> | |
| <description>Edge-sensitive. EINT2 is edge sensitive.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EXTMODE3</name> | |
| <description>External interrupt 3 EINT3 mode.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LEVEL_SENSITIVE</name> | |
| <description>Level-sensitive. Level-sensitivity is selected for EINT3.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>EDGE_SENSITIVE</name> | |
| <description>Edge-sensitive. EINT3 is edge sensitive.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>EXTPOLAR</name> | |
| <description>External Interrupt Polarity Register</description> | |
| <addressOffset>0x14C</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>EXTPOLAR0</name> | |
| <description>External interrupt 0 EINT0 polarity.</description> | |
| <bitRange>[0:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>FALLING_EDGE</name> | |
| <description>Falling edge. EINT0 is low-active or falling-edge sensitive (depending on EXTMODE0).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING_EDGE</name> | |
| <description>Rising edge. EINT0 is high-active or rising-edge sensitive (depending on EXTMODE0).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EXTPOLAR1</name> | |
| <description>External interrupt 1 EINT1 polarity.</description> | |
| <bitRange>[1:1]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>FALLING_EDGE</name> | |
| <description>Falling edge. EINT1 is low-active or falling-edge sensitive (depending on EXTMODE1).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING_EDGE</name> | |
| <description>Rising edge. EINT1 is high-active or rising-edge sensitive (depending on EXTMODE1).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EXTPOLAR2</name> | |
| <description>External interrupt 2 EINT2 polarity.</description> | |
| <bitRange>[2:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>FALLING_EDGE</name> | |
| <description>Falling edge. EINT2 is low-active or falling-edge sensitive (depending on EXTMODE2).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING_EDGE</name> | |
| <description>Rising edge. EINT2 is high-active or rising-edge sensitive (depending on EXTMODE2).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>EXTPOLAR3</name> | |
| <description>External interrupt 3 EINT3 polarity.</description> | |
| <bitRange>[3:3]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>FALLING_EDGE</name> | |
| <description>Falling edge. EINT3 is low-active or falling-edge sensitive (depending on EXTMODE3).</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>RISING_EDGE</name> | |
| <description>Rising edge. EINT3 is high-active or rising-edge sensitive (depending on EXTMODE3).</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>RSID</name> | |
| <description>Reset Source Identification Register</description> | |
| <addressOffset>0x180</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0x00000000</resetMask> | |
| <fields> | |
| <field> | |
| <name>POR</name> | |
| <description>Assertion of the POR signal sets this bit, and clears all of the other bits in this register. But if another Reset signal (e.g., External Reset) remains asserted after the POR signal is negated, then its bit is set. This bit is not affected by any of the other sources of Reset.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>EXTR</name> | |
| <description>Assertion of the RESET signal sets this bit. This bit is cleared only by software or POR.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>WDTR</name> | |
| <description>This bit is set when the Watchdog Timer times out and the WDTRESET bit in the Watchdog Mode Register is 1. This bit is cleared only by software or POR.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>BODR</name> | |
| <description>This bit is set when the VDD(REG)(3V3) voltage reaches a level below the BOD reset trip level (typically 1.85 V under nominal room temperature conditions). If the VDD(REG)(3V3) voltage dips from the normal operating range to below the BOD reset trip level and recovers, the BODR bit will be set to 1. If the VDD(REG)(3V3) voltage dips from the normal operating range to below the BOD reset trip level and continues to decline to the level at which POR is asserted (nominally 1 V), the BODR bit is cleared. If the VDD(REG)(3V3) voltage rises continuously from below 1 V to a level above the BOD reset trip level, the BODR will be set to 1. This bit is cleared only by software or POR. Note: Only in the case where a reset occurs and the POR = 0, the BODR bit indicates if the VDD(REG)(3V3) voltage was below the BOD reset trip level or not.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:4]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>SCS</name> | |
| <description>System control and status</description> | |
| <addressOffset>0x1A0</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. User software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[3:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>OSCRANGE</name> | |
| <description>Main oscillator range select.</description> | |
| <bitRange>[4:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>LOW</name> | |
| <description>Low. The frequency range of the main oscillator is 1 MHz to 20 MHz.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>HIGH</name> | |
| <description>High. The frequency range of the main oscillator is 15 MHz to 25 MHz.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>OSCEN</name> | |
| <description>Main oscillator enable.</description> | |
| <bitRange>[5:5]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>DISABLED</name> | |
| <description>Disabled. The main oscillator is disabled.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>ENABLED</name> | |
| <description>Enabled.The main oscillator is enabled, and will start up if the correct external circuitry is connected to the XTAL1 and XTAL2 pins.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>OSCSTAT</name> | |
| <description>Main oscillator status.</description> | |
| <bitRange>[6:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>NOT_READY</name> | |
| <description>Not ready. The main oscillator is not ready to be used as a clock source.</description> | |
| <value>0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>READY</name> | |
| <description>Ready. The main oscillator is ready to be used as a clock source. The main oscillator must be enabled via the OSCEN bit.</description> | |
| <value>1</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. User software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:7]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PCLKSEL0</name> | |
| <description>Peripheral Clock Selection register 0.</description> | |
| <addressOffset>0x1A8</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PCLK_WDT</name> | |
| <description>Peripheral clock selection for WDT.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_TIMER0</name> | |
| <description>Peripheral clock selection for TIMER0.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_TIMER1</name> | |
| <description>Peripheral clock selection for TIMER1.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_UART0</name> | |
| <description>Peripheral clock selection for UART0.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_UART1</name> | |
| <description>Peripheral clock selection for UART1.</description> | |
| <bitRange>[9:8]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[11:10]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCLK_PWM1</name> | |
| <description>Peripheral clock selection for PWM1.</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_I2C0</name> | |
| <description>Peripheral clock selection for I2C0.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_SPI</name> | |
| <description>Peripheral clock selection for SPI.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[19:18]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCLK_SSP1</name> | |
| <description>Peripheral clock selection for SSP1.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_DAC</name> | |
| <description>Peripheral clock selection for DAC.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_ADC</name> | |
| <description>Peripheral clock selection for ADC.</description> | |
| <bitRange>[25:24]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_CAN1</name> | |
| <description>Peripheral clock selection for CAN1.PCLK_CAN1 and PCLK_CAN2 must have the same PCLK divide value when the CAN function is used.</description> | |
| <bitRange>[27:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_6</name> | |
| <description>CCLK div 6. PCLK_peripheral = CCLK/6.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_CAN2</name> | |
| <description>Peripheral clock selection for CAN2.PCLK_CAN1 and PCLK_CAN2 must have the same PCLK divide value when the CAN function is used.</description> | |
| <bitRange>[29:28]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_6</name> | |
| <description>CCLK div 6. PCLK_peripheral = CCLK/6,</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_ACF</name> | |
| <description>Peripheral clock selection for CAN acceptance filtering.PCLK_CAN1 and PCLK_CAN2 must have the same PCLK divide value when the CAN function is used.</description> | |
| <bitRange>[31:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_6</name> | |
| <description>CCLK div 6. PCLK_peripheral = CCLK/6</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>PCLKSEL1</name> | |
| <description>Peripheral Clock Selection register 1.</description> | |
| <addressOffset>0x1AC</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>PCLK_QEI</name> | |
| <description>Peripheral clock selection for the Quadrature Encoder Interface.</description> | |
| <bitRange>[1:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_GPIOINT</name> | |
| <description>Peripheral clock selection for GPIO interrupts.</description> | |
| <bitRange>[3:2]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_PCB</name> | |
| <description>Peripheral clock selection for the Pin Connect block.</description> | |
| <bitRange>[5:4]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_I2C1</name> | |
| <description>Peripheral clock selection for I2C1.</description> | |
| <bitRange>[7:6]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[9:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCLK_SSP0</name> | |
| <description>Peripheral clock selection for SSP0.</description> | |
| <bitRange>[11:10]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_TIMER2</name> | |
| <description>Peripheral clock selection for TIMER2.</description> | |
| <bitRange>[13:12]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_TIMER3</name> | |
| <description>Peripheral clock selection for TIMER3.</description> | |
| <bitRange>[15:14]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_UART2</name> | |
| <description>Peripheral clock selection for UART2.</description> | |
| <bitRange>[17:16]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_UART3</name> | |
| <description>Peripheral clock selection for UART3.</description> | |
| <bitRange>[19:18]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_I2C2</name> | |
| <description>Peripheral clock selection for I2C2.</description> | |
| <bitRange>[21:20]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_I2S</name> | |
| <description>Peripheral clock selection for I2S.</description> | |
| <bitRange>[23:22]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved.</description> | |
| <bitRange>[25:24]</bitRange> | |
| </field> | |
| <field> | |
| <name>PCLK_RIT</name> | |
| <description>Peripheral clock selection for Repetitive Interrupt Timer.</description> | |
| <bitRange>[27:26]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_SYSCON</name> | |
| <description>Peripheral clock selection for the System Control block.</description> | |
| <bitRange>[29:28]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>PCLK_MC</name> | |
| <description>Peripheral clock selection for the Motor Control PWM.</description> | |
| <bitRange>[31:30]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_4</name> | |
| <description>CCLK div 4. PCLK_peripheral = CCLK/4</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK</name> | |
| <description>CCLK. PCLK_peripheral = CCLK</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_2</name> | |
| <description>CCLK div 2. PCLK_peripheral = CCLK/2</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>CCLK_DIV_8</name> | |
| <description>CCLK div 8. PCLK_peripheral = CCLK/8</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>USBINTST</name> | |
| <description>USB Interrupt Status</description> | |
| <addressOffset>0x1C0</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x80000000</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>USB_INT_REQ_LP</name> | |
| <description>Low priority interrupt line status. This bit is read-only.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>USB_INT_REQ_HP</name> | |
| <description>High priority interrupt line status. This bit is read-only.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>USB_INT_REQ_DMA</name> | |
| <description>DMA interrupt line status. This bit is read-only.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>USB_HOST_INT</name> | |
| <description>USB host interrupt line status. This bit is read-only.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>USB_ATX_INT</name> | |
| <description>External ATX interrupt line status. This bit is read-only.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>USB_OTG_INT</name> | |
| <description>OTG interrupt line status. This bit is read-only.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>USB_I2C_INT</name> | |
| <description>I2C module interrupt line status. This bit is read-only.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>USB_NEED_CLK</name> | |
| <description>USB need clock indicator. This bit is read-only. This bit is set to 1 when USB activity or a change of state on the USB data pins is detected, and it indicates that a PLL supplied clock of 48 MHz is needed. Once USB_NEED_CLK becomes one, it resets to zero 5 ms after the last packet has been received/sent, or 2 ms after the Suspend Change (SUS_CH) interrupt has occurred. A change of this bit from 0 to 1 can wake up the microcontroller if activity on the USB bus is selected to wake up the part from the Power-down mode (see Section 4.7.9 Wake-up from Reduced Power Modes for details). Also see Section 4.5.8 PLLs and Power-down mode and Section 4.7.10 Power Control for Peripherals register (PCONP - 0x400F C0C4) for considerations about the PLL and invoking the Power-down mode. This bit is read-only.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[30:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>EN_USB_INTS</name> | |
| <description>Enable all USB interrupts. When this bit is cleared, the NVIC does not see the ORed output of the USB interrupt lines.</description> | |
| <bitRange>[31:31]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>DMACREQSEL</name> | |
| <description>Selects between alternative requests on DMA channels 0 through 7 and 10 through 15</description> | |
| <addressOffset>0x1C4</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>DMASEL08</name> | |
| <description>Selects the DMA request for GPDMA input 8: 0 - uart0 tx 1 - Timer 0 match 0 is selected.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>DMASEL09</name> | |
| <description>Selects the DMA request for GPDMA input 9: 0 - uart0 rx 1 - Timer 0 match 1 is selected.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>DMASEL10</name> | |
| <description>Selects the DMA request for GPDMA input 10: 0 - uart1 tx is selected. 1 - Timer 1 match 0 is selected.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>DMASEL11</name> | |
| <description>Selects the DMA request for GPDMA input 11: 0 - uart1 rx is selected. 1 - Timer 1 match 1 is selected.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>DMASEL12</name> | |
| <description>Selects the DMA request for GPDMA input 12: 0 - uart2 tx is selected. 1 - Timer 2 match 0 is selected.</description> | |
| <bitRange>[4:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>DMASEL13</name> | |
| <description>Selects the DMA request for GPDMA input 13: 0 - uart2 rx is selected. 1 - Timer 2 match 1 is selected.</description> | |
| <bitRange>[5:5]</bitRange> | |
| </field> | |
| <field> | |
| <name>DMASEL14</name> | |
| <description>Selects the DMA request for GPDMA input 14: 0 - uart3 tx is selected. 1 - I2S channel 0 is selected.</description> | |
| <bitRange>[6:6]</bitRange> | |
| </field> | |
| <field> | |
| <name>DMASEL15</name> | |
| <description>Selects the DMA request for GPDMA input 15: 0 - uart3 rx is selected. 1 - I2S channel 1 is selected.</description> | |
| <bitRange>[7:7]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved. Read value is undefined, only zero should be written.</description> | |
| <bitRange>[31:8]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| <register> | |
| <name>CLKOUTCFG</name> | |
| <description>Clock Output Configuration Register</description> | |
| <addressOffset>0x1C8</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>CLKOUTSEL</name> | |
| <description>Selects the clock source for the CLKOUT function. Other values are reserved. Do not use.</description> | |
| <bitRange>[3:0]</bitRange> | |
| <enumeratedValues> | |
| <name>ENUM</name> | |
| <enumeratedValue> | |
| <name>SELECTS_THE_CPU_CLOC</name> | |
| <description>Selects the CPU clock as the CLKOUT source.</description> | |
| <value>0x0</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECTS_THE_MAIN_OSC</name> | |
| <description>Selects the main oscillator as the CLKOUT source.</description> | |
| <value>0x1</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECTS_THE_INTERNAL</name> | |
| <description>Selects the Internal RC oscillator as the CLKOUT source.</description> | |
| <value>0x2</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECTS_THE_USB_CLOC</name> | |
| <description>Selects the USB clock as the CLKOUT source.</description> | |
| <value>0x3</value> | |
| </enumeratedValue> | |
| <enumeratedValue> | |
| <name>SELECTS_THE_RTC_OSCI</name> | |
| <description>Selects the RTC oscillator as the CLKOUT source.</description> | |
| <value>0x4</value> | |
| </enumeratedValue> | |
| </enumeratedValues> | |
| </field> | |
| <field> | |
| <name>CLKOUTDIV</name> | |
| <description>Integer value to divide the output clock by, minus one. 0 = Clock is divided by 1 1 = Clock is divided by 2. 2 = Clock is divided by 3. ... 15 = Clock is divided by 16.</description> | |
| <bitRange>[7:4]</bitRange> | |
| </field> | |
| <field> | |
| <name>CLKOUT_EN</name> | |
| <description>CLKOUT enable control, allows switching the CLKOUT source without glitches. Clear to stop CLKOUT on the next falling edge. Set to enable CLKOUT.</description> | |
| <bitRange>[8:8]</bitRange> | |
| </field> | |
| <field> | |
| <name>CLKOUT_ACT</name> | |
| <description>CLKOUT activity indication. Reads as 1 when CLKOUT is enabled. Read as 0 when CLKOUT has been disabled via the CLKOUT_EN bit and the clock has completed being stopped.</description> | |
| <bitRange>[9:9]</bitRange> | |
| </field> | |
| <field> | |
| <name>RESERVED</name> | |
| <description>Reserved, user software should not write ones to reserved bits. The value read from a reserved bit is not defined.</description> | |
| <bitRange>[31:10]</bitRange> | |
| </field> | |
| </fields> | |
| </register> | |
| </registers> | |
| </peripheral> | |
| <peripheral> | |
| <name>EMAC</name> | |
| <description>Ethernet</description> | |
| <groupName>ETHERNET</groupName> | |
| <baseAddress>0x50000000</baseAddress> | |
| <addressBlock> | |
| <offset>0x0</offset> | |
| <size>0xFFF</size> | |
| <usage>registers</usage> | |
| </addressBlock> | |
| <interrupt> | |
| <name>ENET</name> | |
| <value>28</value> | |
| </interrupt> | |
| <registers> | |
| <register> | |
| <name>MAC1</name> | |
| <description>MAC configuration register 1.</description> | |
| <addressOffset>0x000</addressOffset> | |
| <access>read-write</access> | |
| <resetValue>0x8000</resetValue> | |
| <resetMask>0xFFFFFFFF</resetMask> | |
| <fields> | |
| <field> | |
| <name>RXENABLE</name> | |
| <description>RECEIVE ENABLE. Set this to allow receive frames to be received. Internally the MAC synchronizes this control bit to the incoming receive stream.</description> | |
| <bitRange>[0:0]</bitRange> | |
| </field> | |
| <field> | |
| <name>PARF</name> | |
| <description>PASS ALL RECEIVE FRAMES. When enabled (set to 1), the MAC will pass all frames regardless of type (normal vs. Control). When disabled, the MAC does not pass valid Control frames.</description> | |
| <bitRange>[1:1]</bitRange> | |
| </field> | |
| <field> | |
| <name>RXFLOWCTRL</name> | |
| <description>RX FLOW CONTROL. When enabled (set to 1), the MAC acts upon received PAUSE Flow Control frames. When disabled, received PAUSE Flow Control frames are ignored.</description> | |
| <bitRange>[2:2]</bitRange> | |
| </field> | |
| <field> | |
| <name>TXFLOWCTRL</name> | |
| <description>TX FLOW CONTROL. When enabled (set to 1), PAUSE Flow Control frames are allowed to be transmitted. When disabled, Flow Control frames are blocked.</description> | |
| <bitRange>[3:3]</bitRange> | |
| </field> | |
| <field> | |
| <name>LOOPBACK</name> | |
| <description>Setting this bit will cause the MAC |
Sign up for free
to join this conversation on GitHub.
Already have an account?
Sign in to comment