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/*============================================================================*/
/* National Instruments / Data Acquisition */
/*----------------------------------------------------------------------------*/
/* Copyright (c) National Instruments 2003-2019. All Rights Reserved. */
/*----------------------------------------------------------------------------*/
/* */
/* Title: NIDAQmx.h */
/* Purpose: Include file for NI-DAQmx library support. */
/* */
/*============================================================================*/
#ifndef ___nidaqmx_h___
#define ___nidaqmx_h___
#ifdef __cplusplus
extern "C" {
#endif
#if defined(__linux__) || defined(__APPLE__)
#define __CFUNC
#define __CFUNC_C
#define __CFUNCPTRVAR
#define CVICDECL
#define CVICALLBACK CVICDECL
#else
#define __CFUNC __stdcall
#define __CFUNC_C __cdecl
#define __CFUNCPTRVAR __cdecl
#define CVICDECL __cdecl
#define CVICALLBACK CVICDECL
#endif
#if defined(_CVI_) && !defined(__TPC__)
#pragma EnableLibraryRuntimeChecking
#endif
// NI-DAQmx Typedefs
#ifndef _NI_int8_DEFINED_
#define _NI_int8_DEFINED_
typedef signed char int8;
#endif
#ifndef _NI_uInt8_DEFINED_
#define _NI_uInt8_DEFINED_
typedef unsigned char uInt8;
#endif
#ifndef _NI_int16_DEFINED_
#define _NI_int16_DEFINED_
typedef signed short int16;
#endif
#ifndef _NI_uInt16_DEFINED_
#define _NI_uInt16_DEFINED_
typedef unsigned short uInt16;
#endif
#ifndef _NI_int32_DEFINED_
#define _NI_int32_DEFINED_
#if ((defined(__GNUG__) || defined(__GNUC__)) && defined(__x86_64__))
typedef signed int int32;
#else
typedef signed long int32;
#endif
#endif
#ifndef _NI_uInt32_DEFINED_
#define _NI_uInt32_DEFINED_
#if ((defined(__GNUG__) || defined(__GNUC__)) && defined(__x86_64__))
typedef unsigned int uInt32;
#else
typedef unsigned long uInt32;
#endif
#endif
#ifndef _NI_float32_DEFINED_
#define _NI_float32_DEFINED_
typedef float float32;
#endif
#ifndef _NI_float64_DEFINED_
#define _NI_float64_DEFINED_
typedef double float64;
#endif
#ifndef _NI_int64_DEFINED_
#define _NI_int64_DEFINED_
#if defined(__linux__) || defined(__APPLE__)
typedef long long int int64;
#else
typedef long long int int64;
#endif
#endif
#ifndef _NI_uInt64_DEFINED_
#define _NI_uInt64_DEFINED_
#if defined(__linux__) || defined(__APPLE__)
typedef unsigned long long uInt64;
#else
typedef unsigned long long uInt64;
#endif
#endif
#pragma pack(push)
#pragma pack(4)
#ifndef CVITime_DECLARED
#define CVITime_DECLARED
// Please visit ni.com/info and enter the Info Code NI_BTF for more information
typedef struct CVITime { uInt64 lsb; int64 msb; } CVITime;
#endif
#ifndef CVIAbsoluteTime_DECLARED
#define CVIAbsoluteTime_DECLARED
// Please visit ni.com/info and enter the Info Code NI_BTF for more information
typedef union CVIAbsoluteTime { CVITime cviTime; uInt32 u32Data[4]; } CVIAbsoluteTime;
#endif
#pragma pack(pop)
typedef uInt32 bool32;
typedef void* TaskHandle;
typedef uInt32 CalHandle;
#ifndef TRUE
#define TRUE (1L)
#endif
#ifndef FALSE
#define FALSE (0L)
#endif
#ifndef NULL
#define NULL (0L)
#endif
/******************************************************************************
*** NI-DAQmx Attributes ******************************************************
******************************************************************************/
//********** Buffer Attributes **********
#define DAQmx_Buf_Input_BufSize 0x186C // Specifies the number of samples the input buffer can hold for each channel in the task. Zero indicates to allocate no buffer. Use a buffer size of 0 to perform a hardware-timed operation without using a buffer. Setting this property overrides the automatic input buffer allocation that NI-DAQmx performs.
#define DAQmx_Buf_Input_OnbrdBufSize 0x230A // Indicates in samples per channel the size of the onboard input buffer of the device.
#define DAQmx_Buf_Output_BufSize 0x186D // Specifies the number of samples the output buffer can hold for each channel in the task. Zero indicates to allocate no buffer. Use a buffer size of 0 to perform a hardware-timed operation without using a buffer. Setting this property overrides the automatic output buffer allocation that NI-DAQmx performs.
#define DAQmx_Buf_Output_OnbrdBufSize 0x230B // Specifies in samples per channel the size of the onboard output buffer of the device.
//********** Calibration Info Attributes **********
#define DAQmx_SelfCal_Supported 0x1860 // Indicates whether the device supports self-calibration.
#define DAQmx_SelfCal_LastTemp 0x1864 // Indicates in degrees Celsius the temperature of the device at the time of the last self-calibration. Compare this temperature to the current onboard temperature to determine if you should perform another calibration.
#define DAQmx_ExtCal_RecommendedInterval 0x1868 // Indicates in months the National Instruments recommended interval between each external calibration of the device.
#define DAQmx_ExtCal_LastTemp 0x1867 // Indicates in degrees Celsius the temperature of the device at the time of the last external calibration. Compare this temperature to the current onboard temperature to determine if you should perform another calibration.
#define DAQmx_Cal_UserDefinedInfo 0x1861 // Specifies a string that contains arbitrary, user-defined information. This number of characters in this string can be no more than Max Size.
#define DAQmx_Cal_UserDefinedInfo_MaxSize 0x191C // Indicates the maximum length in characters of Information.
#define DAQmx_Cal_DevTemp 0x223B // Indicates in degrees Celsius the current temperature of the device.
#define DAQmx_Cal_AccConnectionCount 0x2FEB // Specifies the number of times a particular connection that results in tangible wear and tear of onboard components has been made on the accessory. This connection count is useful for tracking accessory life and usage.
#define DAQmx_Cal_RecommendedAccConnectionCountLimit 0x2FEC // Indicates the recommended connection count limit for an accessory. If the accessory connection count exceeds this limit, the accessory could require maintenance.
//********** Channel Attributes **********
#define DAQmx_AI_Max 0x17DD // Specifies the maximum value you expect to measure. This value is in the units you specify with a units property. When you query this property, it returns the coerced maximum value that the device can measure with the current settings.
#define DAQmx_AI_Min 0x17DE // Specifies the minimum value you expect to measure. This value is in the units you specify with a units property. When you query this property, it returns the coerced minimum value that the device can measure with the current settings.
#define DAQmx_AI_CustomScaleName 0x17E0 // Specifies the name of a custom scale for the channel.
#define DAQmx_AI_MeasType 0x0695 // Indicates the measurement to take with the analog input channel and in some cases, such as for temperature measurements, the sensor to use.
#define DAQmx_AI_Voltage_Units 0x1094 // Specifies the units to use to return voltage measurements from the channel.
#define DAQmx_AI_Voltage_dBRef 0x29B0 // Specifies the decibel reference level in the units of the channel. When you read samples as a waveform, the decibel reference level is included in the waveform attributes.
#define DAQmx_AI_Voltage_ACRMS_Units 0x17E2 // Specifies the units to use to return voltage RMS measurements from the channel.
#define DAQmx_AI_Temp_Units 0x1033 // Specifies the units to use to return temperature measurements from the channel.
#define DAQmx_AI_Thrmcpl_Type 0x1050 // Specifies the type of thermocouple connected to the channel. Thermocouple types differ in composition and measurement range.
#define DAQmx_AI_Thrmcpl_ScaleType 0x29D0 // Specifies the method or equation form that the thermocouple scale uses.
#define DAQmx_AI_Thrmcpl_CJCSrc 0x1035 // Indicates the source of cold-junction compensation.
#define DAQmx_AI_Thrmcpl_CJCVal 0x1036 // Specifies the temperature of the cold junction if CJC Source is DAQmx_Val_ConstVal. Specify this value in the units of the measurement.
#define DAQmx_AI_Thrmcpl_CJCChan 0x1034 // Indicates the channel that acquires the temperature of the cold junction if CJC Source is DAQmx_Val_Chan. If the channel is a temperature channel, NI-DAQmx acquires the temperature in the correct units. Other channel types, such as a resistance channel with a custom sensor, must use a custom scale to scale values to degrees Celsius.
#define DAQmx_AI_RTD_Type 0x1032 // Specifies the type of RTD connected to the channel.
#define DAQmx_AI_RTD_R0 0x1030 // Specifies in ohms the sensor resistance at 0 deg C. The Callendar-Van Dusen equation requires this value. Refer to the sensor documentation to determine this value.
#define DAQmx_AI_RTD_A 0x1010 // Specifies the 'A' constant of the Callendar-Van Dusen equation. NI-DAQmx requires this value when you use a custom RTD.
#define DAQmx_AI_RTD_B 0x1011 // Specifies the 'B' constant of the Callendar-Van Dusen equation. NI-DAQmx requires this value when you use a custom RTD.
#define DAQmx_AI_RTD_C 0x1013 // Specifies the 'C' constant of the Callendar-Van Dusen equation. NI-DAQmx requires this value when you use a custom RTD.
#define DAQmx_AI_Thrmstr_A 0x18C9 // Specifies the 'A' constant of the Steinhart-Hart thermistor equation.
#define DAQmx_AI_Thrmstr_B 0x18CB // Specifies the 'B' constant of the Steinhart-Hart thermistor equation.
#define DAQmx_AI_Thrmstr_C 0x18CA // Specifies the 'C' constant of the Steinhart-Hart thermistor equation.
#define DAQmx_AI_Thrmstr_R1 0x1061 // Specifies in ohms the value of the reference resistor for the thermistor if you use voltage excitation. NI-DAQmx ignores this value for current excitation.
#define DAQmx_AI_ForceReadFromChan 0x18F8 // Specifies whether to read from the channel if it is a cold-junction compensation channel. By default, an NI-DAQmx Read function does not return data from cold-junction compensation channels. Setting this property to TRUE forces read operations to return the cold-junction compensation channel data with the other channels in the task.
#define DAQmx_AI_Current_Units 0x0701 // Specifies the units to use to return current measurements from the channel.
#define DAQmx_AI_Current_ACRMS_Units 0x17E3 // Specifies the units to use to return current RMS measurements from the channel.
#define DAQmx_AI_Strain_Units 0x0981 // Specifies the units to use to return strain measurements from the channel.
#define DAQmx_AI_StrainGage_ForceReadFromChan 0x2FFA // Specifies whether the data is returned by an NI-DAQmx Read function when set on a raw strain channel that is part of a rosette configuration.
#define DAQmx_AI_StrainGage_GageFactor 0x0994 // Specifies the sensitivity of the strain gage. Gage factor relates the change in electrical resistance to the change in strain. Refer to the sensor documentation for this value.
#define DAQmx_AI_StrainGage_PoissonRatio 0x0998 // Specifies the ratio of lateral strain to axial strain in the material you are measuring.
#define DAQmx_AI_StrainGage_Cfg 0x0982 // Specifies the bridge configuration of the strain gages.
#define DAQmx_AI_RosetteStrainGage_RosetteType 0x2FFE // Indicates the type of rosette gage.
#define DAQmx_AI_RosetteStrainGage_Orientation 0x2FFC // Specifies gage orientation in degrees with respect to the X axis.
#define DAQmx_AI_RosetteStrainGage_StrainChans 0x2FFB // Indicates the raw strain channels that comprise the strain rosette.
#define DAQmx_AI_RosetteStrainGage_RosetteMeasType 0x2FFD // Specifies the type of rosette measurement.
#define DAQmx_AI_Resistance_Units 0x0955 // Specifies the units to use to return resistance measurements.
#define DAQmx_AI_Freq_Units 0x0806 // Specifies the units to use to return frequency measurements from the channel.
#define DAQmx_AI_Freq_ThreshVoltage 0x0815 // Specifies the voltage level at which to recognize waveform repetitions. You should select a voltage level that occurs only once within the entire period of a waveform. You also can select a voltage that occurs only once while the voltage rises or falls.
#define DAQmx_AI_Freq_Hyst 0x0814 // Specifies in volts a window below Threshold Level. The input voltage must pass below Threshold Level minus this value before NI-DAQmx recognizes a waveform repetition at Threshold Level. Hysteresis can improve the measurement accuracy when the signal contains noise or jitter.
#define DAQmx_AI_LVDT_Units 0x0910 // Specifies the units to use to return linear position measurements from the channel.
#define DAQmx_AI_LVDT_Sensitivity 0x0939 // Specifies the sensitivity of the LVDT. This value is in the units you specify with Sensitivity Units. Refer to the sensor documentation to determine this value.
#define DAQmx_AI_LVDT_SensitivityUnits 0x219A // Specifies the units of Sensitivity.
#define DAQmx_AI_RVDT_Units 0x0877 // Specifies the units to use to return angular position measurements from the channel.
#define DAQmx_AI_RVDT_Sensitivity 0x0903 // Specifies the sensitivity of the RVDT. This value is in the units you specify with Sensitivity Units. Refer to the sensor documentation to determine this value.
#define DAQmx_AI_RVDT_SensitivityUnits 0x219B // Specifies the units of Sensitivity.
#define DAQmx_AI_EddyCurrentProxProbe_Units 0x2AC0 // Specifies the units to use to return proximity measurements from the channel.
#define DAQmx_AI_EddyCurrentProxProbe_Sensitivity 0x2ABE // Specifies the sensitivity of the eddy current proximity probe . This value is in the units you specify with Sensitivity Units. Refer to the sensor documentation to determine this value.
#define DAQmx_AI_EddyCurrentProxProbe_SensitivityUnits 0x2ABF // Specifies the units of Sensitivity.
#define DAQmx_AI_SoundPressure_MaxSoundPressureLvl 0x223A // Specifies the maximum instantaneous sound pressure level you expect to measure. This value is in decibels, referenced to 20 micropascals. NI-DAQmx uses the maximum sound pressure level to calculate values in pascals for Maximum Value and Minimum Value for the channel.
#define DAQmx_AI_SoundPressure_Units 0x1528 // Specifies the units to use to return sound pressure measurements from the channel.
#define DAQmx_AI_SoundPressure_dBRef 0x29B1 // Specifies the decibel reference level in the units of the channel. When you read samples as a waveform, the decibel reference level is included in the waveform attributes. NI-DAQmx also uses the decibel reference level when converting Maximum Sound Pressure Level to a voltage level.
#define DAQmx_AI_Microphone_Sensitivity 0x1536 // Specifies the sensitivity of the microphone. This value is in mV/Pa. Refer to the sensor documentation to determine this value.
#define DAQmx_AI_Accel_Units 0x0673 // Specifies the units to use to return acceleration measurements from the channel.
#define DAQmx_AI_Accel_dBRef 0x29B2 // Specifies the decibel reference level in the units of the channel. When you read samples as a waveform, the decibel reference level is included in the waveform attributes.
#define DAQmx_AI_Accel_4WireDCVoltage_Sensitivity 0x3115 // Specifies the sensitivity of the 4 wire DC voltage acceleration sensor connected to the channel. This value is the units you specify with AI.Accel.4WireDCVoltage.SensitivityUnits. Refer to the sensor documentation to determine this value.
#define DAQmx_AI_Accel_4WireDCVoltage_SensitivityUnits 0x3116 // Specifies the units of AI.Accel.4WireDCVoltage.Sensitivity.
#define DAQmx_AI_Accel_Sensitivity 0x0692 // Specifies the sensitivity of the accelerometer. This value is in the units you specify with Sensitivity Units. Refer to the sensor documentation to determine this value.
#define DAQmx_AI_Accel_SensitivityUnits 0x219C // Specifies the units of Sensitivity.
#define DAQmx_AI_Accel_Charge_Sensitivity 0x3113 // Specifies the sensitivity of the charge acceleration sensor connected to the channel. This value is the units you specify with AI.Accel.Charge.SensitivityUnits. Refer to the sensor documentation to determine this value.
#define DAQmx_AI_Accel_Charge_SensitivityUnits 0x3114 // Specifies the units of AI.Accel.Charge.Sensitivity.
#define DAQmx_AI_Velocity_Units 0x2FF4 // Specifies in which unit to return velocity measurements from the channel.
#define DAQmx_AI_Velocity_IEPESensor_dBRef 0x2FF5 // Specifies the decibel reference level in the units of the channel. When you read samples as a waveform, the decibel reference level is included in the waveform attributes.
#define DAQmx_AI_Velocity_IEPESensor_Sensitivity 0x2FF6 // Specifies the sensitivity of the IEPE velocity sensor connected to the channel. Specify this value in the unit indicated by Sensitivity Units.
#define DAQmx_AI_Velocity_IEPESensor_SensitivityUnits 0x2FF7 // Specifies the units for Sensitivity.
#define DAQmx_AI_Force_Units 0x2F75 // Specifies in which unit to return force or load measurements from the channel.
#define DAQmx_AI_Force_IEPESensor_Sensitivity 0x2F81 // Specifies the sensitivity of the IEPE force sensor connected to the channel. Specify this value in the unit indicated by Sensitivity Units.
#define DAQmx_AI_Force_IEPESensor_SensitivityUnits 0x2F82 // Specifies the units for Sensitivity.
#define DAQmx_AI_Pressure_Units 0x2F76 // Specifies in which unit to return pressure measurements from the channel.
#define DAQmx_AI_Torque_Units 0x2F77 // Specifies in which unit to return torque measurements from the channel.
#define DAQmx_AI_Bridge_Units 0x2F92 // Specifies in which unit to return voltage ratios from the channel.
#define DAQmx_AI_Bridge_ElectricalUnits 0x2F87 // Specifies from which electrical unit to scale data. Select the same unit that the sensor data sheet or calibration certificate uses for electrical values.
#define DAQmx_AI_Bridge_PhysicalUnits 0x2F88 // Specifies to which physical unit to scale electrical data. Select the same unit that the sensor data sheet or calibration certificate uses for physical values.
#define DAQmx_AI_Bridge_ScaleType 0x2F89 // Specifies the scaling type to use when scaling electrical values from the sensor to physical units.
#define DAQmx_AI_Bridge_TwoPointLin_First_ElectricalVal 0x2F8A // Specifies the first electrical value, corresponding to Physical Value. Specify this value in the unit indicated by Electrical Units.
#define DAQmx_AI_Bridge_TwoPointLin_First_PhysicalVal 0x2F8B // Specifies the first physical value, corresponding to Electrical Value. Specify this value in the unit indicated by Physical Units.
#define DAQmx_AI_Bridge_TwoPointLin_Second_ElectricalVal 0x2F8C // Specifies the second electrical value, corresponding to Physical Value. Specify this value in the unit indicated by Electrical Units.
#define DAQmx_AI_Bridge_TwoPointLin_Second_PhysicalVal 0x2F8D // Specifies the second physical value, corresponding to Electrical Value. Specify this value in the unit indicated by Physical Units.
#define DAQmx_AI_Bridge_Table_ElectricalVals 0x2F8E // Specifies the array of electrical values that map to the values in Physical Values. Specify this value in the unit indicated by Electrical Units.
#define DAQmx_AI_Bridge_Table_PhysicalVals 0x2F8F // Specifies the array of physical values that map to the values in Electrical Values. Specify this value in the unit indicated by Physical Units.
#define DAQmx_AI_Bridge_Poly_ForwardCoeff 0x2F90 // Specifies an array of coefficients for the polynomial that converts electrical values to physical values. Each element of the array corresponds to a term of the equation. For example, if index three of the array is 9, the fourth term of the equation is 9x^3.
#define DAQmx_AI_Bridge_Poly_ReverseCoeff 0x2F91 // Specifies an array of coefficients for the polynomial that converts physical values to electrical values. Each element of the array corresponds to a term of the equation. For example, if index three of the array is 9, the fourth term of the equation is 9x^3.
#define DAQmx_AI_Charge_Units 0x3112 // Specifies the units to use to return charge measurements from the channel.
#define DAQmx_AI_Is_TEDS 0x2983 // Indicates if the virtual channel was initialized using a TEDS bitstream from the corresponding physical channel.
#define DAQmx_AI_TEDS_Units 0x21E0 // Indicates the units defined by TEDS information associated with the channel.
#define DAQmx_AI_Coupling 0x0064 // Specifies the coupling for the channel.
#define DAQmx_AI_Impedance 0x0062 // Specifies the input impedance of the channel.
#define DAQmx_AI_TermCfg 0x1097 // Specifies the terminal configuration for the channel.
#define DAQmx_AI_InputSrc 0x2198 // Specifies the source of the channel. You can use the signal from the I/O connector or one of several calibration signals. Certain devices have a single calibration signal bus. For these devices, you must specify the same calibration signal for all channels you connect to a calibration signal.
#define DAQmx_AI_ResistanceCfg 0x1881 // Specifies the resistance configuration for the channel. NI-DAQmx uses this value for any resistance-based measurements, including temperature measurement using a thermistor or RTD.
#define DAQmx_AI_LeadWireResistance 0x17EE // Specifies in ohms the resistance of the wires that lead to the sensor.
#define DAQmx_AI_Bridge_Cfg 0x0087 // Specifies the type of Wheatstone bridge connected to the channel.
#define DAQmx_AI_Bridge_NomResistance 0x17EC // Specifies in ohms the resistance of the bridge while not under load.
#define DAQmx_AI_Bridge_InitialVoltage 0x17ED // Specifies in volts the output voltage of the bridge while not under load. NI-DAQmx subtracts this value from any measurements before applying scaling equations. If you set Initial Bridge Ratio, NI-DAQmx coerces this property to Initial Bridge Ratio times Actual Excitation Value. This property is set by DAQmx Perform Bridge Offset Nulling Calibration. If you set this property, NI-DAQmx coerces Initial Bridge Ratio...
#define DAQmx_AI_Bridge_InitialRatio 0x2F86 // Specifies in volts per volt the ratio of output voltage from the bridge to excitation voltage supplied to the bridge while not under load. NI-DAQmx subtracts this value from any measurements before applying scaling equations. If you set Initial Bridge Voltage, NI-DAQmx coerces this property to Initial Bridge Voltage divided by Actual Excitation Value. If you set this property, NI-DAQmx coerces Initial Bridge Volt...
#define DAQmx_AI_Bridge_ShuntCal_Enable 0x0094 // Specifies whether to enable a shunt calibration switch. Use Shunt Cal Select to select the switch(es) to enable.
#define DAQmx_AI_Bridge_ShuntCal_Select 0x21D5 // Specifies which shunt calibration switch(es) to enable. Use Shunt Cal Enable to enable the switch(es) you specify with this property.
#define DAQmx_AI_Bridge_ShuntCal_ShuntCalASrc 0x30CA // Specifies whether to use internal or external shunt when Shunt Cal A is selected.
#define DAQmx_AI_Bridge_ShuntCal_GainAdjust 0x193F // Specifies the result of a shunt calibration. This property is set by DAQmx Perform Shunt Calibration. NI-DAQmx multiplies data read from the channel by the value of this property. This value should be close to 1.0.
#define DAQmx_AI_Bridge_ShuntCal_ShuntCalAResistance 0x2F78 // Specifies in ohms the desired value of the internal shunt calibration A resistor.
#define DAQmx_AI_Bridge_ShuntCal_ShuntCalAActualResistance 0x2F79 // Specifies in ohms the actual value of the internal shunt calibration A resistor.
#define DAQmx_AI_Bridge_ShuntCal_ShuntCalBResistance 0x2F7A // Specifies in ohms the desired value of the internal shunt calibration B resistor.
#define DAQmx_AI_Bridge_ShuntCal_ShuntCalBActualResistance 0x2F7B // Specifies in ohms the actual value of the internal shunt calibration B resistor.
#define DAQmx_AI_Bridge_Balance_CoarsePot 0x17F1 // Specifies by how much to compensate for offset in the signal. This value can be between 0 and 127.
#define DAQmx_AI_Bridge_Balance_FinePot 0x18F4 // Specifies by how much to compensate for offset in the signal. This value can be between 0 and 4095.
#define DAQmx_AI_CurrentShunt_Loc 0x17F2 // Specifies the shunt resistor location for current measurements.
#define DAQmx_AI_CurrentShunt_Resistance 0x17F3 // Specifies in ohms the external shunt resistance for current measurements.
#define DAQmx_AI_Excit_Sense 0x30FD // Specifies whether to use local or remote sense to sense excitation.
#define DAQmx_AI_Excit_Src 0x17F4 // Specifies the source of excitation.
#define DAQmx_AI_Excit_Val 0x17F5 // Specifies the amount of excitation that the sensor requires. If Voltage or Current is DAQmx_Val_Voltage, this value is in volts. If Voltage or Current is DAQmx_Val_Current, this value is in amperes.
#define DAQmx_AI_Excit_UseForScaling 0x17FC // Specifies if NI-DAQmx divides the measurement by the excitation. You should typically set this property to TRUE for ratiometric transducers. If you set this property to TRUE, set Maximum Value and Minimum Value to reflect the scaling.
#define DAQmx_AI_Excit_UseMultiplexed 0x2180 // Specifies if the SCXI-1122 multiplexes the excitation to the upper half of the channels as it advances through the scan list.
#define DAQmx_AI_Excit_ActualVal 0x1883 // Specifies the actual amount of excitation supplied by an internal excitation source. If you read an internal excitation source more precisely with an external device, set this property to the value you read. NI-DAQmx ignores this value for external excitation. When performing shunt calibration, some devices set this property automatically.
#define DAQmx_AI_Excit_DCorAC 0x17FB // Specifies if the excitation supply is DC or AC.
#define DAQmx_AI_Excit_VoltageOrCurrent 0x17F6 // Specifies if the channel uses current or voltage excitation.
#define DAQmx_AI_Excit_IdleOutputBehavior 0x30B8 // Specifies whether this channel will disable excitation after the task is uncommitted. Setting this to Zero Volts or Amps disables excitation after task uncommit. Setting this attribute to Maintain Existing Value leaves the excitation on after task uncommit.
#define DAQmx_AI_ACExcit_Freq 0x0101 // Specifies the AC excitation frequency in Hertz.
#define DAQmx_AI_ACExcit_SyncEnable 0x0102 // Specifies whether to synchronize the AC excitation source of the channel to that of another channel. Synchronize the excitation sources of multiple channels to use multichannel sensors. Set this property to FALSE for the master channel and to TRUE for the slave channels.
#define DAQmx_AI_ACExcit_WireMode 0x18CD // Specifies the number of leads on the LVDT or RVDT. Some sensors require you to tie leads together to create a four- or five- wire sensor. Refer to the sensor documentation for more information.
#define DAQmx_AI_SensorPower_Voltage 0x3169 // Specifies the voltage level for the sensor's power supply.
#define DAQmx_AI_SensorPower_Cfg 0x316A // Specifies whether to turn on the sensor's power supply or to leave the configuration unchanged.
#define DAQmx_AI_SensorPower_Type 0x316B // Specifies the type of power supplied to the sensor.
#define DAQmx_AI_OpenThrmcplDetectEnable 0x2F72 // Specifies whether to apply the open thermocouple detection bias voltage to the channel. Changing the value of this property on a channel may require settling time before the data returned is valid. To compensate for this settling time, discard unsettled data or add a delay between committing and starting the task. Refer to your device specifications for the required settling time. When open thermocouple detection ...
#define DAQmx_AI_Thrmcpl_LeadOffsetVoltage 0x2FB8 // Specifies the lead offset nulling voltage to subtract from measurements on a device. This property is ignored if open thermocouple detection is disabled.
#define DAQmx_AI_Atten 0x1801 // Specifies the amount of attenuation to use.
#define DAQmx_AI_ProbeAtten 0x2A88 // Specifies the amount of attenuation provided by the probe connected to the channel. Specify this attenuation as a ratio.
#define DAQmx_AI_Lowpass_Enable 0x1802 // Specifies whether to enable the lowpass filter of the channel.
#define DAQmx_AI_Lowpass_CutoffFreq 0x1803 // Specifies the frequency in Hertz that corresponds to the -3dB cutoff of the filter.
#define DAQmx_AI_Lowpass_SwitchCap_ClkSrc 0x1884 // Specifies the source of the filter clock. If you need a higher resolution for the filter, you can supply an external clock to increase the resolution. Refer to the SCXI-1141/1142/1143 User Manual for more information.
#define DAQmx_AI_Lowpass_SwitchCap_ExtClkFreq 0x1885 // Specifies the frequency of the external clock when you set Clock Source to DAQmx_Val_External. NI-DAQmx uses this frequency to set the pre- and post- filters on the SCXI-1141, SCXI-1142, and SCXI-1143. On those devices, NI-DAQmx determines the filter cutoff by using the equation f/(100*n), where f is the external frequency, and n is the external clock divisor. Refer to the SCXI-1141/1142/1143 User Manual for more...
#define DAQmx_AI_Lowpass_SwitchCap_ExtClkDiv 0x1886 // Specifies the divisor for the external clock when you set Clock Source to DAQmx_Val_External. On the SCXI-1141, SCXI-1142, and SCXI-1143, NI-DAQmx determines the filter cutoff by using the equation f/(100*n), where f is the external frequency, and n is the external clock divisor. Refer to the SCXI-1141/1142/1143 User Manual for more information.
#define DAQmx_AI_Lowpass_SwitchCap_OutClkDiv 0x1887 // Specifies the divisor for the output clock. NI-DAQmx uses the cutoff frequency to determine the output clock frequency. Refer to the SCXI-1141/1142/1143 User Manual for more information.
#define DAQmx_AI_DigFltr_Enable 0x30BD // Specifies whether the digital filter is enabled or disabled.
#define DAQmx_AI_DigFltr_Type 0x30BE // Specifies the digital filter type.
#define DAQmx_AI_DigFltr_Response 0x30BF // Specifies the digital filter response.
#define DAQmx_AI_DigFltr_Order 0x30C0 // Specifies the order of the digital filter.
#define DAQmx_AI_DigFltr_Lowpass_CutoffFreq 0x30C1 // Specifies the lowpass cutoff frequency of the digital filter.
#define DAQmx_AI_DigFltr_Highpass_CutoffFreq 0x30C2 // Specifies the highpass cutoff frequency of the digital filter.
#define DAQmx_AI_DigFltr_Bandpass_CenterFreq 0x30C3 // Specifies the center frequency of the passband for the digital filter.
#define DAQmx_AI_DigFltr_Bandpass_Width 0x30C4 // Specifies the width of the passband centered around the center frequency for the digital filter.
#define DAQmx_AI_DigFltr_Notch_CenterFreq 0x30C5 // Specifies the center frequency of the stopband for the digital filter.
#define DAQmx_AI_DigFltr_Notch_Width 0x30C6 // Specifies the width of the stopband centered around the center frequency for the digital filter.
#define DAQmx_AI_DigFltr_Coeff 0x30C7 // Specifies the digital filter coefficients.
#define DAQmx_AI_Filter_Enable 0x3173 // Specifies the corresponding filter enable/disable state.
#define DAQmx_AI_Filter_Freq 0x3174 // Specifies the corresponding filter frequency (cutoff or center) of the filter response.
#define DAQmx_AI_Filter_Response 0x3175 // Specifies the corresponding filter response and defines the shape of the filter response.
#define DAQmx_AI_Filter_Order 0x3176 // Specifies the corresponding filter order and defines the slope of the filter response.
#define DAQmx_AI_FilterDelay 0x2FED // Indicates the amount of time between when the ADC samples data and when the sample is read by the host device. This value is in the units you specify with Filter Delay Units. You can adjust this amount of time using Filter Delay Adjustment.
#define DAQmx_AI_FilterDelayUnits 0x3071 // Specifies the units of Filter Delay and Filter Delay Adjustment.
#define DAQmx_AI_RemoveFilterDelay 0x2FBD // Specifies if filter delay removal is enabled on the device.
#define DAQmx_AI_FilterDelayAdjustment 0x3074 // Specifies the amount of filter delay that gets removed if Remove Filter Delay is enabled. This delay adjustment is in addition to the value indicated by Filter Delay. This delay adjustment is in the units you specify with Filter Delay Units.
#define DAQmx_AI_AveragingWinSize 0x2FEE // Specifies the number of samples to average while acquiring data. Increasing the number of samples to average reduces noise in your measurement.
#define DAQmx_AI_ResolutionUnits 0x1764 // Indicates the units of Resolution Value.
#define DAQmx_AI_Resolution 0x1765 // Indicates the resolution of the analog-to-digital converter of the channel. This value is in the units you specify with Resolution Units.
#define DAQmx_AI_RawSampSize 0x22DA // Indicates in bits the size of a raw sample from the device.
#define DAQmx_AI_RawSampJustification 0x0050 // Indicates the justification of a raw sample from the device.
#define DAQmx_AI_ADCTimingMode 0x29F9 // Specifies the ADC timing mode, controlling the tradeoff between speed and effective resolution. Some ADC timing modes provide increased powerline noise rejection. On devices that have an AI Convert clock, this setting affects both the maximum and default values for Rate. You must use the same ADC timing mode for all channels on a device, but you can use different ADC timing modes for different devices in the same ...
#define DAQmx_AI_ADCCustomTimingMode 0x2F6B // Specifies the timing mode of the ADC when Timing Mode is DAQmx_Val_Custom.
#define DAQmx_AI_Dither_Enable 0x0068 // Specifies whether to enable dithering. Dithering adds Gaussian noise to the input signal. You can use dithering to achieve higher resolution measurements by over sampling the input signal and averaging the results.
#define DAQmx_AI_ChanCal_HasValidCalInfo 0x2297 // Indicates if the channel has calibration information.
#define DAQmx_AI_ChanCal_EnableCal 0x2298 // Specifies whether to enable the channel calibration associated with the channel.
#define DAQmx_AI_ChanCal_ApplyCalIfExp 0x2299 // Specifies whether to apply the channel calibration to the channel after the expiration date has passed.
#define DAQmx_AI_ChanCal_ScaleType 0x229C // Specifies the method or equation form that the calibration scale uses.
#define DAQmx_AI_ChanCal_Table_PreScaledVals 0x229D // Specifies the reference values collected when calibrating the channel.
#define DAQmx_AI_ChanCal_Table_ScaledVals 0x229E // Specifies the acquired values collected when calibrating the channel.
#define DAQmx_AI_ChanCal_Poly_ForwardCoeff 0x229F // Specifies the forward polynomial values used for calibrating the channel.
#define DAQmx_AI_ChanCal_Poly_ReverseCoeff 0x22A0 // Specifies the reverse polynomial values used for calibrating the channel.
#define DAQmx_AI_ChanCal_OperatorName 0x22A3 // Specifies the name of the operator who performed the channel calibration.
#define DAQmx_AI_ChanCal_Desc 0x22A4 // Specifies the description entered for the calibration of the channel.
#define DAQmx_AI_ChanCal_Verif_RefVals 0x22A1 // Specifies the reference values collected when verifying the calibration. NI-DAQmx stores these values as a record of calibration accuracy and does not use them in the scaling process.
#define DAQmx_AI_ChanCal_Verif_AcqVals 0x22A2 // Specifies the acquired values collected when verifying the calibration. NI-DAQmx stores these values as a record of calibration accuracy and does not use them in the scaling process.
#define DAQmx_AI_Rng_High 0x1815 // Specifies the upper limit of the input range of the device. This value is in the native units of the device. On E Series devices, for example, the native units is volts.
#define DAQmx_AI_Rng_Low 0x1816 // Specifies the lower limit of the input range of the device. This value is in the native units of the device. On E Series devices, for example, the native units is volts.
#define DAQmx_AI_DCOffset 0x2A89 // Specifies the DC value to add to the input range of the device. Use High and Low to specify the input range. This offset is in the native units of the device .
#define DAQmx_AI_Gain 0x1818 // Specifies a gain factor to apply to the channel.
#define DAQmx_AI_SampAndHold_Enable 0x181A // Specifies whether to enable the sample and hold circuitry of the device. When you disable sample and hold circuitry, a small voltage offset might be introduced into the signal. You can eliminate this offset by using Auto Zero Mode to perform an auto zero on the channel.
#define DAQmx_AI_AutoZeroMode 0x1760 // Specifies how often to measure ground. NI-DAQmx subtracts the measured ground voltage from every sample.
#define DAQmx_AI_ChopEnable 0x3143 // Specifies whether the device will chop its inputs. Chopping removes offset voltages and other low frequency errors.
#define DAQmx_AI_DataXferMaxRate 0x3117 // Specifies the rate in B/s to transfer data from the device. If this value is not set, then the device will transfer data at a rate based on the bus detected. Modify this value to affect performance under different combinations of operating system, configuration, and device.
#define DAQmx_AI_DataXferMech 0x1821 // Specifies the data transfer mode for the device.
#define DAQmx_AI_DataXferReqCond 0x188B // Specifies under what condition to transfer data from the onboard memory of the device to the buffer.
#define DAQmx_AI_DataXferCustomThreshold 0x230C // Specifies the number of samples that must be in the FIFO to transfer data from the device if Data Transfer Request Condition is DAQmx_Val_OnbrdMemCustomThreshold.
#define DAQmx_AI_UsbXferReqSize 0x2A8E // Specifies the maximum size of a USB transfer request in bytes. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_AI_UsbXferReqCount 0x3000 // Specifies the maximum number of simultaneous USB transfers used to stream data. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_AI_MemMapEnable 0x188C // Specifies for NI-DAQmx to map hardware registers to the memory space of the application, if possible. Normally, NI-DAQmx maps hardware registers to memory accessible only to the kernel. Mapping the registers to the memory space of the application increases performance. However, if the application accesses the memory space mapped to the registers, it can adversely affect the operation of the device and possibly res...
#define DAQmx_AI_RawDataCompressionType 0x22D8 // Specifies the type of compression to apply to raw samples returned from the device.
#define DAQmx_AI_LossyLSBRemoval_CompressedSampSize 0x22D9 // Specifies the number of bits to return in a raw sample when Raw Data Compression Type is set to DAQmx_Val_LossyLSBRemoval.
#define DAQmx_AI_DevScalingCoeff 0x1930 // Indicates the coefficients of a polynomial equation that NI-DAQmx uses to scale values from the native format of the device to volts. Each element of the array corresponds to a term of the equation. For example, if index two of the array is 4, the third term of the equation is 4x^2. Scaling coefficients do not account for any custom scales or sensors contained by the channel.
#define DAQmx_AI_EnhancedAliasRejectionEnable 0x2294 // Specifies whether to enable enhanced alias rejection. Leave this property set to the default value for most applications.
#define DAQmx_AI_OpenChanDetectEnable 0x30FF // Specifies whether to enable open channel detection.
#define DAQmx_AI_InputLimitsFaultDetect_UpperLimit 0x318C // Specifies the level of the upper limit for input limits detection. An input sample outside the upper and lower bounds causes a fault. Note: Fault detection applies to both positive and negative inputs. For instance, if you specify a lower limit of 2 mA and an upper limit of 12 mA, NI-DAQmx detects a fault at 15 mA and -15 mA, but not at -6 mA because it is in the range of -12 mA to -2 mA.
#define DAQmx_AI_InputLimitsFaultDetect_LowerLimit 0x318D // Specifies the level of the lower limit for input limits detection. An input sample outside the upper and lower bounds causes a fault. Note: Fault detection applies to both positive and negative inputs. For instance, if you specify a lower limit of 2 mA and an upper limit of 12 mA, NI-DAQmx detects a fault at 15 mA and -15 mA, but not at -6 mA because it is in the range of -12 mA to -2 mA.
#define DAQmx_AI_InputLimitsFaultDetectEnable 0x318E // Specifies whether to enable input limits fault detection.
#define DAQmx_AI_PowerSupplyFaultDetectEnable 0x3191 // Specifies whether to enable power supply fault detection.
#define DAQmx_AI_OvercurrentDetectEnable 0x3194 // Specifies whether to enable overcurrent detection.
#define DAQmx_AO_Max 0x1186 // Specifies the maximum value you expect to generate. The value is in the units you specify with a units property. If you try to write a value larger than the maximum value, NI-DAQmx generates an error. NI-DAQmx might coerce this value to a smaller value if other task settings restrict the device from generating the desired maximum.
#define DAQmx_AO_Min 0x1187 // Specifies the minimum value you expect to generate. The value is in the units you specify with a units property. If you try to write a value smaller than the minimum value, NI-DAQmx generates an error. NI-DAQmx might coerce this value to a larger value if other task settings restrict the device from generating the desired minimum.
#define DAQmx_AO_CustomScaleName 0x1188 // Specifies the name of a custom scale for the channel.
#define DAQmx_AO_OutputType 0x1108 // Indicates whether the channel generates voltage, current, or a waveform.
#define DAQmx_AO_Voltage_Units 0x1184 // Specifies in what units to generate voltage on the channel. Write data to the channel in the units you select.
#define DAQmx_AO_Voltage_CurrentLimit 0x2A1D // Specifies the current limit, in amperes, for the voltage channel.
#define DAQmx_AO_Current_Units 0x1109 // Specifies in what units to generate current on the channel. Write data to the channel in the units you select.
#define DAQmx_AO_FuncGen_Type 0x2A18 // Specifies the kind of the waveform to generate.
#define DAQmx_AO_FuncGen_Freq 0x2A19 // Specifies the frequency of the waveform to generate in hertz.
#define DAQmx_AO_FuncGen_Amplitude 0x2A1A // Specifies the zero-to-peak amplitude of the waveform to generate in volts. Zero and negative values are valid.
#define DAQmx_AO_FuncGen_Offset 0x2A1B // Specifies the voltage offset of the waveform to generate.
#define DAQmx_AO_FuncGen_Square_DutyCycle 0x2A1C // Specifies the square wave duty cycle of the waveform to generate.
#define DAQmx_AO_FuncGen_ModulationType 0x2A22 // Specifies if the device generates a modulated version of the waveform using the original waveform as a carrier and input from an external terminal as the signal.
#define DAQmx_AO_FuncGen_FMDeviation 0x2A23 // Specifies the FM deviation in hertz per volt when Type is DAQmx_Val_FM.
#define DAQmx_AO_OutputImpedance 0x1490 // Specifies in ohms the impedance of the analog output stage of the device.
#define DAQmx_AO_LoadImpedance 0x0121 // Specifies in ohms the load impedance connected to the analog output channel.
#define DAQmx_AO_IdleOutputBehavior 0x2240 // Specifies the state of the channel when no generation is in progress.
#define DAQmx_AO_TermCfg 0x188E // Specifies the terminal configuration of the channel.
#define DAQmx_AO_ResolutionUnits 0x182B // Specifies the units of Resolution Value.
#define DAQmx_AO_Resolution 0x182C // Indicates the resolution of the digital-to-analog converter of the channel. This value is in the units you specify with Resolution Units.
#define DAQmx_AO_DAC_Rng_High 0x182E // Specifies the upper limit of the output range of the device. This value is in the native units of the device. On E Series devices, for example, the native units is volts.
#define DAQmx_AO_DAC_Rng_Low 0x182D // Specifies the lower limit of the output range of the device. This value is in the native units of the device. On E Series devices, for example, the native units is volts.
#define DAQmx_AO_DAC_Ref_ConnToGnd 0x0130 // Specifies whether to ground the internal DAC reference. Grounding the internal DAC reference has the effect of grounding all analog output channels and stopping waveform generation across all analog output channels regardless of whether the channels belong to the current task. You can ground the internal DAC reference only when Source is DAQmx_Val_Internal and Allow Connecting DAC Reference to Ground at Runtime is...
#define DAQmx_AO_DAC_Ref_AllowConnToGnd 0x1830 // Specifies whether to allow grounding the internal DAC reference at run time. You must set this property to TRUE and set Source to DAQmx_Val_Internal before you can set Connect DAC Reference to Ground to TRUE.
#define DAQmx_AO_DAC_Ref_Src 0x0132 // Specifies the source of the DAC reference voltage. The value of this voltage source determines the full-scale value of the DAC.
#define DAQmx_AO_DAC_Ref_ExtSrc 0x2252 // Specifies the source of the DAC reference voltage if Source is DAQmx_Val_External. The valid sources for this signal vary by device.
#define DAQmx_AO_DAC_Ref_Val 0x1832 // Specifies in volts the value of the DAC reference voltage. This voltage determines the full-scale range of the DAC. Smaller reference voltages result in smaller ranges, but increased resolution.
#define DAQmx_AO_DAC_Offset_Src 0x2253 // Specifies the source of the DAC offset voltage. The value of this voltage source determines the full-scale value of the DAC.
#define DAQmx_AO_DAC_Offset_ExtSrc 0x2254 // Specifies the source of the DAC offset voltage if Source is DAQmx_Val_External. The valid sources for this signal vary by device.
#define DAQmx_AO_DAC_Offset_Val 0x2255 // Specifies in volts the value of the DAC offset voltage. To achieve best accuracy, the DAC offset value should be hand calibrated.
#define DAQmx_AO_ReglitchEnable 0x0133 // Specifies whether to enable reglitching. The output of a DAC normally glitches whenever the DAC is updated with a new value. The amount of glitching differs from code to code and is generally largest at major code transitions. Reglitching generates uniform glitch energy at each code transition and provides for more uniform glitches. Uniform glitch energy makes it easier to filter out the noise introduced from g...
#define DAQmx_AO_FilterDelay 0x3075 // Specifies the amount of time between when the sample is written by the host device and when the sample is output by the DAC. This value is in the units you specify with Filter Delay Units.
#define DAQmx_AO_FilterDelayUnits 0x3076 // Specifies the units of Filter Delay and Filter Delay Adjustment.
#define DAQmx_AO_FilterDelayAdjustment 0x3072 // Specifies an additional amount of time to wait between when the sample is written by the host device and when the sample is output by the DAC. This delay adjustment is in addition to the value indicated by Filter Delay. This delay adjustment is in the units you specify with Filter Delay Units.
#define DAQmx_AO_Gain 0x0118 // Specifies in decibels the gain factor to apply to the channel.
#define DAQmx_AO_UseOnlyOnBrdMem 0x183A // Specifies whether to write samples directly to the onboard memory of the device, bypassing the memory buffer. Generally, you cannot update onboard memory directly after you start the task. Onboard memory includes data FIFOs.
#define DAQmx_AO_DataXferMech 0x0134 // Specifies the data transfer mode for the device.
#define DAQmx_AO_DataXferReqCond 0x183C // Specifies under what condition to transfer data from the buffer to the onboard memory of the device.
#define DAQmx_AO_UsbXferReqSize 0x2A8F // Specifies the maximum size of a USB transfer request in bytes. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_AO_UsbXferReqCount 0x3001 // Specifies the maximum number of simultaneous USB transfers used to stream data. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_AO_MemMapEnable 0x188F // Specifies for NI-DAQmx to map hardware registers to the memory space of the application, if possible. Normally, NI-DAQmx maps hardware registers to memory accessible only to the kernel. Mapping the registers to the memory space of the application increases performance. However, if the application accesses the memory space mapped to the registers, it can adversely affect the operation of the device and possibly res...
#define DAQmx_AO_DevScalingCoeff 0x1931 // Indicates the coefficients of a linear equation that NI-DAQmx uses to scale values from a voltage to the native format of the device. Each element of the array corresponds to a term of the equation. The first element of the array corresponds to the y-intercept, and the second element corresponds to the slope. Scaling coefficients do not account for any custom scales that may be applied to the channel.
#define DAQmx_AO_EnhancedImageRejectionEnable 0x2241 // Specifies whether to enable the DAC interpolation filter. Disable the interpolation filter to improve DAC signal-to-noise ratio at the expense of degraded image rejection.
#define DAQmx_DI_InvertLines 0x0793 // Specifies whether to invert the lines in the channel. If you set this property to TRUE, the lines are at high logic when off and at low logic when on.
#define DAQmx_DI_NumLines 0x2178 // Indicates the number of digital lines in the channel.
#define DAQmx_DI_DigFltr_Enable 0x21D6 // Specifies whether to enable the digital filter for the line(s) or port(s). You can enable the filter on a line-by-line basis. You do not have to enable the filter for all lines in a channel.
#define DAQmx_DI_DigFltr_MinPulseWidth 0x21D7 // Specifies in seconds the minimum pulse width the filter recognizes as a valid high or low state transition.
#define DAQmx_DI_DigFltr_EnableBusMode 0x2EFE // Specifies whether to enable bus mode for digital filtering. If you set this property to TRUE, NI-DAQmx treats all lines that use common filtering settings as a bus. If any line in the bus has jitter, all lines in the bus hold state until the entire bus stabilizes, or until 2 times the minimum pulse width elapses. If you set this property to FALSE, NI-DAQmx filters all lines individually. Jitter in one line does no...
#define DAQmx_DI_DigFltr_TimebaseSrc 0x2ED4 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_DI_DigFltr_TimebaseRate 0x2ED5 // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_DI_DigSync_Enable 0x2ED6 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_DI_Tristate 0x1890 // Specifies whether to tristate the lines in the channel. If you set this property to TRUE, NI-DAQmx tristates the lines in the channel. If you set this property to FALSE, NI-DAQmx does not modify the configuration of the lines even if the lines were previously tristated. Set this property to FALSE to read lines in other tasks or to read output-only lines.
#define DAQmx_DI_LogicFamily 0x296D // Specifies the logic family to use for acquisition. A logic family corresponds to voltage thresholds that are compatible with a group of voltage standards. Refer to the device documentation for information on the logic high and logic low voltages for these logic families.
#define DAQmx_DI_DataXferMech 0x2263 // Specifies the data transfer mode for the device.
#define DAQmx_DI_DataXferReqCond 0x2264 // Specifies under what condition to transfer data from the onboard memory of the device to the buffer.
#define DAQmx_DI_UsbXferReqSize 0x2A90 // Specifies the maximum size of a USB transfer request in bytes. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_DI_UsbXferReqCount 0x3002 // Specifies the maximum number of simultaneous USB transfers used to stream data. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_DI_MemMapEnable 0x296A // Specifies for NI-DAQmx to map hardware registers to the memory space of the application, if possible. Normally, NI-DAQmx maps hardware registers to memory accessible only to the kernel. Mapping the registers to the memory space of the application increases performance. However, if the application accesses the memory space mapped to the registers, it can adversely affect the operation of the device and possibly res...
#define DAQmx_DI_AcquireOn 0x2966 // Specifies on which edge of the sample clock to acquire samples.
#define DAQmx_DO_OutputDriveType 0x1137 // Specifies the drive type for digital output channels.
#define DAQmx_DO_InvertLines 0x1133 // Specifies whether to invert the lines in the channel. If you set this property to TRUE, the lines are at high logic when off and at low logic when on.
#define DAQmx_DO_NumLines 0x2179 // Indicates the number of digital lines in the channel.
#define DAQmx_DO_Tristate 0x18F3 // Specifies whether to stop driving the channel and set it to a high-impedance state. You must commit the task for this setting to take effect.
#define DAQmx_DO_LineStates_StartState 0x2972 // Specifies the state of the lines in a digital output task when the task starts.
#define DAQmx_DO_LineStates_PausedState 0x2967 // Specifies the state of the lines in a digital output task when the task pauses.
#define DAQmx_DO_LineStates_DoneState 0x2968 // Specifies the state of the lines in a digital output task when the task completes execution.
#define DAQmx_DO_LogicFamily 0x296E // Specifies the logic family to use for generation. A logic family corresponds to voltage thresholds that are compatible with a group of voltage standards. Refer to the device documentation for information on the logic high and logic low voltages for these logic families.
#define DAQmx_DO_Overcurrent_Limit 0x2A85 // Specifies the current threshold in Amperes for the channel. A value of 0 means the channel observes no limit. Devices can monitor only a finite number of current thresholds simultaneously. If you attempt to monitor additional thresholds, NI-DAQmx returns an error.
#define DAQmx_DO_Overcurrent_AutoReenable 0x2A86 // Specifies whether to automatically reenable channels after they no longer exceed the current limit specified by Current Limit.
#define DAQmx_DO_Overcurrent_ReenablePeriod 0x2A87 // Specifies the delay in seconds between the time a channel no longer exceeds the current limit and the reactivation of that channel, if Automatic Re-enable is TRUE.
#define DAQmx_DO_UseOnlyOnBrdMem 0x2265 // Specifies whether to write samples directly to the onboard memory of the device, bypassing the memory buffer. Generally, you cannot update onboard memory after you start the task. Onboard memory includes data FIFOs.
#define DAQmx_DO_DataXferMech 0x2266 // Specifies the data transfer mode for the device.
#define DAQmx_DO_DataXferReqCond 0x2267 // Specifies under what condition to transfer data from the buffer to the onboard memory of the device.
#define DAQmx_DO_UsbXferReqSize 0x2A91 // Specifies the maximum size of a USB transfer request in bytes. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_DO_UsbXferReqCount 0x3003 // Specifies the maximum number of simultaneous USB transfers used to stream data. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_DO_MemMapEnable 0x296B // Specifies for NI-DAQmx to map hardware registers to the memory space of the application, if possible. Normally, NI-DAQmx maps hardware registers to memory accessible only to the kernel. Mapping the registers to the memory space of the application increases performance. However, if the application accesses the memory space mapped to the registers, it can adversely affect the operation of the device and possibly res...
#define DAQmx_DO_GenerateOn 0x2969 // Specifies on which edge of the sample clock to generate samples.
#define DAQmx_CI_Max 0x189C // Specifies the maximum value you expect to measure. This value is in the units you specify with a units property. When you query this property, it returns the coerced maximum value that the hardware can measure with the current settings.
#define DAQmx_CI_Min 0x189D // Specifies the minimum value you expect to measure. This value is in the units you specify with a units property. When you query this property, it returns the coerced minimum value that the hardware can measure with the current settings.
#define DAQmx_CI_CustomScaleName 0x189E // Specifies the name of a custom scale for the channel.
#define DAQmx_CI_MeasType 0x18A0 // Indicates the measurement to take with the channel.
#define DAQmx_CI_Freq_Units 0x18A1 // Specifies the units to use to return frequency measurements.
#define DAQmx_CI_Freq_Term 0x18A2 // Specifies the input terminal of the signal to measure.
#define DAQmx_CI_Freq_TermCfg 0x3097 // Specifies the input terminal configuration.
#define DAQmx_CI_Freq_LogicLvlBehavior 0x3098 // Specifies the logic level behavior on the input line.
#define DAQmx_CI_Freq_DigFltr_Enable 0x21E7 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_Freq_DigFltr_MinPulseWidth 0x21E8 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_Freq_DigFltr_TimebaseSrc 0x21E9 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_Freq_DigFltr_TimebaseRate 0x21EA // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Freq_DigSync_Enable 0x21EB // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_Freq_StartingEdge 0x0799 // Specifies between which edges to measure the frequency of the signal.
#define DAQmx_CI_Freq_MeasMeth 0x0144 // Specifies the method to use to measure the frequency of the signal.
#define DAQmx_CI_Freq_EnableAveraging 0x2ED0 // Specifies whether to enable averaging mode for Sample Clock-timed frequency measurements.
#define DAQmx_CI_Freq_MeasTime 0x0145 // Specifies in seconds the length of time to measure the frequency of the signal if Method is DAQmx_Val_HighFreq2Ctr. Measurement accuracy increases with increased measurement time and with increased signal frequency. If you measure a high-frequency signal for too long, however, the count register could roll over, which results in an incorrect measurement.
#define DAQmx_CI_Freq_Div 0x0147 // Specifies the value by which to divide the input signal if Method is DAQmx_Val_LargeRng2Ctr. The larger the divisor, the more accurate the measurement. However, too large a value could cause the count register to roll over, which results in an incorrect measurement.
#define DAQmx_CI_Period_Units 0x18A3 // Specifies the unit to use to return period measurements.
#define DAQmx_CI_Period_Term 0x18A4 // Specifies the input terminal of the signal to measure.
#define DAQmx_CI_Period_TermCfg 0x3099 // Specifies the input terminal configuration.
#define DAQmx_CI_Period_LogicLvlBehavior 0x309A // Specifies the logic level behavior on the input line.
#define DAQmx_CI_Period_DigFltr_Enable 0x21EC // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_Period_DigFltr_MinPulseWidth 0x21ED // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_Period_DigFltr_TimebaseSrc 0x21EE // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_Period_DigFltr_TimebaseRate 0x21EF // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Period_DigSync_Enable 0x21F0 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_Period_StartingEdge 0x0852 // Specifies between which edges to measure the period of the signal.
#define DAQmx_CI_Period_MeasMeth 0x192C // Specifies the method to use to measure the period of the signal.
#define DAQmx_CI_Period_EnableAveraging 0x2ED1 // Specifies whether to enable averaging mode for Sample Clock-timed period measurements.
#define DAQmx_CI_Period_MeasTime 0x192D // Specifies in seconds the length of time to measure the period of the signal if Method is DAQmx_Val_HighFreq2Ctr. Measurement accuracy increases with increased measurement time and with increased signal frequency. If you measure a high-frequency signal for too long, however, the count register could roll over, which results in an incorrect measurement.
#define DAQmx_CI_Period_Div 0x192E // Specifies the value by which to divide the input signal if Method is DAQmx_Val_LargeRng2Ctr. The larger the divisor, the more accurate the measurement. However, too large a value could cause the count register to roll over, which results in an incorrect measurement.
#define DAQmx_CI_CountEdges_Term 0x18C7 // Specifies the input terminal of the signal to measure.
#define DAQmx_CI_CountEdges_TermCfg 0x309B // Specifies the input terminal configuration.
#define DAQmx_CI_CountEdges_LogicLvlBehavior 0x309C // Specifies the logic level behavior on the input line.
#define DAQmx_CI_CountEdges_DigFltr_Enable 0x21F6 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_CountEdges_DigFltr_MinPulseWidth 0x21F7 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_CountEdges_DigFltr_TimebaseSrc 0x21F8 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_CountEdges_DigFltr_TimebaseRate 0x21F9 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_CountEdges_DigSync_Enable 0x21FA // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_CountEdges_Dir 0x0696 // Specifies whether to increment or decrement the counter on each edge.
#define DAQmx_CI_CountEdges_DirTerm 0x21E1 // Specifies the source terminal of the digital signal that controls the count direction if Direction is DAQmx_Val_ExtControlled.
#define DAQmx_CI_CountEdges_CountDir_TermCfg 0x309D // Specifies the input terminal configuration.
#define DAQmx_CI_CountEdges_CountDir_LogicLvlBehavior 0x309E // Specifies the logic level behavior on the count reset line.
#define DAQmx_CI_CountEdges_CountDir_DigFltr_Enable 0x21F1 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_CountEdges_CountDir_DigFltr_MinPulseWidth 0x21F2 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_CountEdges_CountDir_DigFltr_TimebaseSrc 0x21F3 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_CountEdges_CountDir_DigFltr_TimebaseRate 0x21F4 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_CountEdges_CountDir_DigSync_Enable 0x21F5 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_CountEdges_InitialCnt 0x0698 // Specifies the starting value from which to count.
#define DAQmx_CI_CountEdges_ActiveEdge 0x0697 // Specifies on which edges to increment or decrement the counter.
#define DAQmx_CI_CountEdges_CountReset_Enable 0x2FAF // Specifies whether to reset the count on the active edge specified with Terminal.
#define DAQmx_CI_CountEdges_CountReset_ResetCount 0x2FB0 // Specifies the value to reset the count to.
#define DAQmx_CI_CountEdges_CountReset_Term 0x2FB1 // Specifies the input terminal of the signal to reset the count.
#define DAQmx_CI_CountEdges_CountReset_TermCfg 0x309F // Specifies the input terminal configuration.
#define DAQmx_CI_CountEdges_CountReset_LogicLvlBehavior 0x30A0 // Specifies the logic level behavior on the count reset line.
#define DAQmx_CI_CountEdges_CountReset_DigFltr_Enable 0x2FB3 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_CountEdges_CountReset_DigFltr_MinPulseWidth 0x2FB4 // Specifies the minimum pulse width the filter recognizes.
#define DAQmx_CI_CountEdges_CountReset_DigFltr_TimebaseSrc 0x2FB5 // Specifies the input of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_CountEdges_CountReset_DigFltr_TimebaseRate 0x2FB6 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_CountEdges_CountReset_DigSync_Enable 0x2FB7 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_CountEdges_CountReset_ActiveEdge 0x2FB2 // Specifies on which edge of the signal to reset the count.
#define DAQmx_CI_CountEdges_Gate_Enable 0x30ED // Specifies whether to enable the functionality to gate the counter input signal for a count edges measurement.
#define DAQmx_CI_CountEdges_Gate_Term 0x30EE // Specifies the gate terminal.
#define DAQmx_CI_CountEdges_Gate_TermCfg 0x30EF // Specifies the gate terminal configuration.
#define DAQmx_CI_CountEdges_Gate_LogicLvlBehavior 0x30F0 // Specifies the logic level behavior on the gate input line.
#define DAQmx_CI_CountEdges_Gate_DigFltrEnable 0x30F1 // Specifies whether to apply the pulse width filter to the gate input signal.
#define DAQmx_CI_CountEdges_Gate_DigFltrMinPulseWidth 0x30F2 // Specifies in seconds the minimum pulse width the digital filter recognizes.
#define DAQmx_CI_CountEdges_Gate_DigFltrTimebaseSrc 0x30F3 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_CountEdges_Gate_DigFltrTimebaseRate 0x30F4 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_CountEdges_GateWhen 0x30F5 // Specifies whether the counter gates input pulses while the signal is high or low.
#define DAQmx_CI_DutyCycle_Term 0x308D // Specifies the input terminal of the signal to measure.
#define DAQmx_CI_DutyCycle_TermCfg 0x30A1 // Specifies the input terminal configuration.
#define DAQmx_CI_DutyCycle_LogicLvlBehavior 0x30A2 // Specifies the logic level behavior on the input line.
#define DAQmx_CI_DutyCycle_DigFltr_Enable 0x308E // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_DutyCycle_DigFltr_MinPulseWidth 0x308F // Specifies in seconds the minimum pulse width the digital filter recognizes.
#define DAQmx_CI_DutyCycle_DigFltr_TimebaseSrc 0x3090 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_DutyCycle_DigFltr_TimebaseRate 0x3091 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_DutyCycle_StartingEdge 0x3092 // Specifies which edge of the input signal to begin the duty cycle measurement.
#define DAQmx_CI_AngEncoder_Units 0x18A6 // Specifies the units to use to return angular position measurements from the channel.
#define DAQmx_CI_AngEncoder_PulsesPerRev 0x0875 // Specifies the number of pulses the encoder generates per revolution. This value is the number of pulses on either signal A or signal B, not the total number of pulses on both signal A and signal B.
#define DAQmx_CI_AngEncoder_InitialAngle 0x0881 // Specifies the starting angle of the encoder. This value is in the units you specify with Units.
#define DAQmx_CI_LinEncoder_Units 0x18A9 // Specifies the units to use to return linear encoder measurements from the channel.
#define DAQmx_CI_LinEncoder_DistPerPulse 0x0911 // Specifies the distance to measure for each pulse the encoder generates on signal A or signal B. This value is in the units you specify with Units.
#define DAQmx_CI_LinEncoder_InitialPos 0x0915 // Specifies the position of the encoder when the measurement begins. This value is in the units you specify with Units.
#define DAQmx_CI_Encoder_DecodingType 0x21E6 // Specifies how to count and interpret the pulses the encoder generates on signal A and signal B. DAQmx_Val_X1, DAQmx_Val_X2, and DAQmx_Val_X4 are valid for quadrature encoders only. DAQmx_Val_TwoPulseCounting is valid for two-pulse encoders only.
#define DAQmx_CI_Encoder_AInputTerm 0x219D // Specifies the terminal to which signal A is connected.
#define DAQmx_CI_Encoder_AInputTermCfg 0x30A3 // Specifies the input terminal configuration.
#define DAQmx_CI_Encoder_AInputLogicLvlBehavior 0x30A4 // Specifies the logic level behavior on the input line.
#define DAQmx_CI_Encoder_AInput_DigFltr_Enable 0x21FB // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_Encoder_AInput_DigFltr_MinPulseWidth 0x21FC // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_Encoder_AInput_DigFltr_TimebaseSrc 0x21FD // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_Encoder_AInput_DigFltr_TimebaseRate 0x21FE // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Encoder_AInput_DigSync_Enable 0x21FF // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_Encoder_BInputTerm 0x219E // Specifies the terminal to which signal B is connected.
#define DAQmx_CI_Encoder_BInputTermCfg 0x30A5 // Specifies the input terminal configuration.
#define DAQmx_CI_Encoder_BInputLogicLvlBehavior 0x30A6 // Specifies the logic level behavior on the input line.
#define DAQmx_CI_Encoder_BInput_DigFltr_Enable 0x2200 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_Encoder_BInput_DigFltr_MinPulseWidth 0x2201 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_Encoder_BInput_DigFltr_TimebaseSrc 0x2202 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_Encoder_BInput_DigFltr_TimebaseRate 0x2203 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Encoder_BInput_DigSync_Enable 0x2204 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_Encoder_ZInputTerm 0x219F // Specifies the terminal to which signal Z is connected.
#define DAQmx_CI_Encoder_ZInputTermCfg 0x30A7 // Specifies the input terminal configuration.
#define DAQmx_CI_Encoder_ZInputLogicLvlBehavior 0x30A8 // Specifies the logic level behavior on the input line.
#define DAQmx_CI_Encoder_ZInput_DigFltr_Enable 0x2205 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_Encoder_ZInput_DigFltr_MinPulseWidth 0x2206 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_Encoder_ZInput_DigFltr_TimebaseSrc 0x2207 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_Encoder_ZInput_DigFltr_TimebaseRate 0x2208 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Encoder_ZInput_DigSync_Enable 0x2209 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_Encoder_ZIndexEnable 0x0890 // Specifies whether to use Z indexing for the channel.
#define DAQmx_CI_Encoder_ZIndexVal 0x0888 // Specifies the value to which to reset the measurement when signal Z is high and signal A and signal B are at the states you specify with Z Index Phase. Specify this value in the units of the measurement.
#define DAQmx_CI_Encoder_ZIndexPhase 0x0889 // Specifies the states at which signal A and signal B must be while signal Z is high for NI-DAQmx to reset the measurement. If signal Z is never high while signal A and signal B are high, for example, you must choose a phase other than DAQmx_Val_AHighBHigh.
#define DAQmx_CI_PulseWidth_Units 0x0823 // Specifies the units to use to return pulse width measurements.
#define DAQmx_CI_PulseWidth_Term 0x18AA // Specifies the input terminal of the signal to measure.
#define DAQmx_CI_PulseWidth_TermCfg 0x30A9 // Specifies the input terminal configuration.
#define DAQmx_CI_PulseWidth_LogicLvlBehavior 0x30AA // Specifies the logic level behavior on the input line.
#define DAQmx_CI_PulseWidth_DigFltr_Enable 0x220A // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_PulseWidth_DigFltr_MinPulseWidth 0x220B // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_PulseWidth_DigFltr_TimebaseSrc 0x220C // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_PulseWidth_DigFltr_TimebaseRate 0x220D // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_PulseWidth_DigSync_Enable 0x220E // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_PulseWidth_StartingEdge 0x0825 // Specifies on which edge of the input signal to begin each pulse width measurement.
#define DAQmx_CI_Timestamp_Units 0x22B3 // Specifies the units to use to return timestamp measurements.
#define DAQmx_CI_Timestamp_InitialSeconds 0x22B4 // Specifies the number of seconds that elapsed since the beginning of the current year. This value is ignored if Synchronization Method is DAQmx_Val_IRIGB.
#define DAQmx_CI_GPS_SyncMethod 0x1092 // Specifies the method to use to synchronize the counter to a GPS receiver.
#define DAQmx_CI_GPS_SyncSrc 0x1093 // Specifies the terminal to which the GPS synchronization signal is connected.
#define DAQmx_CI_Velocity_AngEncoder_Units 0x30D8 // Specifies the units to use to return angular velocity counter measurements.
#define DAQmx_CI_Velocity_AngEncoder_PulsesPerRev 0x30D9 // Specifies the number of pulses the encoder generates per revolution. This value is the number of pulses on either signal A or signal B, not the total number of pulses on both signal A and signal B.
#define DAQmx_CI_Velocity_LinEncoder_Units 0x30DA // Specifies the units to use to return linear encoder velocity measurements from the channel.
#define DAQmx_CI_Velocity_LinEncoder_DistPerPulse 0x30DB // Specifies the distance to measure for each pulse the encoder generates on signal A or signal B. This value is in the units you specify in CI.Velocity.LinEncoder.DistUnits.
#define DAQmx_CI_Velocity_Encoder_DecodingType 0x30DC // Specifies how to count and interpret the pulses the encoder generates on signal A and signal B. X1, X2, and X4 are valid for quadrature encoders only. Two Pulse Counting is valid for two-pulse encoders only.
#define DAQmx_CI_Velocity_Encoder_AInputTerm 0x30DD // Specifies the terminal to which signal A is connected.
#define DAQmx_CI_Velocity_Encoder_AInputTermCfg 0x30DE // Specifies the input terminal configuration.
#define DAQmx_CI_Velocity_Encoder_AInputLogicLvlBehavior 0x30DF // Specifies the logic level behavior of the input terminal.
#define DAQmx_CI_Velocity_Encoder_AInputDigFltr_Enable 0x30E0 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_Velocity_Encoder_AInputDigFltr_MinPulseWidth 0x30E1 // Specifies in seconds the minimum pulse width the digital filter recognizes.
#define DAQmx_CI_Velocity_Encoder_AInputDigFltr_TimebaseSrc 0x30E2 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_Velocity_Encoder_AInputDigFltr_TimebaseRate 0x30E3 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Velocity_Encoder_BInputTerm 0x30E4 // Specifies the terminal to which signal B is connected.
#define DAQmx_CI_Velocity_Encoder_BInputTermCfg 0x30E5 // Specifies the input terminal configuration.
#define DAQmx_CI_Velocity_Encoder_BInputLogicLvlBehavior 0x30E6 // Specifies the logic level behavior of the input terminal.
#define DAQmx_CI_Velocity_Encoder_BInputDigFltr_Enable 0x30E7 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_Velocity_Encoder_BInputDigFltr_MinPulseWidth 0x30E8 // Specifies in seconds the minimum pulse width the digital filter recognizes.
#define DAQmx_CI_Velocity_Encoder_BInputDigFltr_TimebaseSrc 0x30E9 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_Velocity_Encoder_BInputDigFltr_TimebaseRate 0x30EA // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Velocity_MeasTime 0x30EB // Specifies in seconds the length of time to measure the velocity of the signal.
#define DAQmx_CI_Velocity_Div 0x30EC // Specifies the value by which to divide the input signal.
#define DAQmx_CI_TwoEdgeSep_Units 0x18AC // Specifies the units to use to return two-edge separation measurements from the channel.
#define DAQmx_CI_TwoEdgeSep_FirstTerm 0x18AD // Specifies the source terminal of the digital signal that starts each measurement.
#define DAQmx_CI_TwoEdgeSep_FirstTermCfg 0x30AB // Specifies the input terminal configuration.
#define DAQmx_CI_TwoEdgeSep_FirstLogicLvlBehavior 0x30AC // Specifies the logic level behavior on the input line.
#define DAQmx_CI_TwoEdgeSep_First_DigFltr_Enable 0x220F // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_TwoEdgeSep_First_DigFltr_MinPulseWidth 0x2210 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_TwoEdgeSep_First_DigFltr_TimebaseSrc 0x2211 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_TwoEdgeSep_First_DigFltr_TimebaseRate 0x2212 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_TwoEdgeSep_First_DigSync_Enable 0x2213 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_TwoEdgeSep_FirstEdge 0x0833 // Specifies on which edge of the first signal to start each measurement.
#define DAQmx_CI_TwoEdgeSep_SecondTerm 0x18AE // Specifies the source terminal of the digital signal that stops each measurement.
#define DAQmx_CI_TwoEdgeSep_SecondTermCfg 0x30AD // Specifies the input terminal configuration.
#define DAQmx_CI_TwoEdgeSep_SecondLogicLvlBehavior 0x30AE // Specifies the logic level behavior on the count reset line.
#define DAQmx_CI_TwoEdgeSep_Second_DigFltr_Enable 0x2214 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_TwoEdgeSep_Second_DigFltr_MinPulseWidth 0x2215 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_TwoEdgeSep_Second_DigFltr_TimebaseSrc 0x2216 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_TwoEdgeSep_Second_DigFltr_TimebaseRate 0x2217 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_TwoEdgeSep_Second_DigSync_Enable 0x2218 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_TwoEdgeSep_SecondEdge 0x0834 // Specifies on which edge of the second signal to stop each measurement.
#define DAQmx_CI_SemiPeriod_Units 0x18AF // Specifies the units to use to return semi-period measurements.
#define DAQmx_CI_SemiPeriod_Term 0x18B0 // Specifies the input terminal of the signal to measure.
#define DAQmx_CI_SemiPeriod_TermCfg 0x30AF // Specifies the input terminal configuration.
#define DAQmx_CI_SemiPeriod_LogicLvlBehavior 0x30B0 // Specifies the logic level behavior on the count reset line.
#define DAQmx_CI_SemiPeriod_DigFltr_Enable 0x2219 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_SemiPeriod_DigFltr_MinPulseWidth 0x221A // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_SemiPeriod_DigFltr_TimebaseSrc 0x221B // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_SemiPeriod_DigFltr_TimebaseRate 0x221C // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_SemiPeriod_DigSync_Enable 0x221D // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_SemiPeriod_StartingEdge 0x22FE // Specifies on which edge of the input signal to begin semi-period measurement. Semi-period measurements alternate between high time and low time, starting on this edge.
#define DAQmx_CI_Pulse_Freq_Units 0x2F0B // Specifies the units to use to return pulse specifications in terms of frequency.
#define DAQmx_CI_Pulse_Freq_Term 0x2F04 // Specifies the input terminal of the signal to measure.
#define DAQmx_CI_Pulse_Freq_TermCfg 0x30B1 // Specifies the input terminal configuration.
#define DAQmx_CI_Pulse_Freq_LogicLvlBehavior 0x30B2 // Specifies the logic level behavior on the count reset line.
#define DAQmx_CI_Pulse_Freq_DigFltr_Enable 0x2F06 // Specifies whether to apply a digital filter to the signal to measure.
#define DAQmx_CI_Pulse_Freq_DigFltr_MinPulseWidth 0x2F07 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_Pulse_Freq_DigFltr_TimebaseSrc 0x2F08 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_CI_Pulse_Freq_DigFltr_TimebaseRate 0x2F09 // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Pulse_Freq_DigSync_Enable 0x2F0A // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_Pulse_Freq_Start_Edge 0x2F05 // Specifies on which edge of the input signal to begin pulse measurement.
#define DAQmx_CI_Pulse_Time_Units 0x2F13 // Specifies the units to use to return pulse specifications in terms of high time and low time.
#define DAQmx_CI_Pulse_Time_Term 0x2F0C // Specifies the input terminal of the signal to measure.
#define DAQmx_CI_Pulse_Time_TermCfg 0x30B3 // Specifies the input terminal configuration.
#define DAQmx_CI_Pulse_Time_LogicLvlBehavior 0x30B4 // Specifies the logic level behavior on the count reset line.
#define DAQmx_CI_Pulse_Time_DigFltr_Enable 0x2F0E // Specifies whether to apply a digital filter to the signal to measure.
#define DAQmx_CI_Pulse_Time_DigFltr_MinPulseWidth 0x2F0F // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_Pulse_Time_DigFltr_TimebaseSrc 0x2F10 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_CI_Pulse_Time_DigFltr_TimebaseRate 0x2F11 // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Pulse_Time_DigSync_Enable 0x2F12 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_Pulse_Time_StartEdge 0x2F0D // Specifies on which edge of the input signal to begin pulse measurement.
#define DAQmx_CI_Pulse_Ticks_Term 0x2F14 // Specifies the input terminal of the signal to measure.
#define DAQmx_CI_Pulse_Ticks_TermCfg 0x30B5 // Specifies the input terminal configuration.
#define DAQmx_CI_Pulse_Ticks_LogicLvlBehavior 0x30B6 // Specifies the logic level behavior on the count reset line.
#define DAQmx_CI_Pulse_Ticks_DigFltr_Enable 0x2F16 // Specifies whether to apply a digital filter to the signal to measure.
#define DAQmx_CI_Pulse_Ticks_DigFltr_MinPulseWidth 0x2F17 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_Pulse_Ticks_DigFltr_TimebaseSrc 0x2F18 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_CI_Pulse_Ticks_DigFltr_TimebaseRate 0x2F19 // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_Pulse_Ticks_DigSync_Enable 0x2F1A // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_Pulse_Ticks_StartEdge 0x2F15 // Specifies on which edge of the input signal to begin pulse measurement.
#define DAQmx_CI_CtrTimebaseSrc 0x0143 // Specifies the terminal of the timebase to use for the counter.
#define DAQmx_CI_CtrTimebaseRate 0x18B2 // Specifies in Hertz the frequency of the counter timebase. Specifying the rate of a counter timebase allows you to take measurements in terms of time or frequency rather than in ticks of the timebase. If you use an external timebase and do not specify the rate, you can take measurements only in terms of ticks of the timebase.
#define DAQmx_CI_CtrTimebaseActiveEdge 0x0142 // Specifies whether a timebase cycle is from rising edge to rising edge or from falling edge to falling edge.
#define DAQmx_CI_CtrTimebase_DigFltr_Enable 0x2271 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CI_CtrTimebase_DigFltr_MinPulseWidth 0x2272 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CI_CtrTimebase_DigFltr_TimebaseSrc 0x2273 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CI_CtrTimebase_DigFltr_TimebaseRate 0x2274 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CI_CtrTimebase_DigSync_Enable 0x2275 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CI_ThreshVoltage 0x30B7 // Specifies the digital threshold value in Volts for high and low input transitions. Some devices do not support this for differential channels.
#define DAQmx_CI_Count 0x0148 // Indicates the current value of the count register.
#define DAQmx_CI_OutputState 0x0149 // Indicates the current state of the out terminal of the counter.
#define DAQmx_CI_TCReached 0x0150 // Indicates whether the counter rolled over. When you query this property, NI-DAQmx resets it to FALSE.
#define DAQmx_CI_CtrTimebaseMasterTimebaseDiv 0x18B3 // Specifies the divisor for an external counter timebase. You can divide the counter timebase in order to measure slower signals without causing the count register to roll over.
#define DAQmx_CI_SampClkOverrunBehavior 0x3093 // Specifies the counter behavior when data is read but a new value was not detected during a sample clock.
#define DAQmx_CI_SampClkOverrunSentinelVal 0x3094 // Specifies the sentinel value returned when the No New Sample Behavior is set to Sentinel Value.
#define DAQmx_CI_DataXferMech 0x0200 // Specifies the data transfer mode for the channel.
#define DAQmx_CI_DataXferReqCond 0x2EFB // Specifies under what condition to transfer data from the onboard memory of the device to the buffer.
#define DAQmx_CI_UsbXferReqSize 0x2A92 // Specifies the maximum size of a USB transfer request in bytes. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_CI_UsbXferReqCount 0x3004 // Specifies the maximum number of simultaneous USB transfers used to stream data. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_CI_MemMapEnable 0x2ED2 // Specifies for NI-DAQmx to map hardware registers to the memory space of the application, if possible. Normally, NI-DAQmx maps hardware registers to memory accessible only to the kernel. Mapping the registers to the memory space of the application increases performance. However, if the application accesses the memory space mapped to the registers, it can adversely affect the operation of the device and possibly res...
#define DAQmx_CI_NumPossiblyInvalidSamps 0x193C // Indicates the number of samples that the device might have overwritten before it could transfer them to the buffer.
#define DAQmx_CI_DupCountPrevent 0x21AC // Specifies whether to enable duplicate count prevention for the channel. Duplicate count prevention is enabled by default. Setting Prescaler disables duplicate count prevention unless you explicitly enable it.
#define DAQmx_CI_Prescaler 0x2239 // Specifies the divisor to apply to the signal you connect to the counter source terminal. Scaled data that you read takes this setting into account. You should use a prescaler only when you connect an external signal to the counter source terminal and when that signal has a higher frequency than the fastest onboard timebase. Setting this value disables duplicate count prevention unless you explicitly set Duplicate ...
#define DAQmx_CI_MaxMeasPeriod 0x3095 // Specifies the maximum period (in seconds) in which the device will recognize signals. For frequency measurements, a signal with a higher period than the one set in this property will return 0 Hz. For duty cycle, the device will return 0 or 1 depending on the state of the line during the max defined period of time. Period measurements will return NaN. Pulse width measurement will return zero.
#define DAQmx_CO_OutputType 0x18B5 // Indicates how to define pulses generated on the channel.
#define DAQmx_CO_Pulse_IdleState 0x1170 // Specifies the resting state of the output terminal.
#define DAQmx_CO_Pulse_Term 0x18E1 // Specifies on which terminal to generate pulses.
#define DAQmx_CO_Pulse_Time_Units 0x18D6 // Specifies the units in which to define high and low pulse time.
#define DAQmx_CO_Pulse_HighTime 0x18BA // Specifies the amount of time that the pulse is at a high voltage. This value is in the units you specify with Units or when you create the channel.
#define DAQmx_CO_Pulse_LowTime 0x18BB // Specifies the amount of time that the pulse is at a low voltage. This value is in the units you specify with Units or when you create the channel.
#define DAQmx_CO_Pulse_Time_InitialDelay 0x18BC // Specifies in seconds the amount of time to wait before generating the first pulse.
#define DAQmx_CO_Pulse_DutyCyc 0x1176 // Specifies the duty cycle of the pulses. The duty cycle of a signal is the width of the pulse divided by period. NI-DAQmx uses this ratio and the pulse frequency to determine the width of the pulses and the delay between pulses.
#define DAQmx_CO_Pulse_Freq_Units 0x18D5 // Specifies the units in which to define pulse frequency.
#define DAQmx_CO_Pulse_Freq 0x1178 // Specifies the frequency of the pulses to generate. This value is in the units you specify with Units or when you create the channel.
#define DAQmx_CO_Pulse_Freq_InitialDelay 0x0299 // Specifies in seconds the amount of time to wait before generating the first pulse.
#define DAQmx_CO_Pulse_HighTicks 0x1169 // Specifies the number of ticks the pulse is high.
#define DAQmx_CO_Pulse_LowTicks 0x1171 // Specifies the number of ticks the pulse is low.
#define DAQmx_CO_Pulse_Ticks_InitialDelay 0x0298 // Specifies the number of ticks to wait before generating the first pulse.
#define DAQmx_CO_CtrTimebaseSrc 0x0339 // Specifies the terminal of the timebase to use for the counter. Typically, NI-DAQmx uses one of the internal counter timebases when generating pulses. Use this property to specify an external timebase and produce custom pulse widths that are not possible using the internal timebases.
#define DAQmx_CO_CtrTimebaseRate 0x18C2 // Specifies in Hertz the frequency of the counter timebase. Specifying the rate of a counter timebase allows you to define output pulses in seconds rather than in ticks of the timebase. If you use an external timebase and do not specify the rate, you can define output pulses only in ticks of the timebase.
#define DAQmx_CO_CtrTimebaseActiveEdge 0x0341 // Specifies whether a timebase cycle is from rising edge to rising edge or from falling edge to falling edge.
#define DAQmx_CO_CtrTimebase_DigFltr_Enable 0x2276 // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_CO_CtrTimebase_DigFltr_MinPulseWidth 0x2277 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_CO_CtrTimebase_DigFltr_TimebaseSrc 0x2278 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_CO_CtrTimebase_DigFltr_TimebaseRate 0x2279 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_CO_CtrTimebase_DigSync_Enable 0x227A // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_CO_Count 0x0293 // Indicates the current value of the count register.
#define DAQmx_CO_OutputState 0x0294 // Indicates the current state of the output terminal of the counter.
#define DAQmx_CO_AutoIncrCnt 0x0295 // Specifies a number of timebase ticks by which to increase the time spent in the idle state for each successive pulse.
#define DAQmx_CO_CtrTimebaseMasterTimebaseDiv 0x18C3 // Specifies the divisor for an external counter timebase. You can divide the counter timebase in order to generate slower signals without causing the count register to roll over.
#define DAQmx_CO_PulseDone 0x190E // Indicates if the task completed pulse generation. Use this value for retriggerable pulse generation when you need to determine if the device generated the current pulse. For retriggerable tasks, when you query this property, NI-DAQmx resets it to FALSE.
#define DAQmx_CO_EnableInitialDelayOnRetrigger 0x2EC9 // Specifies whether to apply the initial delay to retriggered pulse trains.
#define DAQmx_CO_ConstrainedGenMode 0x29F2 // Specifies constraints to apply when the counter generates pulses. Constraining the counter reduces the device resources required for counter operation. Constraining the counter can also allow additional analog or counter tasks on the device to run concurrently. For continuous counter tasks, NI-DAQmx consumes no device resources when the counter is constrained. For finite counter tasks, resource use increases with ...
#define DAQmx_CO_UseOnlyOnBrdMem 0x2ECB // Specifies whether to write samples directly to the onboard memory of the device, bypassing the memory buffer. Generally, you cannot update onboard memory directly after you start the task. Onboard memory includes data FIFOs.
#define DAQmx_CO_DataXferMech 0x2ECC // Specifies the data transfer mode for the device. For buffered operations, use DMA or USB Bulk. For non-buffered operations, use Polled.
#define DAQmx_CO_DataXferReqCond 0x2ECD // Specifies under what condition to transfer data from the buffer to the onboard memory of the device.
#define DAQmx_CO_UsbXferReqSize 0x2A93 // Specifies the maximum size of a USB transfer request in bytes. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_CO_UsbXferReqCount 0x3005 // Specifies the maximum number of simultaneous USB transfers used to stream data. Modify this value to affect performance under different combinations of operating system and device.
#define DAQmx_CO_MemMapEnable 0x2ED3 // Specifies for NI-DAQmx to map hardware registers to the memory space of the application, if possible. Normally, NI-DAQmx maps hardware registers to memory accessible only to the kernel. Mapping the registers to the memory space of the application increases performance. However, if the application accesses the memory space mapped to the registers, it can adversely affect the operation of the device and possibly res...
#define DAQmx_CO_Prescaler 0x226D // Specifies the divisor to apply to the signal you connect to the counter source terminal. Pulse generations defined by frequency or time take this setting into account, but pulse generations defined by ticks do not. You should use a prescaler only when you connect an external signal to the counter source terminal and when that signal has a higher frequency than the fastest onboard timebase.
#define DAQmx_CO_RdyForNewVal 0x22FF // Indicates whether the counter is ready for new continuous pulse train values.
#define DAQmx_ChanType 0x187F // Indicates the type of the virtual channel.
#define DAQmx_PhysicalChanName 0x18F5 // Specifies the name of the physical channel upon which this virtual channel is based.
#define DAQmx_ChanDescr 0x1926 // Specifies a user-defined description for the channel.
#define DAQmx_ChanIsGlobal 0x2304 // Indicates whether the channel is a global channel.
#define DAQmx_Chan_SyncUnlockBehavior 0x313C // Specifies the action to take if the target loses its synchronization to the grand master.
//********** Device Attributes **********
#define DAQmx_Dev_IsSimulated 0x22CA // Indicates if the device is a simulated device.
#define DAQmx_Dev_ProductCategory 0x29A9 // Indicates the product category of the device. This category corresponds to the category displayed in MAX when creating NI-DAQmx simulated devices.
#define DAQmx_Dev_ProductType 0x0631 // Indicates the product name of the device.
#define DAQmx_Dev_ProductNum 0x231D // Indicates the unique hardware identification number for the device.
#define DAQmx_Dev_SerialNum 0x0632 // Indicates the serial number of the device. This value is zero if the device does not have a serial number.
#define DAQmx_Dev_Accessory_ProductTypes 0x2F6D // Indicates the model names of accessories connected to the device. Each array element corresponds to a connector. For example, index 0 corresponds to connector 0. The array contains an empty string for each connector with no accessory connected.
#define DAQmx_Dev_Accessory_ProductNums 0x2F6E // Indicates the unique hardware identification number for accessories connected to the device. Each array element corresponds to a connector. For example, index 0 corresponds to connector 0. The array contains 0 for each connector with no accessory connected.
#define DAQmx_Dev_Accessory_SerialNums 0x2F6F // Indicates the serial number for accessories connected to the device. Each array element corresponds to a connector. For example, index 0 corresponds to connector 0. The array contains 0 for each connector with no accessory connected.
#define DAQmx_Carrier_SerialNum 0x2A8A // Indicates the serial number of the device carrier. This value is zero if the carrier does not have a serial number.
#define DAQmx_FieldDAQ_DevName 0x3171 // Indicates the parent device which this bank is located in.
#define DAQmx_FieldDAQ_BankDevNames 0x3178 // Indicates an array containing the names of the banks in the FieldDAQ.
#define DAQmx_Dev_Chassis_ModuleDevNames 0x29B6 // Indicates an array containing the names of the modules in the chassis.
#define DAQmx_Dev_AnlgTrigSupported 0x2984 // Indicates if the device supports analog triggering.
#define DAQmx_Dev_DigTrigSupported 0x2985 // Indicates if the device supports digital triggering.
#define DAQmx_Dev_TimeTrigSupported 0x301F // Indicates whether the device supports time triggering.
#define DAQmx_Dev_AI_PhysicalChans 0x231E // Indicates an array containing the names of the analog input physical channels available on the device.
#define DAQmx_Dev_AI_SupportedMeasTypes 0x2FD2 // Indicates the measurement types supported by the physical channels of the device. Refer to Measurement Types for information on specific channels.
#define DAQmx_Dev_AI_MaxSingleChanRate 0x298C // Indicates the maximum rate for an analog input task if the task contains only a single channel from this device.
#define DAQmx_Dev_AI_MaxMultiChanRate 0x298D // Indicates the maximum sampling rate for an analog input task from this device. To find the maximum rate for the task, take the minimum of Maximum Single Channel Rate or the indicated sampling rate of this device divided by the number of channels to acquire data from (including cold-junction compensation and autozero channels).
#define DAQmx_Dev_AI_MinRate 0x298E // Indicates the minimum rate for an analog input task on this device. NI-DAQmx returns a warning or error if you attempt to sample at a slower rate.
#define DAQmx_Dev_AI_SimultaneousSamplingSupported 0x298F // Indicates if the device supports simultaneous sampling.
#define DAQmx_Dev_AI_NumSampTimingEngines 0x3163 // Indicates the number of Analog Input sample timing engines supported by the device.
#define DAQmx_Dev_AI_SampModes 0x2FDC // Indicates sample modes supported by devices that support sample clocked analog input.
#define DAQmx_Dev_AI_NumSyncPulseSrcs 0x3164 // Indicates the number of Analog Input synchronization pulse sources supported by the device.
#define DAQmx_Dev_AI_TrigUsage 0x2986 // Indicates the triggers supported by this device for an analog input task.
#define DAQmx_Dev_AI_VoltageRngs 0x2990 // Indicates pairs of input voltage ranges supported by this device. Each pair consists of the low value, followed by the high value.
#define DAQmx_Dev_AI_VoltageIntExcitDiscreteVals 0x29C9 // Indicates the set of discrete internal voltage excitation values supported by this device. If the device supports ranges of internal excitation values, use Range Values to determine supported excitation values.
#define DAQmx_Dev_AI_VoltageIntExcitRangeVals 0x29CA // Indicates pairs of internal voltage excitation ranges supported by this device. Each pair consists of the low value, followed by the high value. If the device supports a set of discrete internal excitation values, use Discrete Values to determine the supported excitation values.
#define DAQmx_Dev_AI_ChargeRngs 0x3111 // Indicates in coulombs pairs of input charge ranges for the device. Each pair consists of the low value followed by the high value.
#define DAQmx_Dev_AI_CurrentRngs 0x2991 // Indicates the pairs of current input ranges supported by this device. Each pair consists of the low value, followed by the high value.
#define DAQmx_Dev_AI_CurrentIntExcitDiscreteVals 0x29CB // Indicates the set of discrete internal current excitation values supported by this device.
#define DAQmx_Dev_AI_BridgeRngs 0x2FD0 // Indicates pairs of input voltage ratio ranges, in volts per volt, supported by devices that acquire using ratiometric measurements. Each pair consists of the low value followed by the high value.
#define DAQmx_Dev_AI_ResistanceRngs 0x2A15 // Indicates pairs of input resistance ranges, in ohms, supported by devices that have the necessary signal conditioning to measure resistances. Each pair consists of the low value followed by the high value.
#define DAQmx_Dev_AI_FreqRngs 0x2992 // Indicates the pairs of frequency input ranges supported by this device. Each pair consists of the low value, followed by the high value.
#define DAQmx_Dev_AI_Gains 0x2993 // Indicates the input gain settings supported by this device.
#define DAQmx_Dev_AI_Couplings 0x2994 // Indicates the coupling types supported by this device.
#define DAQmx_Dev_AI_LowpassCutoffFreqDiscreteVals 0x2995 // Indicates the set of discrete lowpass cutoff frequencies supported by this device. If the device supports ranges of lowpass cutoff frequencies, use Range Values to determine supported frequencies.
#define DAQmx_Dev_AI_LowpassCutoffFreqRangeVals 0x29CF // Indicates pairs of lowpass cutoff frequency ranges supported by this device. Each pair consists of the low value, followed by the high value. If the device supports a set of discrete lowpass cutoff frequencies, use Discrete Values to determine the supported frequencies.
#define DAQmx_AI_DigFltr_Types 0x3107 // Indicates the AI digital filter types supported by the device.
#define DAQmx_Dev_AI_DigFltr_LowpassCutoffFreqDiscreteVals 0x30C8 // Indicates the set of discrete lowpass cutoff frequencies supported by this device. If the device supports ranges of lowpass cutoff frequencies, use AI.DigFltr.Lowpass.CutoffFreq.RangeVals to determine supported frequencies.
#define DAQmx_Dev_AI_DigFltr_LowpassCutoffFreqRangeVals 0x30C9 // Indicates pairs of lowpass cutoff frequency ranges supported by this device. Each pair consists of the low value, followed by the high value. If the device supports a set of discrete lowpass cutoff frequencies, use AI.DigFltr.Lowpass.CutoffFreq.DiscreteVals to determine the supported frequencies.
#define DAQmx_Dev_AO_PhysicalChans 0x231F // Indicates an array containing the names of the analog output physical channels available on the device.
#define DAQmx_Dev_AO_SupportedOutputTypes 0x2FD3 // Indicates the generation types supported by the physical channels of the device. Refer to Output Types for information on specific channels.
#define DAQmx_Dev_AO_MaxRate 0x2997 // Indicates the maximum analog output rate of the device.
#define DAQmx_Dev_AO_MinRate 0x2998 // Indicates the minimum analog output rate of the device.
#define DAQmx_Dev_AO_SampClkSupported 0x2996 // Indicates if the device supports the sample clock timing type for analog output tasks.
#define DAQmx_Dev_AO_NumSampTimingEngines 0x3165 // Indicates the number of Analog Output sample timing engines supported by the device.
#define DAQmx_Dev_AO_SampModes 0x2FDD // Indicates sample modes supported by devices that support sample clocked analog output.
#define DAQmx_Dev_AO_NumSyncPulseSrcs 0x3166 // Indicates the number of Analog Output synchronization pulse sources supported by the device.
#define DAQmx_Dev_AO_TrigUsage 0x2987 // Indicates the triggers supported by this device for analog output tasks.
#define DAQmx_Dev_AO_VoltageRngs 0x299B // Indicates pairs of output voltage ranges supported by this device. Each pair consists of the low value, followed by the high value.
#define DAQmx_Dev_AO_CurrentRngs 0x299C // Indicates pairs of output current ranges supported by this device. Each pair consists of the low value, followed by the high value.
#define DAQmx_Dev_AO_Gains 0x299D // Indicates the output gain settings supported by this device.
#define DAQmx_Dev_DI_Lines 0x2320 // Indicates an array containing the names of the digital input lines available on the device.
#define DAQmx_Dev_DI_Ports 0x2321 // Indicates an array containing the names of the digital input ports available on the device.
#define DAQmx_Dev_DI_MaxRate 0x2999 // Indicates the maximum digital input rate of the device.
#define DAQmx_Dev_DI_NumSampTimingEngines 0x3167 // Indicates the number of Digital Input sample timing engines supported by the device.
#define DAQmx_Dev_DI_TrigUsage 0x2988 // Indicates the triggers supported by this device for digital input tasks.
#define DAQmx_Dev_DO_Lines 0x2322 // Indicates an array containing the names of the digital output lines available on the device.
#define DAQmx_Dev_DO_Ports 0x2323 // Indicates an array containing the names of the digital output ports available on the device.
#define DAQmx_Dev_DO_MaxRate 0x299A // Indicates the maximum digital output rate of the device.
#define DAQmx_Dev_DO_NumSampTimingEngines 0x3168 // Indicates the number of Digital Output synchronization pulse sources supported by the device.
#define DAQmx_Dev_DO_TrigUsage 0x2989 // Indicates the triggers supported by this device for digital output tasks.
#define DAQmx_Dev_CI_PhysicalChans 0x2324 // Indicates an array containing the names of the counter input physical channels available on the device.
#define DAQmx_Dev_CI_SupportedMeasTypes 0x2FD4 // Indicates the measurement types supported by the physical channels of the device. Refer to Measurement Types for information on specific channels.
#define DAQmx_Dev_CI_TrigUsage 0x298A // Indicates the triggers supported by this device for counter input tasks.
#define DAQmx_Dev_CI_SampClkSupported 0x299E // Indicates if the device supports the sample clock timing type for counter input tasks.
#define DAQmx_Dev_CI_SampModes 0x2FDE // Indicates sample modes supported by devices that support sample clocked counter input.
#define DAQmx_Dev_CI_MaxSize 0x299F // Indicates in bits the size of the counters on the device.
#define DAQmx_Dev_CI_MaxTimebase 0x29A0 // Indicates in hertz the maximum counter timebase frequency.
#define DAQmx_Dev_CO_PhysicalChans 0x2325 // Indicates an array containing the names of the counter output physical channels available on the device.
#define DAQmx_Dev_CO_SupportedOutputTypes 0x2FD5 // Indicates the generation types supported by the physical channels of the device. Refer to Output Types for information on specific channels.
#define DAQmx_Dev_CO_SampClkSupported 0x2F5B // Indicates if the device supports Sample Clock timing for counter output tasks.
#define DAQmx_Dev_CO_SampModes 0x2FDF // Indicates sample modes supported by devices that support sample clocked counter output.
#define DAQmx_Dev_CO_TrigUsage 0x298B // Indicates the triggers supported by this device for counter output tasks.
#define DAQmx_Dev_CO_MaxSize 0x29A1 // Indicates in bits the size of the counters on the device.
#define DAQmx_Dev_CO_MaxTimebase 0x29A2 // Indicates in hertz the maximum counter timebase frequency.
#define DAQmx_Dev_TEDS_HWTEDSSupported 0x2FD6 // Indicates whether the device supports hardware TEDS.
#define DAQmx_Dev_NumDMAChans 0x233C // Indicates the number of DMA channels on the device.
#define DAQmx_Dev_BusType 0x2326 // Indicates the bus type of the device.
#define DAQmx_Dev_PCI_BusNum 0x2327 // Indicates the PCI bus number of the device.
#define DAQmx_Dev_PCI_DevNum 0x2328 // Indicates the PCI slot number of the device.
#define DAQmx_Dev_PXI_ChassisNum 0x2329 // Indicates the PXI chassis number of the device, as identified in MAX.
#define DAQmx_Dev_PXI_SlotNum 0x232A // Indicates the PXI slot number of the device.
#define DAQmx_Dev_CompactDAQ_ChassisDevName 0x29B7 // Indicates the name of the CompactDAQ chassis that contains this module.
#define DAQmx_Dev_CompactDAQ_SlotNum 0x29B8 // Indicates the slot number in which this module is located in the CompactDAQ chassis.
#define DAQmx_Dev_CompactRIO_ChassisDevName 0x3161 // Indicates the name of the CompactRIO chassis that contains this module.
#define DAQmx_Dev_CompactRIO_SlotNum 0x3162 // Indicates the slot number of the CompactRIO chassis where this module is located.
#define DAQmx_Dev_TCPIP_Hostname 0x2A8B // Indicates the IPv4 hostname of the device.
#define DAQmx_Dev_TCPIP_EthernetIP 0x2A8C // Indicates the IPv4 address of the Ethernet interface in dotted decimal format. This property returns 0.0.0.0 if the Ethernet interface cannot acquire an address.
#define DAQmx_Dev_TCPIP_WirelessIP 0x2A8D // Indicates the IPv4 address of the 802.11 wireless interface in dotted decimal format. This property returns 0.0.0.0 if the wireless interface cannot acquire an address.
#define DAQmx_Dev_Terminals 0x2A40 // Indicates a list of all terminals on the device.
#define DAQmx_Dev_NumTimeTrigs 0x3141 // Indicates the number of time triggers available on the device.
#define DAQmx_Dev_NumTimestampEngines 0x3142 // Indicates the number of timestamp engines available on the device.
//********** Export Signal Attributes **********
#define DAQmx_Exported_AIConvClk_OutputTerm 0x1687 // Specifies the terminal to which to route the AI Convert Clock.
#define DAQmx_Exported_AIConvClk_Pulse_Polarity 0x1688 // Indicates the polarity of the exported AI Convert Clock. The polarity is fixed and independent of the active edge of the source of the AI Convert Clock.
#define DAQmx_Exported_10MHzRefClk_OutputTerm 0x226E // Specifies the terminal to which to route the 10MHz Clock.
#define DAQmx_Exported_20MHzTimebase_OutputTerm 0x1657 // Specifies the terminal to which to route the 20MHz Timebase.
#define DAQmx_Exported_SampClk_OutputBehavior 0x186B // Specifies whether the exported Sample Clock issues a pulse at the beginning of a sample or changes to a high state for the duration of the sample.
#define DAQmx_Exported_SampClk_OutputTerm 0x1663 // Specifies the terminal to which to route the Sample Clock.
#define DAQmx_Exported_SampClk_DelayOffset 0x21C4 // Specifies in seconds the amount of time to offset the exported Sample clock. Refer to timing diagrams for generation applications in the device documentation for more information about this value.
#define DAQmx_Exported_SampClk_Pulse_Polarity 0x1664 // Specifies the polarity of the exported Sample Clock if Output Behavior is DAQmx_Val_Pulse.
#define DAQmx_Exported_SampClkTimebase_OutputTerm 0x18F9 // Specifies the terminal to which to route the Sample Clock Timebase.
#define DAQmx_Exported_DividedSampClkTimebase_OutputTerm 0x21A1 // Specifies the terminal to which to route the Divided Sample Clock Timebase.
#define DAQmx_Exported_AdvTrig_OutputTerm 0x1645 // Specifies the terminal to which to route the Advance Trigger.
#define DAQmx_Exported_AdvTrig_Pulse_Polarity 0x1646 // Indicates the polarity of the exported Advance Trigger.
#define DAQmx_Exported_AdvTrig_Pulse_WidthUnits 0x1647 // Specifies the units of Width Value.
#define DAQmx_Exported_AdvTrig_Pulse_Width 0x1648 // Specifies the width of an exported Advance Trigger pulse. Specify this value in the units you specify with Width Units.
#define DAQmx_Exported_PauseTrig_OutputTerm 0x1615 // Specifies the terminal to which to route the Pause Trigger.
#define DAQmx_Exported_PauseTrig_Lvl_ActiveLvl 0x1616 // Specifies the active level of the exported Pause Trigger.
#define DAQmx_Exported_RefTrig_OutputTerm 0x0590 // Specifies the terminal to which to route the Reference Trigger.
#define DAQmx_Exported_RefTrig_Pulse_Polarity 0x0591 // Specifies the polarity of the exported Reference Trigger.
#define DAQmx_Exported_StartTrig_OutputTerm 0x0584 // Specifies the terminal to which to route the Start Trigger.
#define DAQmx_Exported_StartTrig_Pulse_Polarity 0x0585 // Specifies the polarity of the exported Start Trigger.
#define DAQmx_Exported_AdvCmpltEvent_OutputTerm 0x1651 // Specifies the terminal to which to route the Advance Complete Event.
#define DAQmx_Exported_AdvCmpltEvent_Delay 0x1757 // Specifies the output signal delay in periods of the sample clock.
#define DAQmx_Exported_AdvCmpltEvent_Pulse_Polarity 0x1652 // Specifies the polarity of the exported Advance Complete Event.
#define DAQmx_Exported_AdvCmpltEvent_Pulse_Width 0x1654 // Specifies the width of the exported Advance Complete Event pulse.
#define DAQmx_Exported_AIHoldCmpltEvent_OutputTerm 0x18ED // Specifies the terminal to which to route the AI Hold Complete Event.
#define DAQmx_Exported_AIHoldCmpltEvent_PulsePolarity 0x18EE // Specifies the polarity of an exported AI Hold Complete Event pulse.
#define DAQmx_Exported_ChangeDetectEvent_OutputTerm 0x2197 // Specifies the terminal to which to route the Change Detection Event.
#define DAQmx_Exported_ChangeDetectEvent_Pulse_Polarity 0x2303 // Specifies the polarity of an exported Change Detection Event pulse.
#define DAQmx_Exported_CtrOutEvent_OutputTerm 0x1717 // Specifies the terminal to which to route the Counter Output Event.
#define DAQmx_Exported_CtrOutEvent_OutputBehavior 0x174F // Specifies whether the exported Counter Output Event pulses or changes from one state to the other when the counter reaches terminal count.
#define DAQmx_Exported_CtrOutEvent_Pulse_Polarity 0x1718 // Specifies the polarity of the pulses at the output terminal of the counter when Output Behavior is DAQmx_Val_Pulse. NI-DAQmx ignores this property if Output Behavior is DAQmx_Val_Toggle.
#define DAQmx_Exported_CtrOutEvent_Toggle_IdleState 0x186A // Specifies the initial state of the output terminal of the counter when Output Behavior is DAQmx_Val_Toggle. The terminal enters this state when NI-DAQmx commits the task.
#define DAQmx_Exported_HshkEvent_OutputTerm 0x22BA // Specifies the terminal to which to route the Handshake Event.
#define DAQmx_Exported_HshkEvent_OutputBehavior 0x22BB // Specifies the output behavior of the Handshake Event.
#define DAQmx_Exported_HshkEvent_Delay 0x22BC // Specifies the number of seconds to delay after the Handshake Trigger deasserts before asserting the Handshake Event.
#define DAQmx_Exported_HshkEvent_Interlocked_AssertedLvl 0x22BD // Specifies the asserted level of the exported Handshake Event if Output Behavior is DAQmx_Val_Interlocked.
#define DAQmx_Exported_HshkEvent_Interlocked_AssertOnStart 0x22BE // Specifies to assert the Handshake Event when the task starts if Output Behavior is DAQmx_Val_Interlocked.
#define DAQmx_Exported_HshkEvent_Interlocked_DeassertDelay 0x22BF // Specifies in seconds the amount of time to wait after the Handshake Trigger asserts before deasserting the Handshake Event if Output Behavior is DAQmx_Val_Interlocked.
#define DAQmx_Exported_HshkEvent_Pulse_Polarity 0x22C0 // Specifies the polarity of the exported Handshake Event if Output Behavior is DAQmx_Val_Pulse.
#define DAQmx_Exported_HshkEvent_Pulse_Width 0x22C1 // Specifies in seconds the pulse width of the exported Handshake Event if Output Behavior is DAQmx_Val_Pulse.
#define DAQmx_Exported_RdyForXferEvent_OutputTerm 0x22B5 // Specifies the terminal to which to route the Ready for Transfer Event.
#define DAQmx_Exported_RdyForXferEvent_Lvl_ActiveLvl 0x22B6 // Specifies the active level of the exported Ready for Transfer Event.
#define DAQmx_Exported_RdyForXferEvent_DeassertCond 0x2963 // Specifies when the ready for transfer event deasserts.
#define DAQmx_Exported_RdyForXferEvent_DeassertCondCustomThreshold 0x2964 // Specifies in samples the threshold below which the Ready for Transfer Event deasserts. This threshold is an amount of space available in the onboard memory of the device. Deassert Condition must be DAQmx_Val_OnbrdMemCustomThreshold to use a custom threshold.
#define DAQmx_Exported_DataActiveEvent_OutputTerm 0x1633 // Specifies the terminal to which to export the Data Active Event.
#define DAQmx_Exported_DataActiveEvent_Lvl_ActiveLvl 0x1634 // Specifies the polarity of the exported Data Active Event.
#define DAQmx_Exported_RdyForStartEvent_OutputTerm 0x1609 // Specifies the terminal to which to route the Ready for Start Event.
#define DAQmx_Exported_RdyForStartEvent_Lvl_ActiveLvl 0x1751 // Specifies the polarity of the exported Ready for Start Event.
#define DAQmx_Exported_SyncPulseEvent_OutputTerm 0x223C // Specifies the terminal to which to route the Synchronization Pulse Event.
#define DAQmx_Exported_WatchdogExpiredEvent_OutputTerm 0x21AA // Specifies the terminal to which to route the Watchdog Timer Expired Event.
//********** Persisted Channel Attributes **********
#define DAQmx_PersistedChan_Author 0x22D0 // Indicates the author of the global channel.
#define DAQmx_PersistedChan_AllowInteractiveEditing 0x22D1 // Indicates whether the global channel can be edited in the DAQ Assistant.
#define DAQmx_PersistedChan_AllowInteractiveDeletion 0x22D2 // Indicates whether the global channel can be deleted through MAX.
//********** Persisted Scale Attributes **********
#define DAQmx_PersistedScale_Author 0x22D4 // Indicates the author of the custom scale.
#define DAQmx_PersistedScale_AllowInteractiveEditing 0x22D5 // Indicates whether the custom scale can be edited in the DAQ Assistant.
#define DAQmx_PersistedScale_AllowInteractiveDeletion 0x22D6 // Indicates whether the custom scale can be deleted through MAX.
//********** Persisted Task Attributes **********
#define DAQmx_PersistedTask_Author 0x22CC // Indicates the author of the task.
#define DAQmx_PersistedTask_AllowInteractiveEditing 0x22CD // Indicates whether the task can be edited in the DAQ Assistant.
#define DAQmx_PersistedTask_AllowInteractiveDeletion 0x22CE // Indicates whether the task can be deleted through MAX.
//********** Physical Channel Attributes **********
#define DAQmx_PhysicalChan_AI_SupportedMeasTypes 0x2FD7 // Indicates the measurement types supported by the channel.
#define DAQmx_PhysicalChan_AI_TermCfgs 0x2342 // Indicates the list of terminal configurations supported by the channel.
#define DAQmx_PhysicalChan_AI_InputSrcs 0x2FD8 // Indicates the list of input sources supported by the channel. Channels may support using the signal from the I/O connector or one of several calibration signals.
#define DAQmx_PhysicalChan_AI_SensorPower_Types 0x3179 // Indicates the types of power supplied to the sensor supported by this channel.
#define DAQmx_PhysicalChan_AI_SensorPower_VoltageRangeVals 0x317A // Indicates pairs of sensor power voltage ranges supported by this channel. Each pair consists of the low value followed by the high value.
#define DAQmx_PhysicalChan_AI_PowerControl_Voltage 0x316C // Specifies the voltage level for the sensor's power supply.
#define DAQmx_PhysicalChan_AI_PowerControl_Enable 0x316D // Specifies whether to turn on the sensor's power supply.
#define DAQmx_PhysicalChan_AI_PowerControl_Type 0x316E // Specifies the type of power supplied to the sensor.
#define DAQmx_PhysicalChan_AI_SensorPower_OpenChan 0x317C // Indicates whether there is an open channel or undercurrent condition on the channel.
#define DAQmx_PhysicalChan_AI_SensorPower_Overcurrent 0x317D // Indicates whether there is an overcurrent condition on the channel.
#define DAQmx_PhysicalChan_AO_SupportedOutputTypes 0x2FD9 // Indicates the output types supported by the channel.
#define DAQmx_PhysicalChan_AO_SupportedPowerUpOutputTypes 0x304E // Indicates the power up output types supported by the channel.
#define DAQmx_PhysicalChan_AO_TermCfgs 0x29A3 // Indicates the list of terminal configurations supported by the channel.
#define DAQmx_PhysicalChan_AO_ManualControlEnable 0x2A1E // Specifies if you can control the physical channel externally via a manual control located on the device. You cannot simultaneously control a channel manually and with NI-DAQmx.
#define DAQmx_PhysicalChan_AO_ManualControl_ShortDetected 0x2EC3 // Indicates whether the physical channel is currently disabled due to a short detected on the channel.
#define DAQmx_PhysicalChan_AO_ManualControlAmplitude 0x2A1F // Indicates the current value of the front panel amplitude control for the physical channel in volts.
#define DAQmx_PhysicalChan_AO_ManualControlFreq 0x2A20 // Indicates the current value of the front panel frequency control for the physical channel in hertz.
#define DAQmx_AO_PowerAmp_ChannelEnable 0x3062 // Specifies whether to enable or disable a channel for amplification. This property can also be used to check if a channel is enabled.
#define DAQmx_AO_PowerAmp_ScalingCoeff 0x3063 // Indicates the coefficients of a polynomial equation used to scale from pre-amplified values.
#define DAQmx_AO_PowerAmp_Overcurrent 0x3064 // Indicates if the channel detected an overcurrent condition.
#define DAQmx_AO_PowerAmp_Gain 0x3065 // Indicates the calibrated gain of the channel.
#define DAQmx_AO_PowerAmp_Offset 0x3066 // Indicates the calibrated offset of the channel in volts.
#define DAQmx_PhysicalChan_DI_PortWidth 0x29A4 // Indicates in bits the width of digital input port.
#define DAQmx_PhysicalChan_DI_SampClkSupported 0x29A5 // Indicates if the sample clock timing type is supported for the digital input physical channel.
#define DAQmx_PhysicalChan_DI_SampModes 0x2FE0 // Indicates the sample modes supported by devices that support sample clocked digital input.
#define DAQmx_PhysicalChan_DI_ChangeDetectSupported 0x29A6 // Indicates if the change detection timing type is supported for the digital input physical channel.
#define DAQmx_PhysicalChan_DO_PortWidth 0x29A7 // Indicates in bits the width of digital output port.
#define DAQmx_PhysicalChan_DO_SampClkSupported 0x29A8 // Indicates if the sample clock timing type is supported for the digital output physical channel.
#define DAQmx_PhysicalChan_DO_SampModes 0x2FE1 // Indicates the sample modes supported by devices that support sample clocked digital output.
#define DAQmx_PhysicalChan_CI_SupportedMeasTypes 0x2FDA // Indicates the measurement types supported by the channel.
#define DAQmx_PhysicalChan_CO_SupportedOutputTypes 0x2FDB // Indicates the output types supported by the channel.
#define DAQmx_PhysicalChan_TEDS_MfgID 0x21DA // Indicates the manufacturer ID of the sensor.
#define DAQmx_PhysicalChan_TEDS_ModelNum 0x21DB // Indicates the model number of the sensor.
#define DAQmx_PhysicalChan_TEDS_SerialNum 0x21DC // Indicates the serial number of the sensor.
#define DAQmx_PhysicalChan_TEDS_VersionNum 0x21DD // Indicates the version number of the sensor.
#define DAQmx_PhysicalChan_TEDS_VersionLetter 0x21DE // Indicates the version letter of the sensor.
#define DAQmx_PhysicalChan_TEDS_BitStream 0x21DF // Indicates the TEDS binary bitstream without checksums.
#define DAQmx_PhysicalChan_TEDS_TemplateIDs 0x228F // Indicates the IDs of the templates in the bitstream in BitStream.
//********** Read Attributes **********
#define DAQmx_Read_RelativeTo 0x190A // Specifies the point in the buffer at which to begin a read operation. If you also specify an offset with Offset, the read operation begins at that offset relative to the point you select with this property. The default value is DAQmx_Val_CurrReadPos unless you configure a Reference Trigger for the task. If you configure a Reference Trigger, the default value is DAQmx_Val_FirstPretrigSamp.
#define DAQmx_Read_Offset 0x190B // Specifies an offset in samples per channel at which to begin a read operation. This offset is relative to the location you specify with RelativeTo.
#define DAQmx_Read_ChannelsToRead 0x1823 // Specifies a subset of channels in the task from which to read.
#define DAQmx_Read_ReadAllAvailSamp 0x1215 // Specifies whether subsequent read operations read all samples currently available in the buffer or wait for the buffer to become full before reading. NI-DAQmx uses this setting for finite acquisitions and only when the number of samples to read is -1. For continuous acquisitions when the number of samples to read is -1, a read operation always reads all samples currently available in the buffer.
#define DAQmx_Read_AutoStart 0x1826 // Specifies if an NI-DAQmx Read function automatically starts the task if you did not start the task explicitly by using DAQmxStartTask(). The default value is TRUE. When an NI-DAQmx Read function starts a finite acquisition task, it also stops the task after reading the last sample.
#define DAQmx_Read_OverWrite 0x1211 // Specifies whether to overwrite samples in the buffer that you have not yet read.
#define DAQmx_Logging_FilePath 0x2EC4 // Specifies the path to the TDMS file to which you want to log data. If the file path is changed while the task is running, this takes effect on the next sample interval (if Logging.SampsPerFile has been set) or when DAQmx Start New File is called. New file paths can be specified by ending with "\" or "/". Files created after specifying a new file path retain the same name and numbering sequence.
#define DAQmx_Logging_Mode 0x2EC5 // Specifies whether to enable logging and whether to allow reading data while logging. Log mode allows for the best performance. However, you cannot read data while logging if you specify this mode. If you want to read data while logging, specify Log and Read mode.
#define DAQmx_Logging_TDMS_GroupName 0x2EC6 // Specifies the name of the group to create within the TDMS file for data from this task. If you append data to an existing file and the specified group already exists, NI-DAQmx appends a number symbol and a number to the group name, incrementing that number until finding a group name that does not exist. For example, if you specify a group name of Voltage Task, and that group already exists, NI-DAQmx assigns the gr...
#define DAQmx_Logging_TDMS_Operation 0x2EC7 // Specifies how to open the TDMS file.
#define DAQmx_Logging_Pause 0x2FE3 // Specifies whether logging is paused while a task is executing. If Mode is set to Log and Read mode, this value is taken into consideration on the next call to DAQmx Read, where data is written to disk. If Mode is set to Log Only mode, this value is taken into consideration the next time that data is written to disk. A new TDMS group is written when logging is resumed from a paused state.
#define DAQmx_Logging_SampsPerFile 0x2FE4 // Specifies how many samples to write to each file. When the file reaches the number of samples specified, a new file is created with the naming convention of <filename>_####.tdms, where #### starts at 0001 and increments automatically with each new file. For example, if the file specified is C:\data.tdms, the next file name used is C:\data_0001.tdms. To disable file spanning behavior, set this attribute to ...
#define DAQmx_Logging_FileWriteSize 0x2FC3 // Specifies the size, in samples, in which data will be written to disk. The size must be evenly divisible by the volume sector size, in bytes.
#define DAQmx_Logging_FilePreallocationSize 0x2FC6 // Specifies a size in samples to be used to pre-allocate space on disk. Pre-allocation can improve file I/O performance, especially in situations where multiple files are being written to disk. For finite tasks, the default behavior is to pre-allocate the file based on the number of samples you configure the task to acquire.
#define DAQmx_Read_CurrReadPos 0x1221 // Indicates in samples per channel the current position in the buffer.
#define DAQmx_Read_AvailSampPerChan 0x1223 // Indicates the number of samples available to read per channel. This value is the same for all channels in the task.
#define DAQmx_Read_TotalSampPerChanAcquired 0x192A // Indicates the total number of samples acquired by each channel. NI-DAQmx returns a single value because this value is the same for all channels. For retriggered acquisitions, this value is the cumulative number of samples across all retriggered acquisitions.
#define DAQmx_Read_CommonModeRangeErrorChansExist 0x2A98 // Indicates if the device(s) detected a common mode range violation for any virtual channel in the task. Common mode range violation occurs when the voltage of either the positive terminal or negative terminal to ground are out of range. Reading this property clears the common mode range violation status for all channels in the task. You must read this property before you read Common Mode Range Error Channels. Other...
#define DAQmx_Read_CommonModeRangeErrorChans 0x2A99 // Indicates a list of names of any virtual channels in the task for which the device(s) detected a common mode range violation. You must read Common Mode Range Error Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Read_ExcitFaultChansExist 0x3088 // Indicates if the device(s) detected an excitation fault condition for any virtual channel in the task. Reading this property clears the excitation fault status for all channels in the task. You must read this property before you read Excitation Fault Channels. Otherwise, you will receive an error.
#define DAQmx_Read_ExcitFaultChans 0x3089 // Indicates a list of names of any virtual channels in the task for which the device(s) detected an excitation fault condition. You must read Excitation Fault Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Read_OvercurrentChansExist 0x29E6 // Indicates if the device(s) detected an overcurrent condition for any virtual channel in the task. Reading this property clears the overcurrent status for all channels in the task. You must read this property before you read Overcurrent Channels. Otherwise, you will receive an error.
#define DAQmx_Read_OvercurrentChans 0x29E7 // Indicates a list of names of any virtual channels in the task for which the device(s) detected an overcurrent condition. You must read Overcurrent Channels Exist before you read this property. Otherwise, you will receive an error. On some devices, you must restart the task for all overcurrent channels to recover.
#define DAQmx_Read_OvertemperatureChansExist 0x3081 // Indicates if the device(s) detected an overtemperature condition in any virtual channel in the task. Reading this property clears the overtemperature status for all channels in the task. You must read this property before you read Overtemperature Channels. Otherwise, you will receive an error.
#define DAQmx_Read_OvertemperatureChans 0x3082 // Indicates a list of names of any overtemperature virtual channels. You must read Overtemperature Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Read_OpenChansExist 0x3100 // Indicates if the device or devices detected an open channel condition in any virtual channel in the task. Reading this property clears the open channel status for all channels in this task. You must read this property before you read Open Channels. Otherwise, you will receive an error.
#define DAQmx_Read_OpenChans 0x3101 // Indicates a list of names of any open virtual channels. You must read Open Channels Exist before you read this property. Otherwise you will receive an error.
#define DAQmx_Read_OpenChansDetails 0x3102 // Indicates a list of details of any open virtual channels. You must read Open Channels Exist before you read this property. Otherwise you will receive an error.
#define DAQmx_Read_OpenCurrentLoopChansExist 0x2A09 // Indicates if the device(s) detected an open current loop for any virtual channel in the task. Reading this property clears the open current loop status for all channels in the task. You must read this property before you read Open Current Loop Channels. Otherwise, you will receive an error.
#define DAQmx_Read_OpenCurrentLoopChans 0x2A0A // Indicates a list of names of any virtual channels in the task for which the device(s) detected an open current loop. You must read Open Current Loop Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Read_OpenThrmcplChansExist 0x2A96 // Indicates if the device(s) detected an open thermocouple connected to any virtual channel in the task. Reading this property clears the open thermocouple status for all channels in the task. You must read this property before you read Open Thermocouple Channels. Otherwise, you will receive an error.
#define DAQmx_Read_OpenThrmcplChans 0x2A97 // Indicates a list of names of any virtual channels in the task for which the device(s) detected an open thermcouple. You must read Open Thermocouple Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Read_OverloadedChansExist 0x2174 // Indicates if the device(s) detected an overload in any virtual channel in the task. Reading this property clears the overload status for all channels in the task. You must read this property before you read Overloaded Channels. Otherwise, you will receive an error.
#define DAQmx_Read_OverloadedChans 0x2175 // Indicates a list of names of any overloaded virtual channels in the task. You must read Overloaded Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Read_InputLimitsFaultChansExist 0x318F // Indicates if the device or devices detected a sample that was outside the upper or lower limits configured for each channel in the task. Reading this property clears the input limits fault channel status for all channels in the task. You must read this property before you read Input Limits Fault Channels. Otherwise, you will receive an error. Note: Fault detection applies to both positive and negative inputs. For ...
#define DAQmx_Read_InputLimitsFaultChans 0x3190 // Indicates the virtual channels that have detected samples outside the upper or lower limits configured for each channel in the task. You must read Input Limits Fault Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Read_PLL_UnlockedChansExist 0x3118 // Indicates whether the PLL is currently locked, or whether it became unlocked during the previous acquisition. Devices may report PLL Unlock either during acquisition or after acquisition.
#define DAQmx_Read_PLL_UnlockedChans 0x3119 // Indicates the channels that had their PLLs unlock.
#define DAQmx_Read_PowerSupplyFaultChansExist 0x3192 // Indicates if the device or devices detected a power supply fault condition in any virtual channel in the task. Reading this property clears the power supply fault status for all channels in this task. You must read this property before you read Power Supply Fault Channels. Otherwise, you will receive an error.
#define DAQmx_Read_PowerSupplyFaultChans 0x3193 // Indicates the virtual channels that have detected a power supply fault. You must read Power Supply Fault Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Read_Sync_UnlockedChansExist 0x313D // Indicates whether the target is currently locked to the grand master. Devices may report PLL Unlock either during acquisition or after acquisition.
#define DAQmx_Read_Sync_UnlockedChans 0x313E // Indicates the channels from devices in an unlocked target.
#define DAQmx_Read_AccessoryInsertionOrRemovalDetected 0x2F70 // Indicates if any device(s) in the task detected the insertion or removal of an accessory since the task started. Reading this property clears the accessory change status for all channels in the task. You must read this property before you read Devices with Inserted or Removed Accessories. Otherwise, you will receive an error.
#define DAQmx_Read_DevsWithInsertedOrRemovedAccessories 0x2F71 // Indicates the names of any devices that detected the insertion or removal of an accessory since the task started. You must read Accessory Insertion or Removal Detected before you read this property. Otherwise, you will receive an error.
#define DAQmx_Read_ChangeDetect_HasOverflowed 0x2194 // Indicates if samples were missed because change detection events occurred faster than the device could handle them. Some devices detect overflows differently than others.
#define DAQmx_Read_RawDataWidth 0x217A // Indicates in bytes the size of a raw sample from the task.
#define DAQmx_Read_NumChans 0x217B // Indicates the number of channels that an NI-DAQmx Read function reads from the task. This value is the number of channels in the task or the number of channels you specify with Channels to Read.
#define DAQmx_Read_DigitalLines_BytesPerChan 0x217C // Indicates the number of bytes per channel that NI-DAQmx returns in a sample for line-based reads. If a channel has fewer lines than this number, the extra bytes are FALSE.
#define DAQmx_Read_WaitMode 0x2232 // Specifies how an NI-DAQmx Read function waits for samples to become available.
#define DAQmx_Read_SleepTime 0x22B0 // Specifies in seconds the amount of time to sleep after checking for available samples if Wait Mode is DAQmx_Val_Sleep.
//********** Real-Time Attributes **********
#define DAQmx_RealTime_ConvLateErrorsToWarnings 0x22EE // Specifies if DAQmxWaitForNextSampleClock(), an NI-DAQmx Read function, and an NI-DAQmx Write function convert late errors to warnings. NI-DAQmx returns no late warnings or errors until the number of warmup iterations you specify with Number Of Warmup Iterations execute.
#define DAQmx_RealTime_NumOfWarmupIters 0x22ED // Specifies the number of loop iterations that must occur before DAQmxWaitForNextSampleClock() and an NI-DAQmx Read function return any late warnings or errors. The system needs a number of iterations to stabilize. During this period, a large amount of jitter occurs, potentially causing reads and writes to be late. The default number of warmup iterations is 100. Specify a larger number if needed to stabilize the sys...
#define DAQmx_RealTime_WaitForNextSampClkWaitMode 0x22EF // Specifies how DAQmxWaitForNextSampleClock() waits for the next Sample Clock pulse.
#define DAQmx_RealTime_ReportMissedSamp 0x2319 // Specifies whether an NI-DAQmx Read function returns lateness errors or warnings when it detects missed Sample Clock pulses. This setting does not affect DAQmxWaitForNextSampleClock(). Set this property to TRUE for applications that need to detect lateness without using DAQmxWaitForNextSampleClock().
#define DAQmx_RealTime_WriteRecoveryMode 0x231A // Specifies how NI-DAQmx attempts to recover after missing a Sample Clock pulse when performing counter writes.
//********** Scale Attributes **********
#define DAQmx_Scale_Descr 0x1226 // Specifies a description for the scale.
#define DAQmx_Scale_ScaledUnits 0x191B // Specifies the units to use for scaled values. You can use an arbitrary string.
#define DAQmx_Scale_PreScaledUnits 0x18F7 // Specifies the units of the values that you want to scale.
#define DAQmx_Scale_Type 0x1929 // Indicates the method or equation form that the custom scale uses.
#define DAQmx_Scale_Lin_Slope 0x1227 // Specifies the slope, m, in the equation y=mx+b.
#define DAQmx_Scale_Lin_YIntercept 0x1228 // Specifies the y-intercept, b, in the equation y=mx+b.
#define DAQmx_Scale_Map_ScaledMax 0x1229 // Specifies the largest value in the range of scaled values. NI-DAQmx maps this value to Pre-Scaled Maximum Value. Reads coerce samples that are larger than this value to match this value. Writes generate errors for samples that are larger than this value.
#define DAQmx_Scale_Map_PreScaledMax 0x1231 // Specifies the largest value in the range of pre-scaled values. NI-DAQmx maps this value to Scaled Maximum Value.
#define DAQmx_Scale_Map_ScaledMin 0x1230 // Specifies the smallest value in the range of scaled values. NI-DAQmx maps this value to Pre-Scaled Minimum Value. Reads coerce samples that are smaller than this value to match this value. Writes generate errors for samples that are smaller than this value.
#define DAQmx_Scale_Map_PreScaledMin 0x1232 // Specifies the smallest value in the range of pre-scaled values. NI-DAQmx maps this value to Scaled Minimum Value.
#define DAQmx_Scale_Poly_ForwardCoeff 0x1234 // Specifies an array of coefficients for the polynomial that converts pre-scaled values to scaled values. Each element of the array corresponds to a term of the equation. For example, if index three of the array is 9, the fourth term of the equation is 9x^3.
#define DAQmx_Scale_Poly_ReverseCoeff 0x1235 // Specifies an array of coefficients for the polynomial that converts scaled values to pre-scaled values. Each element of the array corresponds to a term of the equation. For example, if index three of the array is 9, the fourth term of the equation is 9y^3.
#define DAQmx_Scale_Table_ScaledVals 0x1236 // Specifies an array of scaled values. These values map directly to the values in Pre-Scaled Values.
#define DAQmx_Scale_Table_PreScaledVals 0x1237 // Specifies an array of pre-scaled values. These values map directly to the values in Scaled Values.
//********** Switch Channel Attributes **********
#define DAQmx_SwitchChan_Usage 0x18E4 // (Deprecated) Specifies how you can use the channel. Using this property acts as a safety mechanism to prevent you from connecting two source channels, for example.
#define DAQmx_SwitchChan_AnlgBusSharingEnable 0x2F9E // (Deprecated) Specifies whether to enable sharing of an analog bus line so that multiple switch devices can connect to it simultaneously. For each device that will share the analog bus line, set this property to TRUE to enable sharing on the channel that connects to the analog bus line. Analog bus sharing is disabled by default.
#define DAQmx_SwitchChan_MaxACCarryCurrent 0x0648 // (Deprecated) Indicates in amperes the maximum AC current that the device can carry.
#define DAQmx_SwitchChan_MaxACSwitchCurrent 0x0646 // (Deprecated) Indicates in amperes the maximum AC current that the device can switch. This current is always against an RMS voltage level.
#define DAQmx_SwitchChan_MaxACCarryPwr 0x0642 // (Deprecated) Indicates in watts the maximum AC power that the device can carry.
#define DAQmx_SwitchChan_MaxACSwitchPwr 0x0644 // (Deprecated) Indicates in watts the maximum AC power that the device can switch.
#define DAQmx_SwitchChan_MaxDCCarryCurrent 0x0647 // (Deprecated) Indicates in amperes the maximum DC current that the device can carry.
#define DAQmx_SwitchChan_MaxDCSwitchCurrent 0x0645 // (Deprecated) Indicates in amperes the maximum DC current that the device can switch. This current is always against a DC voltage level.
#define DAQmx_SwitchChan_MaxDCCarryPwr 0x0643 // (Deprecated) Indicates in watts the maximum DC power that the device can carry.
#define DAQmx_SwitchChan_MaxDCSwitchPwr 0x0649 // (Deprecated) Indicates in watts the maximum DC power that the device can switch.
#define DAQmx_SwitchChan_MaxACVoltage 0x0651 // (Deprecated) Indicates in volts the maximum AC RMS voltage that the device can switch.
#define DAQmx_SwitchChan_MaxDCVoltage 0x0650 // (Deprecated) Indicates in volts the maximum DC voltage that the device can switch.
#define DAQmx_SwitchChan_WireMode 0x18E5 // (Deprecated) Indicates the number of wires that the channel switches.
#define DAQmx_SwitchChan_Bandwidth 0x0640 // (Deprecated) Indicates in Hertz the maximum frequency of a signal that can pass through the switch without significant deterioration.
#define DAQmx_SwitchChan_Impedance 0x0641 // (Deprecated) Indicates in ohms the switch impedance. This value is important in the RF domain and should match the impedance of the sources and loads.
//********** Switch Device Attributes **********
#define DAQmx_SwitchDev_SettlingTime 0x1244 // (Deprecated) Specifies in seconds the amount of time to wait for the switch to settle (or debounce). NI-DAQmx adds this time to the settling time of the motherboard. Modify this property only if the switch does not settle within the settling time of the motherboard. Refer to device documentation for supported settling times.
#define DAQmx_SwitchDev_AutoConnAnlgBus 0x17DA // (Deprecated) Specifies if NI-DAQmx routes multiplexed channels to the analog bus backplane. Only the SCXI-1127 and SCXI-1128 support this property.
#define DAQmx_SwitchDev_PwrDownLatchRelaysAfterSettling 0x22DB // (Deprecated) Specifies if DAQmxSwitchWaitForSettling() powers down latching relays after waiting for the device to settle.
#define DAQmx_SwitchDev_Settled 0x1243 // (Deprecated) Indicates when Settling Time expires.
#define DAQmx_SwitchDev_RelayList 0x17DC // (Deprecated) Indicates a comma-delimited list of relay names.
#define DAQmx_SwitchDev_NumRelays 0x18E6 // (Deprecated) Indicates the number of relays on the device. This value matches the number of relay names in Relay List.
#define DAQmx_SwitchDev_SwitchChanList 0x18E7 // (Deprecated) Indicates a comma-delimited list of channel names for the current topology of the device.
#define DAQmx_SwitchDev_NumSwitchChans 0x18E8 // (Deprecated) Indicates the number of switch channels for the current topology of the device. This value matches the number of channel names in Switch Channel List.
#define DAQmx_SwitchDev_NumRows 0x18E9 // (Deprecated) Indicates the number of rows on a device in a matrix switch topology. Indicates the number of multiplexed channels on a device in a mux topology.
#define DAQmx_SwitchDev_NumColumns 0x18EA // (Deprecated) Indicates the number of columns on a device in a matrix switch topology. This value is always 1 if the device is in a mux topology.
#define DAQmx_SwitchDev_Topology 0x193D // (Deprecated) Indicates the current topology of the device. This value is one of the topology options in DAQmxSwitchSetTopologyAndReset().
#define DAQmx_SwitchDev_Temperature 0x301A // (Deprecated) Indicates the current temperature as read by the Switch module in degrees Celsius. Refer to your device documentation for more information.
//********** Switch Scan Attributes **********
#define DAQmx_SwitchScan_BreakMode 0x1247 // (Deprecated) Specifies the action to take between each entry in a scan list.
#define DAQmx_SwitchScan_RepeatMode 0x1248 // (Deprecated) Specifies if the task advances through the scan list multiple times.
#define DAQmx_SwitchScan_WaitingForAdv 0x17D9 // (Deprecated) Indicates if the switch hardware is waiting for an Advance Trigger. If the hardware is waiting, it completed the previous entry in the scan list.
//********** System Attributes **********
#define DAQmx_Sys_GlobalChans 0x1265 // Indicates an array that contains the names of all global channels saved on the system.
#define DAQmx_Sys_Scales 0x1266 // Indicates an array that contains the names of all custom scales saved on the system.
#define DAQmx_Sys_Tasks 0x1267 // Indicates an array that contains the names of all tasks saved on the system.
#define DAQmx_Sys_DevNames 0x193B // Indicates the names of all devices installed in the system.
#define DAQmx_Sys_NIDAQMajorVersion 0x1272 // Indicates the major portion of the installed version of NI-DAQmx, such as 7 for version 7.0.
#define DAQmx_Sys_NIDAQMinorVersion 0x1923 // Indicates the minor portion of the installed version of NI-DAQmx, such as 0 for version 7.0.
#define DAQmx_Sys_NIDAQUpdateVersion 0x2F22 // Indicates the update portion of the installed version of NI-DAQmx, such as 1 for version 9.0.1.
//********** Task Attributes **********
#define DAQmx_Task_Name 0x1276 // Indicates the name of the task.
#define DAQmx_Task_Channels 0x1273 // Indicates the names of all virtual channels in the task.
#define DAQmx_Task_NumChans 0x2181 // Indicates the number of virtual channels in the task.
#define DAQmx_Task_Devices 0x230E // Indicates an array containing the names of all devices in the task.
#define DAQmx_Task_NumDevices 0x29BA // Indicates the number of devices in the task.
#define DAQmx_Task_Complete 0x1274 // Indicates whether the task completed execution.
//********** Timing Attributes **********
#define DAQmx_SampQuant_SampMode 0x1300 // Specifies if a task acquires or generates a finite number of samples or if it continuously acquires or generates samples.
#define DAQmx_SampQuant_SampPerChan 0x1310 // Specifies the number of samples to acquire or generate for each channel if Sample Mode is DAQmx_Val_FiniteSamps. If Sample Mode is DAQmx_Val_ContSamps, NI-DAQmx uses this value to determine the buffer size.
#define DAQmx_SampTimingType 0x1347 // Specifies the type of sample timing to use for the task.
#define DAQmx_SampClk_Rate 0x1344 // Specifies the sampling rate in samples per channel per second. If you use an external source for the Sample Clock, set this input to the maximum expected rate of that clock.
#define DAQmx_SampClk_MaxRate 0x22C8 // Indicates the maximum Sample Clock rate supported by the task, based on other timing settings. For output tasks, the maximum Sample Clock rate is the maximum rate of the DAC. For input tasks, NI-DAQmx calculates the maximum sampling rate differently for multiplexed devices than simultaneous sampling devices.
#define DAQmx_SampClk_Src 0x1852 // Specifies the terminal of the signal to use as the Sample Clock.
#define DAQmx_SampClk_ActiveEdge 0x1301 // Specifies on which edge of a clock pulse sampling takes place. This property is useful primarily when the signal you use as the Sample Clock is not a periodic clock.
#define DAQmx_SampClk_OverrunBehavior 0x2EFC // Specifies the action to take if Sample Clock edges occur faster than the device can handle them.
#define DAQmx_SampClk_UnderflowBehavior 0x2961 // Specifies the action to take when the onboard memory of the device becomes empty. In either case, the sample clock does not stop.
#define DAQmx_SampClk_TimebaseDiv 0x18EB // Specifies the number of Sample Clock Timebase pulses needed to produce a single Sample Clock pulse.
#define DAQmx_SampClk_Term 0x2F1B // Indicates the name of the internal Sample Clock terminal for the task. This property does not return the name of the Sample Clock source terminal specified with Source.
#define DAQmx_SampClk_Timebase_Rate 0x1303 // Specifies the rate of the Sample Clock Timebase. Some applications require that you specify a rate when you use any signal other than the onboard Sample Clock Timebase. NI-DAQmx requires this rate to calculate other timing parameters.
#define DAQmx_SampClk_Timebase_Src 0x1308 // Specifies the terminal of the signal to use as the Sample Clock Timebase.
#define DAQmx_SampClk_Timebase_ActiveEdge 0x18EC // Specifies on which edge to recognize a Sample Clock Timebase pulse. This property is useful primarily when the signal you use as the Sample Clock Timebase is not a periodic clock.
#define DAQmx_SampClk_Timebase_MasterTimebaseDiv 0x1305 // Specifies the number of pulses of the Master Timebase needed to produce a single pulse of the Sample Clock Timebase.
#define DAQmx_SampClkTimebase_Term 0x2F1C // Indicates the name of the internal Sample Clock Timebase terminal for the task. This property does not return the name of the Sample Clock Timebase source terminal specified with Source.
#define DAQmx_SampClk_DigFltr_Enable 0x221E // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_SampClk_DigFltr_MinPulseWidth 0x221F // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_SampClk_DigFltr_TimebaseSrc 0x2220 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_SampClk_DigFltr_TimebaseRate 0x2221 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_SampClk_DigSync_Enable 0x2222 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_SampClk_WriteWfm_UseInitialWfmDT 0x30FC // Specifies that the value of Rate will be determined by the dt component of the initial DAQmx Write waveform input for Output tasks.
#define DAQmx_Hshk_DelayAfterXfer 0x22C2 // Specifies the number of seconds to wait after a handshake cycle before starting a new handshake cycle.
#define DAQmx_Hshk_StartCond 0x22C3 // Specifies the point in the handshake cycle that the device is in when the task starts.
#define DAQmx_Hshk_SampleInputDataWhen 0x22C4 // Specifies on which edge of the Handshake Trigger an input task latches the data from the peripheral device.
#define DAQmx_ChangeDetect_DI_RisingEdgePhysicalChans 0x2195 // Specifies the names of the digital lines or ports on which to detect rising edges. The lines or ports must be used by virtual channels in the task. You also can specify a string that contains a list or range of digital lines or ports.
#define DAQmx_ChangeDetect_DI_FallingEdgePhysicalChans 0x2196 // Specifies the names of the digital lines or ports on which to detect falling edges. The lines or ports must be used by virtual channels in the task. You also can specify a string that contains a list or range of digital lines or ports.
#define DAQmx_ChangeDetect_DI_Tristate 0x2EFA // Specifies whether to tristate lines specified with Rising Edge Physical Channels and Falling Edge Physical Channels that are not in a virtual channel in the task. If you set this property to TRUE, NI-DAQmx tristates rising/falling edge lines that are not in a virtual channel in the task. If you set this property to FALSE, NI-DAQmx does not modify the configuration of rising/falling edge lines that are not in a vir...
#define DAQmx_OnDemand_SimultaneousAOEnable 0x21A0 // Specifies whether to update all channels in the task simultaneously, rather than updating channels independently when you write a sample to that channel.
#define DAQmx_Implicit_UnderflowBehavior 0x2EFD // Specifies the action to take when the onboard memory of the device becomes empty.
#define DAQmx_AIConv_Rate 0x1848 // Specifies in Hertz the rate at which to clock the analog-to-digital converter. This clock is specific to the analog input section of multiplexed devices.
#define DAQmx_AIConv_MaxRate 0x22C9 // Indicates the maximum convert rate supported by the task, given the current devices and channel count.
#define DAQmx_AIConv_Src 0x1502 // Specifies the terminal of the signal to use as the AI Convert Clock.
#define DAQmx_AIConv_ActiveEdge 0x1853 // Specifies on which edge of the clock pulse an analog-to-digital conversion takes place.
#define DAQmx_AIConv_TimebaseDiv 0x1335 // Specifies the number of AI Convert Clock Timebase pulses needed to produce a single AI Convert Clock pulse.
#define DAQmx_AIConv_Timebase_Src 0x1339 // Specifies the terminal of the signal to use as the AI Convert Clock Timebase.
#define DAQmx_DelayFromSampClk_DelayUnits 0x1304 // Specifies the units of Delay.
#define DAQmx_DelayFromSampClk_Delay 0x1317 // Specifies the amount of time to wait after receiving a Sample Clock edge before beginning to acquire the sample. This value is in the units you specify with Delay Units.
#define DAQmx_AIConv_DigFltr_Enable 0x2EDC // Specifies whether to apply a digital filter to the AI Convert Clock.
#define DAQmx_AIConv_DigFltr_MinPulseWidth 0x2EDD // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_AIConv_DigFltr_TimebaseSrc 0x2EDE // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_AIConv_DigFltr_TimebaseRate 0x2EDF // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_AIConv_DigSync_Enable 0x2EE0 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_MasterTimebase_Rate 0x1495 // Specifies the rate of the Master Timebase.
#define DAQmx_MasterTimebase_Src 0x1343 // Specifies the terminal of the signal to use as the Master Timebase. On an E Series device, you can choose only between the onboard 20MHz Timebase or the RTSI7 terminal.
#define DAQmx_RefClk_Rate 0x1315 // Specifies the frequency of the Reference Clock.
#define DAQmx_RefClk_Src 0x1316 // Specifies the terminal of the signal to use as the Reference Clock.
#define DAQmx_SyncPulse_Type 0x3136 // Specifies the type of sync pulse used in the task.
#define DAQmx_SyncPulse_Src 0x223D // Specifies the terminal of the signal to use as the synchronization pulse. The synchronization pulse resets the clock dividers and the ADCs/DACs on the device.
#define DAQmx_SyncPulse_Time_When 0x3137 // Specifies the start time of the sync pulse.
#define DAQmx_SyncPulse_Time_Timescale 0x3138 // Specifies the timescale to be used for timestamps for a sync pulse.
#define DAQmx_SyncPulse_SyncTime 0x223E // Indicates in seconds the delay required to reset the ADCs/DACs after the device receives the synchronization pulse.
#define DAQmx_SyncPulse_MinDelayToStart 0x223F // Specifies in seconds the amount of time that elapses after the master device issues the synchronization pulse before the task starts.
#define DAQmx_SyncPulse_ResetTime 0x2F7C // Indicates in seconds the amount of time required for the ADCs or DACs on the device to reset. When synchronizing devices, query this property on all devices and note the largest reset time. Then, for each device, subtract the value of this property from the largest reset time and set Reset Delay to the resulting value.
#define DAQmx_SyncPulse_ResetDelay 0x2F7D // Specifies in seconds the amount of time to wait after the Synchronization Pulse before resetting the ADCs or DACs on the device. When synchronizing devices, query Reset Time on all devices and note the largest reset time. Then, for each device, subtract the reset time from the largest reset time and set this property to the resulting value.
#define DAQmx_SyncPulse_Term 0x2F85 // Indicates the name of the internal Synchronization Pulse terminal for the task. This property does not return the name of the source terminal.
#define DAQmx_SyncClk_Interval 0x2F7E // Specifies the interval, in Sample Clock periods, between each internal Synchronization Clock pulse. NI-DAQmx uses this pulse for synchronization of triggers between multiple devices at different rates. Refer to device documentation for information about how to calculate this value.
#define DAQmx_SampTimingEngine 0x2A26 // Specifies which timing engine to use for the task.
#define DAQmx_FirstSampTimestamp_Enable 0x3139 // Specifies whether to enable the first sample timestamp.
#define DAQmx_FirstSampTimestamp_Timescale 0x313B // Specifies the timescale to be used for the first sample timestamp.
#define DAQmx_FirstSampTimestamp_Val 0x313A // Indicates the timestamp of the first sample.
#define DAQmx_FirstSampClk_When 0x3182 // Specifies the time of the first sample clock pulse.
#define DAQmx_FirstSampClk_Timescale 0x3183 // Specifies the timescale to be used for the value of When.
#define DAQmx_FirstSampClk_Offset 0x31AA // Specifies, in seconds, the offset to apply to the When value. This offset modifies when the first sample clock occurs and is used to account for known delays in the signal path.
//********** Trigger Attributes **********
#define DAQmx_StartTrig_Type 0x1393 // Specifies the type of trigger to use to start a task.
#define DAQmx_StartTrig_Term 0x2F1E // Indicates the name of the internal Start Trigger terminal for the task. This property does not return the name of the trigger source terminal.
#define DAQmx_DigEdge_StartTrig_Src 0x1407 // Specifies the name of a terminal where there is a digital signal to use as the source of the Start Trigger.
#define DAQmx_DigEdge_StartTrig_Edge 0x1404 // Specifies on which edge of a digital pulse to start acquiring or generating samples.
#define DAQmx_DigEdge_StartTrig_DigFltr_Enable 0x2223 // Specifies whether to apply a digital filter to the trigger signal.
#define DAQmx_DigEdge_StartTrig_DigFltr_MinPulseWidth 0x2224 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_DigEdge_StartTrig_DigFltr_TimebaseSrc 0x2225 // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_DigEdge_StartTrig_DigFltr_TimebaseRate 0x2226 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_DigEdge_StartTrig_DigSync_Enable 0x2227 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device. If you set this property to TRUE, the device does not recognize and act upon the trigger until the next pulse of the internal timebase.
#define DAQmx_DigPattern_StartTrig_Src 0x1410 // Specifies the physical channels to use for pattern matching. The order of the physical channels determines the order of the pattern. If a port is included, the order of the physical channels within the port is in ascending order.
#define DAQmx_DigPattern_StartTrig_Pattern 0x2186 // Specifies the digital pattern that must be met for the Start Trigger to occur.
#define DAQmx_DigPattern_StartTrig_When 0x1411 // Specifies whether the Start Trigger occurs when the physical channels specified with Source match or differ from the digital pattern specified with Pattern.
#define DAQmx_AnlgEdge_StartTrig_Src 0x1398 // Specifies the name of a virtual channel or terminal where there is an analog signal to use as the source of the Start Trigger.
#define DAQmx_AnlgEdge_StartTrig_Slope 0x1397 // Specifies on which slope of the trigger signal to start acquiring or generating samples.
#define DAQmx_AnlgEdge_StartTrig_Lvl 0x1396 // Specifies at what threshold in the units of the measurement or generation to start acquiring or generating samples. Use Slope to specify on which slope to trigger on this threshold.
#define DAQmx_AnlgEdge_StartTrig_Hyst 0x1395 // Specifies a hysteresis level in the units of the measurement or generation. If Slope is DAQmx_Val_RisingSlope, the trigger does not deassert until the source signal passes below Level minus the hysteresis. If Slope is DAQmx_Val_FallingSlope, the trigger does not deassert until the source signal passes above Level plus the hysteresis. Hysteresis is always enabled. Set this property to a non-zero value to use hyste...
#define DAQmx_AnlgEdge_StartTrig_Coupling 0x2233 // Specifies the coupling for the source signal of the trigger if the source is a terminal rather than a virtual channel.
#define DAQmx_AnlgEdge_StartTrig_DigFltr_Enable 0x2EE1 // Specifies whether to apply a digital filter to the digital output of the analog triggering circuitry (the Analog Comparison Event). When enabled, the analog signal must stay above or below the trigger level for the minimum pulse width before being recognized. Use filtering for noisy trigger signals that transition in and out of the hysteresis window rapidly.
#define DAQmx_AnlgEdge_StartTrig_DigFltr_MinPulseWidth 0x2EE2 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_AnlgEdge_StartTrig_DigFltr_TimebaseSrc 0x2EE3 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_AnlgEdge_StartTrig_DigFltr_TimebaseRate 0x2EE4 // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_AnlgEdge_StartTrig_DigSync_Enable 0x2EE5 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_AnlgMultiEdge_StartTrig_Srcs 0x3121 // Specifies a list and/or range of analog sources that are going to be used for Analog triggering. Each source corresponds to an element in each of the Analog Multi Edge property arrays, if they are not empty.
#define DAQmx_AnlgMultiEdge_StartTrig_Slopes 0x3122 // Specifies an array of slopes on which to trigger task to start generating or acquiring samples. Each element of the array corresponds to a source in Start.AnlgMultiEdge.Srcs and an element in each of the other Analog Multi Edge property arrays, if they are not empty.
#define DAQmx_AnlgMultiEdge_StartTrig_Lvls 0x3123 // Specifies an array of thresholds in the units of the measurement or generation to start acquiring or generating samples. Each element of the array corresponds to a source in Start.AnlgMultiEdge.Srcs and an element in each of the other Analog Multi Edge property arrays, if they are not empty.
#define DAQmx_AnlgMultiEdge_StartTrig_Hysts 0x3124 // Specifies an array of hysteresis levels in the units of the measurement or generation. If the corresponding element of Start.AnlgMultiEdge.Slopes is Rising, the trigger does not deassert until the source signal passes below the corresponding element of Start.AnlgMultiEdge.Lvls minus the hysteresis. If Start.AnlgEdge.Slope is Falling, the trigger does not deassert until the source signal passes above Start.AnlgEdge...
#define DAQmx_AnlgMultiEdge_StartTrig_Couplings 0x3125 // Specifies an array that describes the couplings for the corresponding source signal of the trigger if the source is a terminal rather than a virtual channel. Each element of the array corresponds to a source in Start.AnlgMultiEdge.Srcs and an element in each of the other Analog Multi Edge property arrays, if they are not empty.
#define DAQmx_AnlgWin_StartTrig_Src 0x1400 // Specifies the name of a virtual channel or terminal where there is an analog signal to use as the source of the Start Trigger.
#define DAQmx_AnlgWin_StartTrig_When 0x1401 // Specifies whether the task starts acquiring or generating samples when the signal enters or leaves the window you specify with Bottom and Top.
#define DAQmx_AnlgWin_StartTrig_Top 0x1403 // Specifies the upper limit of the window. Specify this value in the units of the measurement or generation.
#define DAQmx_AnlgWin_StartTrig_Btm 0x1402 // Specifies the lower limit of the window. Specify this value in the units of the measurement or generation.
#define DAQmx_AnlgWin_StartTrig_Coupling 0x2234 // Specifies the coupling for the source signal of the trigger if the source is a terminal rather than a virtual channel.
#define DAQmx_AnlgWin_StartTrig_DigFltr_Enable 0x2EFF // Specifies whether to apply a digital filter to the digital output of the analog triggering circuitry (the Analog Comparison Event). When enabled, the analog signal must stay within the trigger window for the minimum pulse width before being recognized. Use filtering for noisy trigger signals that transition in and out of the window rapidly.
#define DAQmx_AnlgWin_StartTrig_DigFltr_MinPulseWidth 0x2F00 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_AnlgWin_StartTrig_DigFltr_TimebaseSrc 0x2F01 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_AnlgWin_StartTrig_DigFltr_TimebaseRate 0x2F02 // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_AnlgWin_StartTrig_DigSync_Enable 0x2F03 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_StartTrig_TrigWhen 0x304D // Specifies when to trigger the start trigger.
#define DAQmx_StartTrig_Timescale 0x3036 // Specifies the timescale to be used for timestamps used in a time trigger.
#define DAQmx_StartTrig_TimestampEnable 0x314A // Specifies whether the start trigger timestamp is enabled. If the timestamp is enabled but no resources are available, an error will be returned at run time.
#define DAQmx_StartTrig_TimestampTimescale 0x312D // Specifies the start trigger timestamp timescale.
#define DAQmx_StartTrig_TimestampVal 0x314B // Indicates the start trigger timestamp value.
#define DAQmx_StartTrig_Delay 0x1856 // Specifies an amount of time to wait after the Start Trigger is received before acquiring or generating the first sample. This value is in the units you specify with Delay Units.
#define DAQmx_StartTrig_DelayUnits 0x18C8 // Specifies the units of Delay.
#define DAQmx_StartTrig_Retriggerable 0x190F // Specifies whether a finite task resets and waits for another Start Trigger after the task completes. When you set this property to TRUE, the device performs a finite acquisition or generation each time the Start Trigger occurs until the task stops. The device ignores a trigger if it is in the process of acquiring or generating signals.
#define DAQmx_StartTrig_TrigWin 0x311A // Specifies the period of time in seconds after the task starts during which the device may trigger. Once the window has expired, the device stops detecting triggers, and the task will finish after the device finishes acquiring post-trigger samples for any triggers detected. If no triggers are detected during the entire period, then no data will be returned. Ensure the period of time specified covers the entire time...
#define DAQmx_StartTrig_RetriggerWin 0x311B // Specifies the period of time in seconds after each trigger during which the device may trigger. Once the window has expired, the device stops detecting triggers, and the task will finish after the device finishes acquiring post-trigger samples that it already started. Ensure the period of time specified covers the entire time span desired for retrigger detection to avoid missed triggers. Specifying a Retrigger Win...
#define DAQmx_StartTrig_MaxNumTrigsToDetect 0x311C // Specifies the maximum number of times the task will detect a start trigger during the task. The number of times a trigger is detected and acted upon by the module may be less than the specified amount if the task stops early because of trigger/retrigger window expiration. Specifying the Maximum Number of Triggers to Detect to be 0 causes the driver to automatically set this value to the maximum possible number of ...
#define DAQmx_RefTrig_Type 0x1419 // Specifies the type of trigger to use to mark a reference point for the measurement.
#define DAQmx_RefTrig_PretrigSamples 0x1445 // Specifies the minimum number of pretrigger samples to acquire from each channel before recognizing the reference trigger. Post-trigger samples per channel are equal to Samples Per Channel minus the number of pretrigger samples per channel.
#define DAQmx_RefTrig_Term 0x2F1F // Indicates the name of the internal Reference Trigger terminal for the task. This property does not return the name of the trigger source terminal.
#define DAQmx_DigEdge_RefTrig_Src 0x1434 // Specifies the name of a terminal where there is a digital signal to use as the source of the Reference Trigger.
#define DAQmx_DigEdge_RefTrig_Edge 0x1430 // Specifies on what edge of a digital pulse the Reference Trigger occurs.
#define DAQmx_DigEdge_RefTrig_DigFltr_Enable 0x2ED7 // Specifies whether to apply a digital filter to the trigger signal.
#define DAQmx_DigEdge_RefTrig_DigFltr_MinPulseWidth 0x2ED8 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_DigEdge_RefTrig_DigFltr_TimebaseSrc 0x2ED9 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_DigEdge_RefTrig_DigFltr_TimebaseRate 0x2EDA // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_DigEdge_RefTrig_DigSync_Enable 0x2EDB // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_DigPattern_RefTrig_Src 0x1437 // Specifies the physical channels to use for pattern matching. The order of the physical channels determines the order of the pattern. If a port is included, the order of the physical channels within the port is in ascending order.
#define DAQmx_DigPattern_RefTrig_Pattern 0x2187 // Specifies the digital pattern that must be met for the Reference Trigger to occur.
#define DAQmx_DigPattern_RefTrig_When 0x1438 // Specifies whether the Reference Trigger occurs when the physical channels specified with Source match or differ from the digital pattern specified with Pattern.
#define DAQmx_AnlgEdge_RefTrig_Src 0x1424 // Specifies the name of a virtual channel or terminal where there is an analog signal to use as the source of the Reference Trigger.
#define DAQmx_AnlgEdge_RefTrig_Slope 0x1423 // Specifies on which slope of the source signal the Reference Trigger occurs.
#define DAQmx_AnlgEdge_RefTrig_Lvl 0x1422 // Specifies in the units of the measurement the threshold at which the Reference Trigger occurs. Use Slope to specify on which slope to trigger at this threshold.
#define DAQmx_AnlgEdge_RefTrig_Hyst 0x1421 // Specifies a hysteresis level in the units of the measurement. If Slope is DAQmx_Val_RisingSlope, the trigger does not deassert until the source signal passes below Level minus the hysteresis. If Slope is DAQmx_Val_FallingSlope, the trigger does not deassert until the source signal passes above Level plus the hysteresis. Hysteresis is always enabled. Set this property to a non-zero value to use hysteresis.
#define DAQmx_AnlgEdge_RefTrig_Coupling 0x2235 // Specifies the coupling for the source signal of the trigger if the source is a terminal rather than a virtual channel.
#define DAQmx_AnlgEdge_RefTrig_DigFltr_Enable 0x2EE6 // Specifies whether to apply a digital filter to the digital output of the analog triggering circuitry (the Analog Comparison Event). When enabled, the analog signal must stay above or below the trigger level for the minimum pulse width before being recognized. Use filtering for noisy trigger signals that transition in and out of the hysteresis window rapidly.
#define DAQmx_AnlgEdge_RefTrig_DigFltr_MinPulseWidth 0x2EE7 // Specifies in seconds the minimum pulse width thefilter recognizes.
#define DAQmx_AnlgEdge_RefTrig_DigFltr_TimebaseSrc 0x2EE8 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_AnlgEdge_RefTrig_DigFltr_TimebaseRate 0x2EE9 // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_AnlgEdge_RefTrig_DigSync_Enable 0x2EEA // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_AnlgMultiEdge_RefTrig_Srcs 0x3126 // Specifies a List and/or range of analog sources that are going to be used for Analog triggering. Each source corresponds to an element in each of the Analog Multi Edge property arrays, if they are not empty.
#define DAQmx_AnlgMultiEdge_RefTrig_Slopes 0x3127 // Specifies an array of slopes on which to trigger task to start generating or acquiring samples. Each element of the array corresponds to a source in Ref.AnlgMultiEdge.Srcs and an element in each of the other Analog Multi Edge property arrays, if they are not empty.
#define DAQmx_AnlgMultiEdge_RefTrig_Lvls 0x3128 // Specifies an array of thresholds in the units of the measurement or generation to start acquiring or generating samples. Each element of the array corresponds to a source in Ref.AnlgMultiEdge.Srcs and an element in each of the other Analog Multi Edge property arrays, if they are not empty.
#define DAQmx_AnlgMultiEdge_RefTrig_Hysts 0x3129 // Specifies an array of hysteresis levels in the units of the measurement or generation. If the corresponding element of Ref.AnlgMultiEdge.Slopes is Rising, the trigger does not deassert until the source signal passes below the corresponding element of Ref.AnlgMultiEdge.Lvls minus the hysteresis. If Ref.AnlgEdge.Slope is Falling, the trigger does not deassert until the source signal passes above Ref.AnlgEdge.Lvl plu...
#define DAQmx_AnlgMultiEdge_RefTrig_Couplings 0x312A // Specifies an array that describes the couplings for the corresponding source signal of the trigger if the source is a terminal rather than a virtual channel. Each element of the array corresponds to a source in Ref.AnlgMultiEdge.Srcs and an element in each of the other Analog Multi Edge property arrays, if they are not empty.
#define DAQmx_AnlgWin_RefTrig_Src 0x1426 // Specifies the name of a virtual channel or terminal where there is an analog signal to use as the source of the Reference Trigger.
#define DAQmx_AnlgWin_RefTrig_When 0x1427 // Specifies whether the Reference Trigger occurs when the source signal enters the window or when it leaves the window. Use Bottom and Top to specify the window.
#define DAQmx_AnlgWin_RefTrig_Top 0x1429 // Specifies the upper limit of the window. Specify this value in the units of the measurement.
#define DAQmx_AnlgWin_RefTrig_Btm 0x1428 // Specifies the lower limit of the window. Specify this value in the units of the measurement.
#define DAQmx_AnlgWin_RefTrig_Coupling 0x1857 // Specifies the coupling for the source signal of the trigger if the source is a terminal rather than a virtual channel.
#define DAQmx_AnlgWin_RefTrig_DigFltr_Enable 0x2EEB // Specifies whether to apply a digital filter to the digital output of the analog triggering circuitry (the Analog Comparison Event). When enabled, the analog signal must stay within the trigger window for the minimum pulse width before being recognized. Use filtering for noisy trigger signals that transition in and out of the window rapidly.
#define DAQmx_AnlgWin_RefTrig_DigFltr_MinPulseWidth 0x2EEC // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_AnlgWin_RefTrig_DigFltr_TimebaseSrc 0x2EED // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_AnlgWin_RefTrig_DigFltr_TimebaseRate 0x2EEE // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_AnlgWin_RefTrig_DigSync_Enable 0x2EEF // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_RefTrig_AutoTrigEnable 0x2EC1 // Specifies whether to send a software trigger to the device when a hardware trigger is no longer active in order to prevent a timeout.
#define DAQmx_RefTrig_AutoTriggered 0x2EC2 // Indicates whether a completed acquisition was triggered by the auto trigger. If an acquisition has not completed after the task starts, this property returns FALSE. This property is only applicable when Enable is TRUE.
#define DAQmx_RefTrig_TimestampEnable 0x312E // Specifies whether the reference trigger timestamp is enabled. If the timestamp is enabled but no resources are available, an error will be returned at run time.
#define DAQmx_RefTrig_TimestampTimescale 0x3130 // Specifies the reference trigger timestamp timescale.
#define DAQmx_RefTrig_TimestampVal 0x312F // Indicates the reference trigger timestamp value.
#define DAQmx_RefTrig_Delay 0x1483 // Specifies in seconds the time to wait after the device receives the Reference Trigger before switching from pretrigger to posttrigger samples.
#define DAQmx_RefTrig_Retriggerable 0x311D // Specifies whether a finite task resets, acquires pretrigger samples, and waits for another Reference Trigger after the task completes. When you set this property to TRUE, the device will acquire post-trigger samples, reset, and acquire pretrigger samples each time the Reference Trigger occurs until the task stops. The device ignores a trigger if it is in the process of acquiring signals.
#define DAQmx_RefTrig_TrigWin 0x311E // Specifies the duration in seconds after the task starts during which the device may trigger. Once the window has passed, the device stops detecting triggers, and the task will stop after the device finishes acquiring post-trigger samples that it already started. If no triggers are detected during the entire period, then no data will be returned. Specifying a Trigger Window of -1 causes the window to be infinite.
#define DAQmx_RefTrig_RetriggerWin 0x311F // Specifies the duration in seconds after each trigger during which the device may trigger. Once the window has passed, the device stops detecting triggers, and the task will stop after the device finishes acquiring post-trigger samples that it already started. Specifying a Retrigger Window of -1 causes the window to be infinite.
#define DAQmx_RefTrig_MaxNumTrigsToDetect 0x3120 // Specifies the maximum number of times the task will detect a reference trigger during the task. The number of times a trigger is detected and acted upon by the module may be less than the specified amount if the task stops early because of trigger/retrigger window expiration. Specifying the Maximum Number of Triggers to Detect to be 0 causes the driver to automatically set this value to the maximum possible number...
#define DAQmx_AdvTrig_Type 0x1365 // (Deprecated) Specifies the type of trigger to use to advance to the next entry in a switch scan list.
#define DAQmx_DigEdge_AdvTrig_Src 0x1362 // (Deprecated) Specifies the name of a terminal where there is a digital signal to use as the source of the Advance Trigger.
#define DAQmx_DigEdge_AdvTrig_Edge 0x1360 // (Deprecated) Specifies on which edge of a digital signal to advance to the next entry in a scan list.
#define DAQmx_DigEdge_AdvTrig_DigFltr_Enable 0x2238 // (Deprecated) Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_HshkTrig_Type 0x22B7 // Specifies the type of Handshake Trigger to use.
#define DAQmx_Interlocked_HshkTrig_Src 0x22B8 // Specifies the source terminal of the Handshake Trigger.
#define DAQmx_Interlocked_HshkTrig_AssertedLvl 0x22B9 // Specifies the asserted level of the Handshake Trigger.
#define DAQmx_PauseTrig_Type 0x1366 // Specifies the type of trigger to use to pause a task.
#define DAQmx_PauseTrig_Term 0x2F20 // Indicates the name of the internal Pause Trigger terminal for the task. This property does not return the name of the trigger source terminal.
#define DAQmx_AnlgLvl_PauseTrig_Src 0x1370 // Specifies the name of a virtual channel or terminal where there is an analog signal to use as the source of the trigger.
#define DAQmx_AnlgLvl_PauseTrig_When 0x1371 // Specifies whether the task pauses above or below the threshold you specify with Level.
#define DAQmx_AnlgLvl_PauseTrig_Lvl 0x1369 // Specifies the threshold at which to pause the task. Specify this value in the units of the measurement or generation. Use Pause When to specify whether the task pauses above or below this threshold.
#define DAQmx_AnlgLvl_PauseTrig_Hyst 0x1368 // Specifies a hysteresis level in the units of the measurement or generation. If Pause When is DAQmx_Val_AboveLvl, the trigger does not deassert until the source signal passes below Level minus the hysteresis. If Pause When is DAQmx_Val_BelowLvl, the trigger does not deassert until the source signal passes above Level plus the hysteresis. Hysteresis is always enabled. Set this property to a non-zero value to use hys...
#define DAQmx_AnlgLvl_PauseTrig_Coupling 0x2236 // Specifies the coupling for the source signal of the trigger if the source is a terminal rather than a virtual channel.
#define DAQmx_AnlgLvl_PauseTrig_DigFltr_Enable 0x2EF0 // Specifies whether to apply a digital filter to the digital output of the analog triggering circuitry (the Analog Comparison Event). When enabled, the analog signal must stay above or below the trigger level for the minimum pulse width before being recognized. Use filtering for noisy trigger signals that transition in and out of the hysteresis window rapidly.
#define DAQmx_AnlgLvl_PauseTrig_DigFltr_MinPulseWidth 0x2EF1 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_AnlgLvl_PauseTrig_DigFltr_TimebaseSrc 0x2EF2 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_AnlgLvl_PauseTrig_DigFltr_TimebaseRate 0x2EF3 // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_AnlgLvl_PauseTrig_DigSync_Enable 0x2EF4 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_AnlgWin_PauseTrig_Src 0x1373 // Specifies the name of a virtual channel or terminal where there is an analog signal to use as the source of the trigger.
#define DAQmx_AnlgWin_PauseTrig_When 0x1374 // Specifies whether the task pauses while the trigger signal is inside or outside the window you specify with Bottom and Top.
#define DAQmx_AnlgWin_PauseTrig_Top 0x1376 // Specifies the upper limit of the window. Specify this value in the units of the measurement or generation.
#define DAQmx_AnlgWin_PauseTrig_Btm 0x1375 // Specifies the lower limit of the window. Specify this value in the units of the measurement or generation.
#define DAQmx_AnlgWin_PauseTrig_Coupling 0x2237 // Specifies the coupling for the source signal of the terminal if the source is a terminal rather than a virtual channel.
#define DAQmx_AnlgWin_PauseTrig_DigFltr_Enable 0x2EF5 // Specifies whether to apply a digital filter to the digital output of the analog triggering circuitry (the Analog Comparison Event). When enabled, the analog signal must stay within the trigger window for the minimum pulse width before being recognized. Use filtering for noisy trigger signals that transition in and out of the window rapidly.
#define DAQmx_AnlgWin_PauseTrig_DigFltr_MinPulseWidth 0x2EF6 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_AnlgWin_PauseTrig_DigFltr_TimebaseSrc 0x2EF7 // Specifies the terminal of the signal to use as the timebase of the digital filter.
#define DAQmx_AnlgWin_PauseTrig_DigFltr_TimebaseRate 0x2EF8 // Specifies in hertz the rate of the digital filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_AnlgWin_PauseTrig_DigSync_Enable 0x2EF9 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_DigLvl_PauseTrig_Src 0x1379 // Specifies the name of a terminal where there is a digital signal to use as the source of the Pause Trigger.
#define DAQmx_DigLvl_PauseTrig_When 0x1380 // Specifies whether the task pauses while the signal is high or low.
#define DAQmx_DigLvl_PauseTrig_DigFltr_Enable 0x2228 // Specifies whether to apply a digital filter to the trigger signal.
#define DAQmx_DigLvl_PauseTrig_DigFltr_MinPulseWidth 0x2229 // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_DigLvl_PauseTrig_DigFltr_TimebaseSrc 0x222A // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_DigLvl_PauseTrig_DigFltr_TimebaseRate 0x222B // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_DigLvl_PauseTrig_DigSync_Enable 0x222C // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_DigPattern_PauseTrig_Src 0x216F // Specifies the physical channels to use for pattern matching. The order of the physical channels determines the order of the pattern. If a port is included, the lines within the port are in ascending order.
#define DAQmx_DigPattern_PauseTrig_Pattern 0x2188 // Specifies the digital pattern that must be met for the Pause Trigger to occur.
#define DAQmx_DigPattern_PauseTrig_When 0x2170 // Specifies if the Pause Trigger occurs when the physical channels specified with Source match or differ from the digital pattern specified with Pattern.
#define DAQmx_ArmStartTrig_Type 0x1414 // Specifies the type of trigger to use to arm the task for a Start Trigger. If you configure an Arm Start Trigger, the task does not respond to a Start Trigger until the device receives the Arm Start Trigger.
#define DAQmx_ArmStart_Term 0x2F7F // Indicates the name of the internal Arm Start Trigger terminal for the task. This property does not return the name of the trigger source terminal.
#define DAQmx_DigEdge_ArmStartTrig_Src 0x1417 // Specifies the name of a terminal where there is a digital signal to use as the source of the Arm Start Trigger.
#define DAQmx_DigEdge_ArmStartTrig_Edge 0x1415 // Specifies on which edge of a digital signal to arm the task for a Start Trigger.
#define DAQmx_DigEdge_ArmStartTrig_DigFltr_Enable 0x222D // Specifies whether to apply the pulse width filter to the signal.
#define DAQmx_DigEdge_ArmStartTrig_DigFltr_MinPulseWidth 0x222E // Specifies in seconds the minimum pulse width the filter recognizes.
#define DAQmx_DigEdge_ArmStartTrig_DigFltr_TimebaseSrc 0x222F // Specifies the input terminal of the signal to use as the timebase of the pulse width filter.
#define DAQmx_DigEdge_ArmStartTrig_DigFltr_TimebaseRate 0x2230 // Specifies in hertz the rate of the pulse width filter timebase. NI-DAQmx uses this value to compute settings for the filter.
#define DAQmx_DigEdge_ArmStartTrig_DigSync_Enable 0x2231 // Specifies whether to synchronize recognition of transitions in the signal to the internal timebase of the device.
#define DAQmx_ArmStartTrig_TrigWhen 0x3131 // Specifies when to trigger the arm start trigger.
#define DAQmx_ArmStartTrig_Timescale 0x3132 // Specifies the timescale to be used for timestamps used in an arm start time trigger.
#define DAQmx_ArmStartTrig_TimestampEnable 0x3133 // Specifies whether the arm start trigger timestamp is enabled. If the timestamp is enabled but no resources are available, an error will be returned at run time.
#define DAQmx_ArmStartTrig_TimestampTimescale 0x3135 // Specifies the arm start trigger timestamp timescale.
#define DAQmx_ArmStartTrig_TimestampVal 0x3134 // Indicates the arm start trigger timestamp value.
#define DAQmx_Trigger_SyncType 0x2F80 // Specifies the role of the device in a synchronized system. Setting this value to DAQmx_Val_Master or DAQmx_Val_Slave enables trigger skew correction. If you enable trigger skew correction, set this property to DAQmx_Val_Master on only one device, and set this property to DAQmx_Val_Slave on the other devices.
//********** Watchdog Attributes **********
#define DAQmx_Watchdog_Timeout 0x21A9 // Specifies in seconds the amount of time until the watchdog timer expires. A value of -1 means the internal timer never expires. Set this input to -1 if you use an Expiration Trigger to expire the watchdog task.
#define DAQmx_WatchdogExpirTrig_Type 0x21A3 // Specifies the type of trigger to use to expire a watchdog task.
#define DAQmx_WatchdogExpirTrig_TrigOnNetworkConnLoss 0x305D // Specifies the watchdog timer behavior when the network connection is lost between the host and the chassis. If set to true, the watchdog timer expires when the chassis detects the loss of network connection.
#define DAQmx_DigEdge_WatchdogExpirTrig_Src 0x21A4 // Specifies the name of a terminal where a digital signal exists to use as the source of the Expiration Trigger.
#define DAQmx_DigEdge_WatchdogExpirTrig_Edge 0x21A5 // Specifies on which edge of a digital signal to expire the watchdog task.
#define DAQmx_Watchdog_DO_ExpirState 0x21A7 // Specifies the state to which to set the digital physical channels when the watchdog task expires. You cannot modify the expiration state of dedicated digital input physical channels.
#define DAQmx_Watchdog_AO_OutputType 0x305E // Specifies the output type of the analog output physical channels when the watchdog task expires.
#define DAQmx_Watchdog_AO_ExpirState 0x305F // Specifies the state to set the analog output physical channels when the watchdog task expires.
#define DAQmx_Watchdog_CO_ExpirState 0x3060 // Specifies the state to set the counter output channel terminal when the watchdog task expires.
#define DAQmx_Watchdog_HasExpired 0x21A8 // Indicates if the watchdog timer expired. You can read this property only while the task is running.
//********** Write Attributes **********
#define DAQmx_Write_RelativeTo 0x190C // Specifies the point in the buffer at which to write data. If you also specify an offset with Offset, the write operation begins at that offset relative to this point you select with this property.
#define DAQmx_Write_Offset 0x190D // Specifies in samples per channel an offset at which a write operation begins. This offset is relative to the location you specify with Relative To.
#define DAQmx_Write_RegenMode 0x1453 // Specifies whether to allow NI-DAQmx to generate the same data multiple times.
#define DAQmx_Write_CurrWritePos 0x1458 // Indicates the position in the buffer of the next sample to generate. This value is identical for all channels in the task.
#define DAQmx_Write_OvercurrentChansExist 0x29E8 // Indicates if the device(s) detected an overcurrent condition for any channel in the task. Reading this property clears the overcurrent status for all channels in the task. You must read this property before you read Overcurrent Channels. Otherwise, you will receive an error.
#define DAQmx_Write_OvercurrentChans 0x29E9 // Indicates a list of names of any virtual channels in the task for which an overcurrent condition has been detected. You must read Overcurrent Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Write_OvertemperatureChansExist 0x2A84 // Indicates if the device(s) detected an overtemperature condition in any virtual channel in the task. Reading this property clears the overtemperature status for all channels in the task. You must read this property before you read Overtemperature Channels. Otherwise, you will receive an error.
#define DAQmx_Write_OvertemperatureChans 0x3083 // Indicates a list of names of any overtemperature virtual channels. You must read Overtemperature Channels Exist before you read this property. Otherwise, you will receive an error. The list of names may be empty if the device cannot determine the source of the overtemperature.
#define DAQmx_Write_ExternalOvervoltageChansExist 0x30BB // Indicates if the device(s) detected an External Overvoltage condition for any channel in the task. Reading this property clears the External Overvoltage status for all channels in the task. You must read this property before you read External OvervoltageChans. Otherwise, you will receive an error.
#define DAQmx_Write_ExternalOvervoltageChans 0x30BC // Indicates a list of names of any virtual channels in the task for which an External Overvoltage condition has been detected. You must read External OvervoltageChansExist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Write_OverloadedChansExist 0x3084 // Indicates if the device(s) detected an overload in any virtual channel in the task. Reading this property clears the overload status for all channels in the task. You must read this property before you read Overloaded Channels. Otherwise, you will receive an error.
#define DAQmx_Write_OverloadedChans 0x3085 // Indicates a list of names of any overloaded virtual channels in the task. You must read Overloaded Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Write_OpenCurrentLoopChansExist 0x29EA // Indicates if the device(s) detected an open current loop for any channel in the task. Reading this property clears the open current loop status for all channels in the task. You must read this property before you read Open Current Loop Channels. Otherwise, you will receive an error.
#define DAQmx_Write_OpenCurrentLoopChans 0x29EB // Indicates a list of names of any virtual channels in the task for which the device(s) detected an open current loop. You must read Open Current Loop Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Write_PowerSupplyFaultChansExist 0x29EC // Indicates if the device(s) detected a power supply fault for any channel in the task. Reading this property clears the power supply fault status for all channels in the task. You must read this property before you read Power Supply Fault Channels. Otherwise, you will receive an error.
#define DAQmx_Write_PowerSupplyFaultChans 0x29ED // Indicates a list of names of any virtual channels in the task that have a power supply fault. You must read Power Supply Fault Channels Exist before you read this property. Otherwise, you will receive an error.
#define DAQmx_Write_Sync_UnlockedChansExist 0x313F // Indicates whether the target is currently locked to the grand master. Devices may report PLL Unlock either during acquisition or after acquisition.
#define DAQmx_Write_Sync_UnlockedChans 0x3140 // Indicates the channels from devices in an unlocked target.
#define DAQmx_Write_SpaceAvail 0x1460 // Indicates in samples per channel the amount of available space in the buffer.
#define DAQmx_Write_TotalSampPerChanGenerated 0x192B // Indicates the total number of samples generated by each channel in the task. This value is identical for all channels in the task.
#define DAQmx_Write_AccessoryInsertionOrRemovalDetected 0x3053 // Indicates if any devices in the task detected the insertion or removal of an accessory since the task started. Reading this property clears the accessory change status for all channels in the task. You must read this property before you read Devices with Inserted or Removed Accessories. Otherwise, you will receive an error.
#define DAQmx_Write_DevsWithInsertedOrRemovedAccessories 0x3054 // Indicates the names of any devices that detected the insertion or removal of an accessory since the task started. You must read Accessory Insertion or Removal Detected before you read this property. Otherwise, you will receive an error.
#define DAQmx_Write_RawDataWidth 0x217D // Indicates in bytes the required size of a raw sample to write to the task.
#define DAQmx_Write_NumChans 0x217E // Indicates the number of channels that an NI-DAQmx Write function writes to the task. This value is the number of channels in the task.
#define DAQmx_Write_WaitMode 0x22B1 // Specifies how an NI-DAQmx Write function waits for space to become available in the buffer.
#define DAQmx_Write_SleepTime 0x22B2 // Specifies in seconds the amount of time to sleep after checking for available buffer space if Wait Mode is DAQmx_Val_Sleep.
#define DAQmx_Write_DigitalLines_BytesPerChan 0x217F // Indicates the number of Boolean values expected per channel in a sample for line-based writes. This property is determined by the channel in the task with the most digital lines. If a channel has fewer lines than this number, NI-DAQmx ignores the extra Boolean values.
// For backwards compatibility, the DAQmx_ReadWaitMode has to be defined because this was the original spelling
// that has been later on corrected.
#define DAQmx_ReadWaitMode DAQmx_Read_WaitMode
/******************************************************************************
*** NI-DAQmx Values **********************************************************
******************************************************************************/
/******************************************************/
/*** Non-Attribute Function Parameter Values ***/
/******************************************************/
//*** Values for the Mode parameter of DAQmxTaskControl ***
#define DAQmx_Val_Task_Start 0 // Start
#define DAQmx_Val_Task_Stop 1 // Stop
#define DAQmx_Val_Task_Verify 2 // Verify
#define DAQmx_Val_Task_Commit 3 // Commit
#define DAQmx_Val_Task_Reserve 4 // Reserve
#define DAQmx_Val_Task_Unreserve 5 // Unreserve
#define DAQmx_Val_Task_Abort 6 // Abort
//*** Values for the Options parameter of the event registration functions
#define DAQmx_Val_SynchronousEventCallbacks (1<<0) // Synchronous callbacks
//*** Values for the everyNsamplesEventType parameter of DAQmxRegisterEveryNSamplesEvent ***
#define DAQmx_Val_Acquired_Into_Buffer 1 // Acquired Into Buffer
#define DAQmx_Val_Transferred_From_Buffer 2 // Transferred From Buffer
//*** Values for the Action parameter of DAQmxControlWatchdogTask ***
#define DAQmx_Val_ResetTimer 0 // Reset Timer
#define DAQmx_Val_ClearExpiration 1 // Clear Expiration
//*** Values for the Line Grouping parameter of DAQmxCreateDIChan and DAQmxCreateDOChan ***
#define DAQmx_Val_ChanPerLine 0 // One Channel For Each Line
#define DAQmx_Val_ChanForAllLines 1 // One Channel For All Lines
//*** Values for the Fill Mode parameter of DAQmxReadAnalogF64, DAQmxReadBinaryI16, DAQmxReadBinaryU16, DAQmxReadBinaryI32, DAQmxReadBinaryU32,
// DAQmxReadDigitalU8, DAQmxReadDigitalU32, DAQmxReadDigitalLines ***
//*** Values for the Data Layout parameter of DAQmxWriteAnalogF64, DAQmxWriteBinaryI16, DAQmxWriteDigitalU8, DAQmxWriteDigitalU32, DAQmxWriteDigitalLines ***
#define DAQmx_Val_GroupByChannel 0 // Group by Channel
#define DAQmx_Val_GroupByScanNumber 1 // Group by Scan Number
//*** Values for the Signal Modifiers parameter of DAQmxConnectTerms ***/
#define DAQmx_Val_DoNotInvertPolarity 0 // Do not invert polarity
#define DAQmx_Val_InvertPolarity 1 // Invert polarity
//*** Values for the Action paramter of DAQmxCloseExtCal ***
#define DAQmx_Val_Action_Commit 0 // Commit
#define DAQmx_Val_Action_Cancel 1 // Cancel
//*** Values for the Trigger ID parameter of DAQmxSendSoftwareTrigger ***
#define DAQmx_Val_AdvanceTrigger 12488 // Advance Trigger
//*** Value set for the ActiveEdge parameter of DAQmxCfgSampClkTiming and DAQmxCfgPipelinedSampClkTiming ***
#define DAQmx_Val_Rising 10280 // Rising
#define DAQmx_Val_Falling 10171 // Falling
//*** Value set SwitchPathType ***
//*** Value set for the output Path Status parameter of DAQmxSwitchFindPath ***
#define DAQmx_Val_PathStatus_Available 10431 // Path Available
#define DAQmx_Val_PathStatus_AlreadyExists 10432 // Path Already Exists
#define DAQmx_Val_PathStatus_Unsupported 10433 // Path Unsupported
#define DAQmx_Val_PathStatus_ChannelInUse 10434 // Channel In Use
#define DAQmx_Val_PathStatus_SourceChannelConflict 10435 // Channel Source Conflict
#define DAQmx_Val_PathStatus_ChannelReservedForRouting 10436 // Channel Reserved for Routing
//*** Value set for the Units parameter of DAQmxCreateAIThrmcplChan, DAQmxCreateAIRTDChan, DAQmxCreateAIThrmstrChanIex, DAQmxCreateAIThrmstrChanVex and DAQmxCreateAITempBuiltInSensorChan ***
#define DAQmx_Val_DegC 10143 // Deg C
#define DAQmx_Val_DegF 10144 // Deg F
#define DAQmx_Val_Kelvins 10325 // Kelvins
#define DAQmx_Val_DegR 10145 // Deg R
//*** Value set for the state parameter of DAQmxSetDigitalPowerUpStates ***
#define DAQmx_Val_High 10192 // High
#define DAQmx_Val_Low 10214 // Low
#define DAQmx_Val_Tristate 10310 // Tristate
//*** Value set for the state parameter of DAQmxSetDigitalPullUpPullDownStates ***
#define DAQmx_Val_PullUp 15950 // Pull Up
#define DAQmx_Val_PullDown 15951 // Pull Down
//*** Value set for the channelType parameter of DAQmxSetAnalogPowerUpStates & DAQmxGetAnalogPowerUpStates ***
#define DAQmx_Val_ChannelVoltage 0 // Voltage Channel
#define DAQmx_Val_ChannelCurrent 1 // Current Channel
#define DAQmx_Val_ChannelHighImpedance 2 // High-Impedance Channel
//*** Value set RelayPos ***
//*** Value set for the state parameter of DAQmxSwitchGetSingleRelayPos and DAQmxSwitchGetMultiRelayPos ***
#define DAQmx_Val_Open 10437 // Open
#define DAQmx_Val_Closed 10438 // Closed
//*** Value set for the inputCalSource parameter of DAQmxAdjust1540Cal ***
#define DAQmx_Val_Loopback0 0 // Loopback 0 degree shift
#define DAQmx_Val_Loopback180 1 // Loopback 180 degree shift
#define DAQmx_Val_Ground 2 // Ground
//*** Value set for calibration mode for 4339 Calibration functions ***
#define DAQmx_Val_Voltage 10322 // Voltage
#define DAQmx_Val_Bridge 15908 // Bridge
//*** Value set for output type for 4322 Calibration functions ***
#define DAQmx_Val_Voltage 10322 // Voltage
#define DAQmx_Val_Current 10134 // Current
//*** Value set for terminal configuration for 4463 calibration functions ***
#define DAQmx_Val_Diff 10106 // Differential
#define DAQmx_Val_PseudoDiff 12529 // Pseudodifferential
//*** Value set for the calibration mode for the 4480 Calibration functions ***
#define DAQmx_Val_Voltage 10322 // Voltage
#define DAQmx_Val_Charge 16105 // Charge
//*** Value set for shunt resistor select for Strain and Bridge Shunt Calibration functions ***
#define DAQmx_Val_A 12513 // A
#define DAQmx_Val_B 12514 // B
//*** Value set for Force IEPE functions ***
#define DAQmx_Val_Newtons 15875 // Newtons
#define DAQmx_Val_Pounds 15876 // Pounds
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Value set for DAQmxWaitForValidTimestamp ***
#define DAQmx_Val_StartTrigger 12491 // Start Trigger
#define DAQmx_Val_ReferenceTrigger 12490 // Reference Trigger
#define DAQmx_Val_ArmStartTrigger 14641 // Arm Start Trigger
#define DAQmx_Val_FirstSampleTimestamp 16130 // First Sample Timestamp
//*** Value for the Terminal Config parameter of DAQmxCreateAIVoltageChan, DAQmxCreateAICurrentChan and DAQmxCreateAIVoltageChanWithExcit ***
#define DAQmx_Val_Cfg_Default -1 // Default
//*** Value for the Shunt Resistor Location parameter of DAQmxCreateAICurrentChan ***
#define DAQmx_Val_Default -1 // Default
//*** Value for the Timeout parameter of DAQmxWaitUntilTaskDone
#define DAQmx_Val_WaitInfinitely -1.0
//*** Value for the Number of Samples per Channel parameter of DAQmxReadAnalogF64, DAQmxReadBinaryI16, DAQmxReadBinaryU16,
// DAQmxReadBinaryI32, DAQmxReadBinaryU32, DAQmxReadDigitalU8, DAQmxReadDigitalU32,
// DAQmxReadDigitalLines, DAQmxReadCounterF64, DAQmxReadCounterU32 and DAQmxReadRaw ***
#define DAQmx_Val_Auto -1
// Value set for the Options parameter of DAQmxSaveTask, DAQmxSaveGlobalChan and DAQmxSaveScale
#define DAQmx_Val_Save_Overwrite (1<<0)
#define DAQmx_Val_Save_AllowInteractiveEditing (1<<1)
#define DAQmx_Val_Save_AllowInteractiveDeletion (1<<2)
//*** Values for the Trigger Usage parameter - set of trigger types a device may support
//*** Values for TriggerUsageTypeBits
#define DAQmx_Val_Bit_TriggerUsageTypes_Advance (1<<0) // Device supports advance triggers
#define DAQmx_Val_Bit_TriggerUsageTypes_Pause (1<<1) // Device supports pause triggers
#define DAQmx_Val_Bit_TriggerUsageTypes_Reference (1<<2) // Device supports reference triggers
#define DAQmx_Val_Bit_TriggerUsageTypes_Start (1<<3) // Device supports start triggers
#define DAQmx_Val_Bit_TriggerUsageTypes_Handshake (1<<4) // Device supports handshake triggers
#define DAQmx_Val_Bit_TriggerUsageTypes_ArmStart (1<<5) // Device supports arm start triggers
//*** Values for the Coupling Types parameter - set of coupling types a device may support
//*** Values for CouplingTypeBits
#define DAQmx_Val_Bit_CouplingTypes_AC (1<<0) // Device supports AC coupling
#define DAQmx_Val_Bit_CouplingTypes_DC (1<<1) // Device supports DC coupling
#define DAQmx_Val_Bit_CouplingTypes_Ground (1<<2) // Device supports ground coupling
#define DAQmx_Val_Bit_CouplingTypes_HFReject (1<<3) // Device supports High Frequency Reject coupling
#define DAQmx_Val_Bit_CouplingTypes_LFReject (1<<4) // Device supports Low Frequency Reject coupling
#define DAQmx_Val_Bit_CouplingTypes_NoiseReject (1<<5) // Device supports Noise Reject coupling
//*** Values for DAQmx_PhysicalChan_AI_TermCfgs and DAQmx_PhysicalChan_AO_TermCfgs
//*** Value set TerminalConfigurationBits ***
#define DAQmx_Val_Bit_TermCfg_RSE (1<<0) // RSE terminal configuration
#define DAQmx_Val_Bit_TermCfg_NRSE (1<<1) // NRSE terminal configuration
#define DAQmx_Val_Bit_TermCfg_Diff (1<<2) // Differential terminal configuration
#define DAQmx_Val_Bit_TermCfg_PseudoDIFF (1<<3) // Pseudodifferential terminal configuration
/******************************************************/
/*** Attribute Values ***/
/******************************************************/
//*** Values for DAQmx_AI_ACExcit_WireMode ***
//*** Value set ACExcitWireMode ***
#define DAQmx_Val_4Wire 4 // 4-Wire
#define DAQmx_Val_5Wire 5 // 5-Wire
#define DAQmx_Val_6Wire 6 // 6-Wire
//*** Values for DAQmx_AI_ADCTimingMode ***
//*** Value set ADCTimingMode ***
#define DAQmx_Val_Automatic 16097 // Automatic
#define DAQmx_Val_HighResolution 10195 // High Resolution
#define DAQmx_Val_HighSpeed 14712 // High Speed
#define DAQmx_Val_Best50HzRejection 14713 // Best 50 Hz Rejection
#define DAQmx_Val_Best60HzRejection 14714 // Best 60 Hz Rejection
#define DAQmx_Val_Custom 10137 // Custom
//*** Values for DAQmx_AI_MeasType ***
//*** Values for DAQmx_Dev_AI_SupportedMeasTypes ***
//*** Values for DAQmx_PhysicalChan_AI_SupportedMeasTypes ***
//*** Value set AIMeasurementType ***
#define DAQmx_Val_Voltage 10322 // Voltage
#define DAQmx_Val_VoltageRMS 10350 // Voltage RMS
#define DAQmx_Val_Current 10134 // Current
#define DAQmx_Val_CurrentRMS 10351 // Current RMS
#define DAQmx_Val_Voltage_CustomWithExcitation 10323 // More:Voltage:Custom with Excitation
#define DAQmx_Val_Bridge 15908 // More:Bridge (V/V)
#define DAQmx_Val_Freq_Voltage 10181 // Frequency
#define DAQmx_Val_Resistance 10278 // Resistance
#define DAQmx_Val_Temp_TC 10303 // Temperature:Thermocouple
#define DAQmx_Val_Temp_Thrmstr 10302 // Temperature:Thermistor
#define DAQmx_Val_Temp_RTD 10301 // Temperature:RTD
#define DAQmx_Val_Temp_BuiltInSensor 10311 // Temperature:Built-in Sensor
#define DAQmx_Val_Strain_Gage 10300 // Strain Gage
#define DAQmx_Val_Rosette_Strain_Gage 15980 // Rosette Strain Gage
#define DAQmx_Val_Position_LVDT 10352 // Position:LVDT
#define DAQmx_Val_Position_RVDT 10353 // Position:RVDT
#define DAQmx_Val_Position_EddyCurrentProximityProbe 14835 // Position:Eddy Current Proximity Probe
#define DAQmx_Val_Accelerometer 10356 // Accelerometer
#define DAQmx_Val_Acceleration_Charge 16104 // Acceleration:Charge
#define DAQmx_Val_Acceleration_4WireDCVoltage 16106 // Acceleration:4 Wire DC Voltage
#define DAQmx_Val_Velocity_IEPESensor 15966 // Velocity:IEPE Sensor
#define DAQmx_Val_Force_Bridge 15899 // Force:Bridge
#define DAQmx_Val_Force_IEPESensor 15895 // Force:IEPE Sensor
#define DAQmx_Val_Pressure_Bridge 15902 // Pressure:Bridge
#define DAQmx_Val_SoundPressure_Microphone 10354 // Sound Pressure:Microphone
#define DAQmx_Val_Torque_Bridge 15905 // Torque:Bridge
#define DAQmx_Val_TEDS_Sensor 12531 // TEDS Sensor
#define DAQmx_Val_Charge 16105 // Charge
//*** Values for DAQmx_AO_IdleOutputBehavior ***
//*** Value set AOIdleOutputBehavior ***
#define DAQmx_Val_ZeroVolts 12526 // Zero Volts
#define DAQmx_Val_HighImpedance 12527 // High-Impedance
#define DAQmx_Val_MaintainExistingValue 12528 // Maintain Existing Value
//*** Values for DAQmx_AO_OutputType ***
//*** Values for DAQmx_Dev_AO_SupportedOutputTypes ***
//*** Values for DAQmx_PhysicalChan_AO_SupportedOutputTypes ***
//*** Value set AOOutputChannelType ***
#define DAQmx_Val_Voltage 10322 // Voltage
#define DAQmx_Val_Current 10134 // Current
#define DAQmx_Val_FuncGen 14750 // Function Generation
//*** Values for DAQmx_AI_Accel_Charge_SensitivityUnits ***
//*** Value set AccelChargeSensitivityUnits ***
#define DAQmx_Val_PicoCoulombsPerG 16099 // PicoCoulombs per g
#define DAQmx_Val_PicoCoulombsPerMetersPerSecondSquared 16100 // PicoCoulombs per m/s^2
#define DAQmx_Val_PicoCoulombsPerInchesPerSecondSquared 16101 // PicoCoulombs per in/s^2
//*** Values for DAQmx_AI_Accel_4WireDCVoltage_SensitivityUnits ***
//*** Values for DAQmx_AI_Accel_SensitivityUnits ***
//*** Value set AccelSensitivityUnits1 ***
#define DAQmx_Val_mVoltsPerG 12509 // mVolts/g
#define DAQmx_Val_VoltsPerG 12510 // Volts/g
//*** Values for DAQmx_AI_Accel_Units ***
//*** Value set AccelUnits2 ***
#define DAQmx_Val_AccelUnit_g 10186 // g
#define DAQmx_Val_MetersPerSecondSquared 12470 // m/s^2
#define DAQmx_Val_InchesPerSecondSquared 12471 // in/s^2
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_Dev_AI_SampModes ***
//*** Values for DAQmx_Dev_AO_SampModes ***
//*** Values for DAQmx_Dev_CI_SampModes ***
//*** Values for DAQmx_Dev_CO_SampModes ***
//*** Values for DAQmx_PhysicalChan_DI_SampModes ***
//*** Values for DAQmx_PhysicalChan_DO_SampModes ***
//*** Values for DAQmx_SampQuant_SampMode ***
//*** Value set AcquisitionType ***
#define DAQmx_Val_FiniteSamps 10178 // Finite Samples
#define DAQmx_Val_ContSamps 10123 // Continuous Samples
#define DAQmx_Val_HWTimedSinglePoint 12522 // Hardware Timed Single Point
//*** Values for DAQmx_AnlgLvl_PauseTrig_When ***
//*** Value set ActiveLevel ***
#define DAQmx_Val_AboveLvl 10093 // Above Level
#define DAQmx_Val_BelowLvl 10107 // Below Level
//*** Values for DAQmx_AI_RVDT_Units ***
//*** Value set AngleUnits1 ***
#define DAQmx_Val_Degrees 10146 // Degrees
#define DAQmx_Val_Radians 10273 // Radians
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_CI_AngEncoder_Units ***
//*** Value set AngleUnits2 ***
#define DAQmx_Val_Degrees 10146 // Degrees
#define DAQmx_Val_Radians 10273 // Radians
#define DAQmx_Val_Ticks 10304 // Ticks
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_CI_Velocity_AngEncoder_Units ***
//*** Value set AngularVelocityUnits ***
#define DAQmx_Val_RPM 16080 // RPM
#define DAQmx_Val_RadiansPerSecond 16081 // Radians/s
#define DAQmx_Val_DegreesPerSecond 16082 // Degrees/s
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_AI_AutoZeroMode ***
//*** Value set AutoZeroType1 ***
#define DAQmx_Val_None 10230 // None
#define DAQmx_Val_Once 10244 // Once
#define DAQmx_Val_EverySample 10164 // Every Sample
//*** Values for DAQmx_SwitchScan_BreakMode ***
//*** Value set BreakMode ***
#define DAQmx_Val_NoAction 10227 // No Action
#define DAQmx_Val_BreakBeforeMake 10110 // Break Before Make
//*** Values for DAQmx_AI_Bridge_Cfg ***
//*** Value set BridgeConfiguration1 ***
#define DAQmx_Val_FullBridge 10182 // Full Bridge
#define DAQmx_Val_HalfBridge 10187 // Half Bridge
#define DAQmx_Val_QuarterBridge 10270 // Quarter Bridge
#define DAQmx_Val_NoBridge 10228 // No Bridge
//*** Values for DAQmx_AI_Bridge_ElectricalUnits ***
//*** Value set BridgeElectricalUnits ***
#define DAQmx_Val_VoltsPerVolt 15896 // Volts/Volt
#define DAQmx_Val_mVoltsPerVolt 15897 // mVolts/Volt
//*** Values for DAQmx_AI_Bridge_PhysicalUnits ***
//*** Value set BridgePhysicalUnits ***
#define DAQmx_Val_Newtons 15875 // Newtons
#define DAQmx_Val_Pounds 15876 // Pounds
#define DAQmx_Val_KilogramForce 15877 // kgf
#define DAQmx_Val_Pascals 10081 // Pascals
#define DAQmx_Val_PoundsPerSquareInch 15879 // psi
#define DAQmx_Val_Bar 15880 // bar
#define DAQmx_Val_NewtonMeters 15881 // Nm
#define DAQmx_Val_InchOunces 15882 // oz-in
#define DAQmx_Val_InchPounds 15883 // lb-in
#define DAQmx_Val_FootPounds 15884 // lb-ft
//*** Values for DAQmx_AI_Bridge_Units ***
//*** Value set BridgeUnits ***
#define DAQmx_Val_VoltsPerVolt 15896 // Volts/Volt
#define DAQmx_Val_mVoltsPerVolt 15897 // mVolts/Volt
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
#define DAQmx_Val_FromTEDS 12516 // From TEDS
//*** Values for DAQmx_Dev_BusType ***
//*** Value set BusType ***
#define DAQmx_Val_PCI 12582 // PCI
#define DAQmx_Val_PCIe 13612 // PCIe
#define DAQmx_Val_PXI 12583 // PXI
#define DAQmx_Val_PXIe 14706 // PXIe
#define DAQmx_Val_SCXI 12584 // SCXI
#define DAQmx_Val_SCC 14707 // SCC
#define DAQmx_Val_PCCard 12585 // PCCard
#define DAQmx_Val_USB 12586 // USB
#define DAQmx_Val_CompactDAQ 14637 // CompactDAQ
#define DAQmx_Val_CompactRIO 16143 // CompactRIO
#define DAQmx_Val_TCPIP 14828 // TCP/IP
#define DAQmx_Val_Unknown 12588 // Unknown
#define DAQmx_Val_SwitchBlock 15870 // SwitchBlock
//*** Values for DAQmx_CI_MeasType ***
//*** Values for DAQmx_Dev_CI_SupportedMeasTypes ***
//*** Values for DAQmx_PhysicalChan_CI_SupportedMeasTypes ***
//*** Value set CIMeasurementType ***
#define DAQmx_Val_CountEdges 10125 // Count Edges
#define DAQmx_Val_Freq 10179 // Frequency
#define DAQmx_Val_Period 10256 // Period
#define DAQmx_Val_PulseWidth 10359 // Pulse Width
#define DAQmx_Val_SemiPeriod 10289 // Semi Period
#define DAQmx_Val_PulseFrequency 15864 // Pulse Frequency
#define DAQmx_Val_PulseTime 15865 // Pulse Time
#define DAQmx_Val_PulseTicks 15866 // Pulse Ticks
#define DAQmx_Val_DutyCycle 16070 // Duty Cycle
#define DAQmx_Val_Position_AngEncoder 10360 // Position:Angular Encoder
#define DAQmx_Val_Position_LinEncoder 10361 // Position:Linear Encoder
#define DAQmx_Val_Velocity_AngEncoder 16078 // Velocity:Angular Encoder
#define DAQmx_Val_Velocity_LinEncoder 16079 // Velocity:Linear Encoder
#define DAQmx_Val_TwoEdgeSep 10267 // Two Edge Separation
#define DAQmx_Val_GPS_Timestamp 10362 // GPS Timestamp
//*** Values for DAQmx_AI_Thrmcpl_CJCSrc ***
//*** Value set CJCSource1 ***
#define DAQmx_Val_BuiltIn 10200 // Built-In
#define DAQmx_Val_ConstVal 10116 // Constant Value
#define DAQmx_Val_Chan 10113 // Channel
//*** Values for DAQmx_CO_OutputType ***
//*** Values for DAQmx_Dev_CO_SupportedOutputTypes ***
//*** Values for DAQmx_PhysicalChan_CO_SupportedOutputTypes ***
//*** Value set COOutputType ***
#define DAQmx_Val_Pulse_Time 10269 // Pulse:Time
#define DAQmx_Val_Pulse_Freq 10119 // Pulse:Frequency
#define DAQmx_Val_Pulse_Ticks 10268 // Pulse:Ticks
//*** Values for DAQmx_ChanType ***
//*** Value set ChannelType ***
#define DAQmx_Val_AI 10100 // Analog Input
#define DAQmx_Val_AO 10102 // Analog Output
#define DAQmx_Val_DI 10151 // Digital Input
#define DAQmx_Val_DO 10153 // Digital Output
#define DAQmx_Val_CI 10131 // Counter Input
#define DAQmx_Val_CO 10132 // Counter Output
//*** Values for DAQmx_CO_ConstrainedGenMode ***
//*** Value set ConstrainedGenMode ***
#define DAQmx_Val_Unconstrained 14708 // Unconstrained
#define DAQmx_Val_FixedHighFreq 14709 // Fixed High Frequency
#define DAQmx_Val_FixedLowFreq 14710 // Fixed Low Frequency
#define DAQmx_Val_Fixed50PercentDutyCycle 14711 // Fixed 50 Percent Duty Cycle
//*** Values for DAQmx_CI_CountEdges_Dir ***
//*** Value set CountDirection1 ***
#define DAQmx_Val_CountUp 10128 // Count Up
#define DAQmx_Val_CountDown 10124 // Count Down
#define DAQmx_Val_ExtControlled 10326 // Externally Controlled
//*** Values for DAQmx_CI_Freq_MeasMeth ***
//*** Values for DAQmx_CI_Period_MeasMeth ***
//*** Value set CounterFrequencyMethod ***
#define DAQmx_Val_LowFreq1Ctr 10105 // Low Frequency with 1 Counter
#define DAQmx_Val_HighFreq2Ctr 10157 // High Frequency with 2 Counters
#define DAQmx_Val_LargeRng2Ctr 10205 // Large Range with 2 Counters
#define DAQmx_Val_DynAvg 16065 // Dynamic Averaging
//*** Values for DAQmx_AI_Coupling ***
//*** Value set Coupling1 ***
#define DAQmx_Val_AC 10045 // AC
#define DAQmx_Val_DC 10050 // DC
#define DAQmx_Val_GND 10066 // GND
//*** Values for DAQmx_AnlgEdge_StartTrig_Coupling ***
//*** Values for DAQmx_AnlgMultiEdge_StartTrig_Couplings ***
//*** Values for DAQmx_AnlgWin_StartTrig_Coupling ***
//*** Values for DAQmx_AnlgEdge_RefTrig_Coupling ***
//*** Values for DAQmx_AnlgMultiEdge_RefTrig_Couplings ***
//*** Values for DAQmx_AnlgWin_RefTrig_Coupling ***
//*** Values for DAQmx_AnlgLvl_PauseTrig_Coupling ***
//*** Values for DAQmx_AnlgWin_PauseTrig_Coupling ***
//*** Value set Coupling2 ***
#define DAQmx_Val_AC 10045 // AC
#define DAQmx_Val_DC 10050 // DC
//*** Values for DAQmx_AI_CurrentShunt_Loc ***
//*** Value set CurrentShuntResistorLocation1 ***
#define DAQmx_Val_Internal 10200 // Internal
#define DAQmx_Val_External 10167 // External
//*** Values for DAQmx_AI_Bridge_ShuntCal_ShuntCalASrc ***
//*** Value set BridgeShuntCalSource ***
#define DAQmx_Val_BuiltIn 10200 // Built-In
#define DAQmx_Val_UserProvided 10167 // User Provided
//*** Values for DAQmx_AI_Charge_Units ***
//*** Value set ChargeUnits ***
#define DAQmx_Val_Coulombs 16102 // Coulombs
#define DAQmx_Val_PicoCoulombs 16103 // PicoCoulombs
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_AI_Current_Units ***
//*** Values for DAQmx_AI_Current_ACRMS_Units ***
//*** Values for DAQmx_AO_Current_Units ***
//*** Value set CurrentUnits1 ***
#define DAQmx_Val_Amps 10342 // Amps
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
#define DAQmx_Val_FromTEDS 12516 // From TEDS
//*** Value set CurrentUnits2 ***
#define DAQmx_Val_Amps 10342 // Amps
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_AI_RawSampJustification ***
//*** Value set DataJustification1 ***
#define DAQmx_Val_RightJustified 10279 // Right-Justified
#define DAQmx_Val_LeftJustified 10209 // Left-Justified
//*** Values for DAQmx_AI_DataXferMech ***
//*** Values for DAQmx_AO_DataXferMech ***
//*** Values for DAQmx_DI_DataXferMech ***
//*** Values for DAQmx_DO_DataXferMech ***
//*** Values for DAQmx_CI_DataXferMech ***
//*** Values for DAQmx_CO_DataXferMech ***
//*** Value set DataTransferMechanism ***
#define DAQmx_Val_DMA 10054 // DMA
#define DAQmx_Val_Interrupts 10204 // Interrupts
#define DAQmx_Val_ProgrammedIO 10264 // Programmed I/O
#define DAQmx_Val_USBbulk 12590 // USB Bulk
//*** Values for DAQmx_Exported_RdyForXferEvent_DeassertCond ***
//*** Value set DeassertCondition ***
#define DAQmx_Val_OnbrdMemMoreThanHalfFull 10237 // Onboard Memory More than Half Full
#define DAQmx_Val_OnbrdMemFull 10236 // Onboard Memory Full
#define DAQmx_Val_OnbrdMemCustomThreshold 12577 // Onboard Memory Custom Threshold
//*** Values for DAQmx_DO_OutputDriveType ***
//*** Value set DigitalDriveType ***
#define DAQmx_Val_ActiveDrive 12573 // Active Drive
#define DAQmx_Val_OpenCollector 12574 // Open Collector
//*** Values for DAQmx_DO_LineStates_StartState ***
//*** Values for DAQmx_DO_LineStates_PausedState ***
//*** Values for DAQmx_DO_LineStates_DoneState ***
//*** Values for DAQmx_Watchdog_DO_ExpirState ***
//*** Value set DigitalLineState ***
#define DAQmx_Val_High 10192 // High
#define DAQmx_Val_Low 10214 // Low
#define DAQmx_Val_Tristate 10310 // Tristate
#define DAQmx_Val_NoChange 10160 // No Change
//*** Values for DAQmx_DigPattern_StartTrig_When ***
//*** Values for DAQmx_DigPattern_RefTrig_When ***
//*** Values for DAQmx_DigPattern_PauseTrig_When ***
//*** Value set DigitalPatternCondition1 ***
#define DAQmx_Val_PatternMatches 10254 // Pattern Matches
#define DAQmx_Val_PatternDoesNotMatch 10253 // Pattern Does Not Match
//*** Values for DAQmx_StartTrig_DelayUnits ***
//*** Value set DigitalWidthUnits1 ***
#define DAQmx_Val_SampClkPeriods 10286 // Sample Clock Periods
#define DAQmx_Val_Seconds 10364 // Seconds
#define DAQmx_Val_Ticks 10304 // Ticks
//*** Values for DAQmx_DelayFromSampClk_DelayUnits ***
//*** Value set DigitalWidthUnits2 ***
#define DAQmx_Val_Seconds 10364 // Seconds
#define DAQmx_Val_Ticks 10304 // Ticks
//*** Values for DAQmx_Exported_AdvTrig_Pulse_WidthUnits ***
//*** Value set DigitalWidthUnits3 ***
#define DAQmx_Val_Seconds 10364 // Seconds
//*** Values for DAQmx_AI_FilterDelayUnits ***
//*** Values for DAQmx_AO_FilterDelayUnits ***
//*** Value set DigitalWidthUnits4 ***
#define DAQmx_Val_Seconds 10364 // Seconds
#define DAQmx_Val_SampleClkPeriods 10286 // Sample Clock Periods
//*** Values for DAQmx_AI_EddyCurrentProxProbe_SensitivityUnits ***
//*** Value set EddyCurrentProxProbeSensitivityUnits ***
#define DAQmx_Val_mVoltsPerMil 14836 // mVolts/mil
#define DAQmx_Val_VoltsPerMil 14837 // Volts/mil
#define DAQmx_Val_mVoltsPerMillimeter 14838 // mVolts/mMeter
#define DAQmx_Val_VoltsPerMillimeter 14839 // Volts/mMeter
#define DAQmx_Val_mVoltsPerMicron 14840 // mVolts/micron
//*** Values for DAQmx_CI_Freq_StartingEdge ***
//*** Values for DAQmx_CI_Period_StartingEdge ***
//*** Values for DAQmx_CI_CountEdges_ActiveEdge ***
//*** Values for DAQmx_CI_CountEdges_CountReset_ActiveEdge ***
//*** Values for DAQmx_CI_DutyCycle_StartingEdge ***
//*** Values for DAQmx_CI_PulseWidth_StartingEdge ***
//*** Values for DAQmx_CI_TwoEdgeSep_FirstEdge ***
//*** Values for DAQmx_CI_TwoEdgeSep_SecondEdge ***
//*** Values for DAQmx_CI_SemiPeriod_StartingEdge ***
//*** Values for DAQmx_CI_Pulse_Freq_Start_Edge ***
//*** Values for DAQmx_CI_Pulse_Time_StartEdge ***
//*** Values for DAQmx_CI_Pulse_Ticks_StartEdge ***
//*** Values for DAQmx_CI_CtrTimebaseActiveEdge ***
//*** Values for DAQmx_CO_CtrTimebaseActiveEdge ***
//*** Values for DAQmx_SampClk_ActiveEdge ***
//*** Values for DAQmx_SampClk_Timebase_ActiveEdge ***
//*** Values for DAQmx_AIConv_ActiveEdge ***
//*** Values for DAQmx_DigEdge_StartTrig_Edge ***
//*** Values for DAQmx_DigEdge_RefTrig_Edge ***
//*** Values for DAQmx_DigEdge_AdvTrig_Edge ***
//*** Values for DAQmx_DigEdge_ArmStartTrig_Edge ***
//*** Values for DAQmx_DigEdge_WatchdogExpirTrig_Edge ***
//*** Value set Edge1 ***
#define DAQmx_Val_Rising 10280 // Rising
#define DAQmx_Val_Falling 10171 // Falling
//*** Values for DAQmx_CI_Encoder_DecodingType ***
//*** Values for DAQmx_CI_Velocity_Encoder_DecodingType ***
//*** Value set EncoderType2 ***
#define DAQmx_Val_X1 10090 // X1
#define DAQmx_Val_X2 10091 // X2
#define DAQmx_Val_X4 10092 // X4
#define DAQmx_Val_TwoPulseCounting 10313 // Two Pulse Counting
//*** Values for DAQmx_CI_Encoder_ZIndexPhase ***
//*** Value set EncoderZIndexPhase1 ***
#define DAQmx_Val_AHighBHigh 10040 // A High B High
#define DAQmx_Val_AHighBLow 10041 // A High B Low
#define DAQmx_Val_ALowBHigh 10042 // A Low B High
#define DAQmx_Val_ALowBLow 10043 // A Low B Low
//*** Values for DAQmx_AI_Excit_DCorAC ***
//*** Value set ExcitationDCorAC ***
#define DAQmx_Val_DC 10050 // DC
#define DAQmx_Val_AC 10045 // AC
//*** Values for DAQmx_AI_Excit_Src ***
//*** Value set ExcitationSource ***
#define DAQmx_Val_Internal 10200 // Internal
#define DAQmx_Val_External 10167 // External
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_AI_Excit_VoltageOrCurrent ***
//*** Value set ExcitationVoltageOrCurrent ***
#define DAQmx_Val_Voltage 10322 // Voltage
#define DAQmx_Val_Current 10134 // Current
//*** Values for DAQmx_Exported_CtrOutEvent_OutputBehavior ***
//*** Value set ExportActions2 ***
#define DAQmx_Val_Pulse 10265 // Pulse
#define DAQmx_Val_Toggle 10307 // Toggle
//*** Values for DAQmx_Exported_SampClk_OutputBehavior ***
//*** Value set ExportActions3 ***
#define DAQmx_Val_Pulse 10265 // Pulse
#define DAQmx_Val_Lvl 10210 // Level
//*** Values for DAQmx_Exported_HshkEvent_OutputBehavior ***
//*** Value set ExportActions5 ***
#define DAQmx_Val_Interlocked 12549 // Interlocked
#define DAQmx_Val_Pulse 10265 // Pulse
//*** Values for DAQmx_AI_DigFltr_Type ***
//*** Values for DAQmx_AI_DigFltr_Types ***
//*** Value set FilterType2 ***
#define DAQmx_Val_Lowpass 16071 // Lowpass
#define DAQmx_Val_Highpass 16072 // Highpass
#define DAQmx_Val_Bandpass 16073 // Bandpass
#define DAQmx_Val_Notch 16074 // Notch
#define DAQmx_Val_Custom 10137 // Custom
//*** Values for DAQmx_AI_DigFltr_Response ***
//*** Value set FilterResponse ***
#define DAQmx_Val_ConstantGroupDelay 16075 // Constant Group Delay
#define DAQmx_Val_Butterworth 16076 // Butterworth
#define DAQmx_Val_Elliptical 16077 // Elliptical
#define DAQmx_Val_HardwareDefined 10191 // Hardware Defined
//*** Values for DAQmx_AI_Filter_Response ***
//*** Value set FilterResponse1 ***
#define DAQmx_Val_Comb 16152 // Comb
#define DAQmx_Val_Bessel 16153 // Bessel
#define DAQmx_Val_Brickwall 16155 // Brickwall
#define DAQmx_Val_Butterworth 16076 // Butterworth
//*** Values for DAQmx_AI_Force_IEPESensor_SensitivityUnits ***
//*** Value set ForceIEPESensorSensitivityUnits ***
#define DAQmx_Val_mVoltsPerNewton 15891 // mVolts/N
#define DAQmx_Val_mVoltsPerPound 15892 // mVolts/lb
//*** Values for DAQmx_AI_Force_Units ***
//*** Value set ForceUnits ***
#define DAQmx_Val_Newtons 15875 // Newtons
#define DAQmx_Val_Pounds 15876 // Pounds
#define DAQmx_Val_KilogramForce 15877 // kgf
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_AI_Freq_Units ***
//*** Value set FrequencyUnits ***
#define DAQmx_Val_Hz 10373 // Hz
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_CI_Pulse_Freq_Units ***
//*** Values for DAQmx_CO_Pulse_Freq_Units ***
//*** Value set FrequencyUnits2 ***
#define DAQmx_Val_Hz 10373 // Hz
//*** Values for DAQmx_CI_Freq_Units ***
//*** Value set FrequencyUnits3 ***
#define DAQmx_Val_Hz 10373 // Hz
#define DAQmx_Val_Ticks 10304 // Ticks
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_AO_FuncGen_Type ***
//*** Value set FuncGenType ***
#define DAQmx_Val_Sine 14751 // Sine
#define DAQmx_Val_Triangle 14752 // Triangle
#define DAQmx_Val_Square 14753 // Square
#define DAQmx_Val_Sawtooth 14754 // Sawtooth
//*** Values for DAQmx_CI_GPS_SyncMethod ***
//*** Value set GpsSignalType1 ***
#define DAQmx_Val_IRIGB 10070 // IRIG-B
#define DAQmx_Val_PPS 10080 // PPS
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_Hshk_StartCond ***
//*** Value set HandshakeStartCondition ***
#define DAQmx_Val_Immediate 10198 // Immediate
#define DAQmx_Val_WaitForHandshakeTriggerAssert 12550 // Wait For Handshake Trigger Assert
#define DAQmx_Val_WaitForHandshakeTriggerDeassert 12551 // Wait For Handshake Trigger Deassert
//*** Values for DAQmx_AI_DataXferReqCond ***
//*** Values for DAQmx_DI_DataXferReqCond ***
//*** Values for DAQmx_CI_DataXferReqCond ***
//*** Value set InputDataTransferCondition ***
#define DAQmx_Val_OnBrdMemMoreThanHalfFull 10237 // Onboard Memory More than Half Full
#define DAQmx_Val_OnBrdMemNotEmpty 10241 // Onboard Memory Not Empty
#define DAQmx_Val_OnbrdMemCustomThreshold 12577 // Onboard Memory Custom Threshold
#define DAQmx_Val_WhenAcqComplete 12546 // When Acquisition Complete
//*** Values for DAQmx_AI_TermCfg ***
//*** Value set InputTermCfg ***
#define DAQmx_Val_RSE 10083 // RSE
#define DAQmx_Val_NRSE 10078 // NRSE
#define DAQmx_Val_Diff 10106 // Differential
#define DAQmx_Val_PseudoDiff 12529 // Pseudodifferential
//*** Values for DAQmx_CI_Freq_TermCfg ***
//*** Values for DAQmx_CI_Period_TermCfg ***
//*** Values for DAQmx_CI_CountEdges_TermCfg ***
//*** Values for DAQmx_CI_CountEdges_CountDir_TermCfg ***
//*** Values for DAQmx_CI_CountEdges_CountReset_TermCfg ***
//*** Values for DAQmx_CI_CountEdges_Gate_TermCfg ***
//*** Values for DAQmx_CI_DutyCycle_TermCfg ***
//*** Values for DAQmx_CI_Encoder_AInputTermCfg ***
//*** Values for DAQmx_CI_Encoder_BInputTermCfg ***
//*** Values for DAQmx_CI_Encoder_ZInputTermCfg ***
//*** Values for DAQmx_CI_PulseWidth_TermCfg ***
//*** Values for DAQmx_CI_Velocity_Encoder_AInputTermCfg ***
//*** Values for DAQmx_CI_Velocity_Encoder_BInputTermCfg ***
//*** Values for DAQmx_CI_TwoEdgeSep_FirstTermCfg ***
//*** Values for DAQmx_CI_TwoEdgeSep_SecondTermCfg ***
//*** Values for DAQmx_CI_SemiPeriod_TermCfg ***
//*** Values for DAQmx_CI_Pulse_Freq_TermCfg ***
//*** Values for DAQmx_CI_Pulse_Time_TermCfg ***
//*** Values for DAQmx_CI_Pulse_Ticks_TermCfg ***
//*** Value set InputTermCfg2 ***
#define DAQmx_Val_Diff 10106 // Differential
#define DAQmx_Val_RSE 10083 // RSE
//*** Values for DAQmx_AI_LVDT_SensitivityUnits ***
//*** Value set LVDTSensitivityUnits1 ***
#define DAQmx_Val_mVoltsPerVoltPerMillimeter 12506 // mVolts/Volt/mMeter
#define DAQmx_Val_mVoltsPerVoltPerMilliInch 12505 // mVolts/Volt/0.001 Inch
//*** Values for DAQmx_AI_LVDT_Units ***
//*** Values for DAQmx_AI_EddyCurrentProxProbe_Units ***
//*** Value set LengthUnits2 ***
#define DAQmx_Val_Meters 10219 // Meters
#define DAQmx_Val_Inches 10379 // Inches
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_CI_LinEncoder_Units ***
//*** Value set LengthUnits3 ***
#define DAQmx_Val_Meters 10219 // Meters
#define DAQmx_Val_Inches 10379 // Inches
#define DAQmx_Val_Ticks 10304 // Ticks
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_CI_CountEdges_GateWhen ***
//*** Values for DAQmx_CI_OutputState ***
//*** Values for DAQmx_CO_Pulse_IdleState ***
//*** Values for DAQmx_CO_OutputState ***
//*** Values for DAQmx_Exported_CtrOutEvent_Toggle_IdleState ***
//*** Values for DAQmx_Exported_HshkEvent_Interlocked_AssertedLvl ***
//*** Values for DAQmx_Interlocked_HshkTrig_AssertedLvl ***
//*** Values for DAQmx_DigLvl_PauseTrig_When ***
//*** Value set Level1 ***
#define DAQmx_Val_High 10192 // High
#define DAQmx_Val_Low 10214 // Low
//*** Values for DAQmx_Logging_Mode ***
//*** Value set LoggingMode ***
#define DAQmx_Val_Off 10231 // Off
#define DAQmx_Val_Log 15844 // Log
#define DAQmx_Val_LogAndRead 15842 // Log and Read
//*** Values for DAQmx_Logging_TDMS_Operation ***
//*** Value set LoggingOperation ***
#define DAQmx_Val_Open 10437 // Open
#define DAQmx_Val_OpenOrCreate 15846 // Open or Create
#define DAQmx_Val_CreateOrReplace 15847 // Create or Replace
#define DAQmx_Val_Create 15848 // Create
//*** Values for DAQmx_DI_LogicFamily ***
//*** Values for DAQmx_DO_LogicFamily ***
//*** Value set LogicFamily ***
#define DAQmx_Val_2point5V 14620 // 2.5 V
#define DAQmx_Val_3point3V 14621 // 3.3 V
#define DAQmx_Val_5V 14619 // 5.0 V
//*** Values for DAQmx_AIConv_Timebase_Src ***
//*** Value set MIOAIConvertTbSrc ***
#define DAQmx_Val_SameAsSampTimebase 10284 // Same as Sample Timebase
#define DAQmx_Val_SameAsMasterTimebase 10282 // Same as Master Timebase
#define DAQmx_Val_100MHzTimebase 15857 // 100 MHz Timebase
#define DAQmx_Val_80MHzTimebase 14636 // 80 MHz Timebase
#define DAQmx_Val_20MHzTimebase 12537 // 20 MHz Timebase
#define DAQmx_Val_8MHzTimebase 16023 // 8 MHz Timebase
//*** Values for DAQmx_AO_FuncGen_ModulationType ***
//*** Value set ModulationType ***
#define DAQmx_Val_AM 14756 // AM
#define DAQmx_Val_FM 14757 // FM
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_AO_DataXferReqCond ***
//*** Values for DAQmx_DO_DataXferReqCond ***
//*** Values for DAQmx_CO_DataXferReqCond ***
//*** Value set OutputDataTransferCondition ***
#define DAQmx_Val_OnBrdMemEmpty 10235 // Onboard Memory Empty
#define DAQmx_Val_OnBrdMemHalfFullOrLess 10239 // Onboard Memory Half Full or Less
#define DAQmx_Val_OnBrdMemNotFull 10242 // Onboard Memory Less than Full
//*** Values for DAQmx_AO_TermCfg ***
//*** Value set OutputTermCfg ***
#define DAQmx_Val_RSE 10083 // RSE
#define DAQmx_Val_Diff 10106 // Differential
#define DAQmx_Val_PseudoDiff 12529 // Pseudodifferential
//*** Values for DAQmx_SampClk_OverrunBehavior ***
//*** Value set OverflowBehavior ***
#define DAQmx_Val_StopTaskAndError 15862 // Stop Task And Error
#define DAQmx_Val_IgnoreOverruns 15863 // Ignore Overruns
//*** Values for DAQmx_Read_OverWrite ***
//*** Value set OverwriteMode1 ***
#define DAQmx_Val_OverwriteUnreadSamps 10252 // Overwrite Unread Samples
#define DAQmx_Val_DoNotOverwriteUnreadSamps 10159 // Do Not Overwrite Unread Samples
//*** Values for DAQmx_Exported_AIConvClk_Pulse_Polarity ***
//*** Values for DAQmx_Exported_SampClk_Pulse_Polarity ***
//*** Values for DAQmx_Exported_AdvTrig_Pulse_Polarity ***
//*** Values for DAQmx_Exported_PauseTrig_Lvl_ActiveLvl ***
//*** Values for DAQmx_Exported_RefTrig_Pulse_Polarity ***
//*** Values for DAQmx_Exported_StartTrig_Pulse_Polarity ***
//*** Values for DAQmx_Exported_AdvCmpltEvent_Pulse_Polarity ***
//*** Values for DAQmx_Exported_AIHoldCmpltEvent_PulsePolarity ***
//*** Values for DAQmx_Exported_ChangeDetectEvent_Pulse_Polarity ***
//*** Values for DAQmx_Exported_CtrOutEvent_Pulse_Polarity ***
//*** Values for DAQmx_Exported_HshkEvent_Pulse_Polarity ***
//*** Values for DAQmx_Exported_RdyForXferEvent_Lvl_ActiveLvl ***
//*** Values for DAQmx_Exported_DataActiveEvent_Lvl_ActiveLvl ***
//*** Values for DAQmx_Exported_RdyForStartEvent_Lvl_ActiveLvl ***
//*** Value set Polarity2 ***
#define DAQmx_Val_ActiveHigh 10095 // Active High
#define DAQmx_Val_ActiveLow 10096 // Active Low
//*** Values for DAQmx_AI_Pressure_Units ***
//*** Value set PressureUnits ***
#define DAQmx_Val_Pascals 10081 // Pascals
#define DAQmx_Val_PoundsPerSquareInch 15879 // psi
#define DAQmx_Val_Bar 15880 // bar
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_Dev_ProductCategory ***
//*** Value set ProductCategory ***
#define DAQmx_Val_MSeriesDAQ 14643 // M Series DAQ
#define DAQmx_Val_XSeriesDAQ 15858 // X Series DAQ
#define DAQmx_Val_ESeriesDAQ 14642 // E Series DAQ
#define DAQmx_Val_SSeriesDAQ 14644 // S Series DAQ
#define DAQmx_Val_BSeriesDAQ 14662 // B Series DAQ
#define DAQmx_Val_SCSeriesDAQ 14645 // SC Series DAQ
#define DAQmx_Val_USBDAQ 14646 // USB DAQ
#define DAQmx_Val_AOSeries 14647 // AO Series
#define DAQmx_Val_DigitalIO 14648 // Digital I/O
#define DAQmx_Val_TIOSeries 14661 // TIO Series
#define DAQmx_Val_DynamicSignalAcquisition 14649 // Dynamic Signal Acquisition
#define DAQmx_Val_Switches 14650 // Switches
#define DAQmx_Val_CompactDAQChassis 14658 // CompactDAQ Chassis
#define DAQmx_Val_CompactRIOChassis 16144 // CompactRIO Chassis
#define DAQmx_Val_CSeriesModule 14659 // C Series Module
#define DAQmx_Val_SCXIModule 14660 // SCXI Module
#define DAQmx_Val_SCCConnectorBlock 14704 // SCC Connector Block
#define DAQmx_Val_SCCModule 14705 // SCC Module
#define DAQmx_Val_NIELVIS 14755 // NI ELVIS
#define DAQmx_Val_NetworkDAQ 14829 // Network DAQ
#define DAQmx_Val_SCExpress 15886 // SC Express
#define DAQmx_Val_FieldDAQ 16151 // FieldDAQ
#define DAQmx_Val_Unknown 12588 // Unknown
//*** Values for DAQmx_AI_RTD_Type ***
//*** Value set RTDType1 ***
#define DAQmx_Val_Pt3750 12481 // Pt3750
#define DAQmx_Val_Pt3851 10071 // Pt3851
#define DAQmx_Val_Pt3911 12482 // Pt3911
#define DAQmx_Val_Pt3916 10069 // Pt3916
#define DAQmx_Val_Pt3920 10053 // Pt3920
#define DAQmx_Val_Pt3928 12483 // Pt3928
#define DAQmx_Val_Custom 10137 // Custom
//*** Values for DAQmx_AI_RVDT_SensitivityUnits ***
//*** Value set RVDTSensitivityUnits1 ***
#define DAQmx_Val_mVoltsPerVoltPerDegree 12507 // mVolts/Volt/Degree
#define DAQmx_Val_mVoltsPerVoltPerRadian 12508 // mVolts/Volt/Radian
//*** Values for DAQmx_AI_RawDataCompressionType ***
//*** Value set RawDataCompressionType ***
#define DAQmx_Val_None 10230 // None
#define DAQmx_Val_LosslessPacking 12555 // Lossless Packing
#define DAQmx_Val_LossyLSBRemoval 12556 // Lossy LSB Removal
//*** Values for DAQmx_Read_RelativeTo ***
//*** Value set ReadRelativeTo ***
#define DAQmx_Val_FirstSample 10424 // First Sample
#define DAQmx_Val_CurrReadPos 10425 // Current Read Position
#define DAQmx_Val_RefTrig 10426 // Reference Trigger
#define DAQmx_Val_FirstPretrigSamp 10427 // First Pretrigger Sample
#define DAQmx_Val_MostRecentSamp 10428 // Most Recent Sample
//*** Values for DAQmx_Write_RegenMode ***
//*** Value set RegenerationMode1 ***
#define DAQmx_Val_AllowRegen 10097 // Allow Regeneration
#define DAQmx_Val_DoNotAllowRegen 10158 // Do Not Allow Regeneration
//*** Values for DAQmx_AI_ResistanceCfg ***
//*** Value set ResistanceConfiguration ***
#define DAQmx_Val_2Wire 2 // 2-Wire
#define DAQmx_Val_3Wire 3 // 3-Wire
#define DAQmx_Val_4Wire 4 // 4-Wire
//*** Values for DAQmx_AI_Resistance_Units ***
//*** Value set ResistanceUnits1 ***
#define DAQmx_Val_Ohms 10384 // Ohms
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
#define DAQmx_Val_FromTEDS 12516 // From TEDS
//*** Value set ResistanceUnits2 ***
#define DAQmx_Val_Ohms 10384 // Ohms
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_AI_ResolutionUnits ***
//*** Values for DAQmx_AO_ResolutionUnits ***
//*** Value set ResolutionType1 ***
#define DAQmx_Val_Bits 10109 // Bits
//*** Value set SCXI1124Range ***
#define DAQmx_Val_SCXI1124Range0to1V 14629 // 0V to 1V
#define DAQmx_Val_SCXI1124Range0to5V 14630 // 0V to 5V
#define DAQmx_Val_SCXI1124Range0to10V 14631 // 0V to 10V
#define DAQmx_Val_SCXI1124RangeNeg1to1V 14632 // -1V to 1V
#define DAQmx_Val_SCXI1124RangeNeg5to5V 14633 // -5V to 5V
#define DAQmx_Val_SCXI1124RangeNeg10to10V 14634 // -10V to 10V
#define DAQmx_Val_SCXI1124Range0to20mA 14635 // 0mA to 20mA
//*** Values for DAQmx_DI_AcquireOn ***
//*** Values for DAQmx_DO_GenerateOn ***
//*** Value set SampleClockActiveOrInactiveEdgeSelection ***
#define DAQmx_Val_SampClkActiveEdge 14617 // Sample Clock Active Edge
#define DAQmx_Val_SampClkInactiveEdge 14618 // Sample Clock Inactive Edge
//*** Values for DAQmx_Hshk_SampleInputDataWhen ***
//*** Value set SampleInputDataWhen ***
#define DAQmx_Val_HandshakeTriggerAsserts 12552 // Handshake Trigger Asserts
#define DAQmx_Val_HandshakeTriggerDeasserts 12553 // Handshake Trigger Deasserts
//*** Values for DAQmx_SampTimingType ***
//*** Value set SampleTimingType ***
#define DAQmx_Val_SampClk 10388 // Sample Clock
#define DAQmx_Val_BurstHandshake 12548 // Burst Handshake
#define DAQmx_Val_Handshake 10389 // Handshake
#define DAQmx_Val_Implicit 10451 // Implicit
#define DAQmx_Val_OnDemand 10390 // On Demand
#define DAQmx_Val_ChangeDetection 12504 // Change Detection
#define DAQmx_Val_PipelinedSampClk 14668 // Pipelined Sample Clock
//*** Values for DAQmx_Scale_Type ***
//*** Value set ScaleType ***
#define DAQmx_Val_Linear 10447 // Linear
#define DAQmx_Val_MapRanges 10448 // Map Ranges
#define DAQmx_Val_Polynomial 10449 // Polynomial
#define DAQmx_Val_Table 10450 // Table
//*** Values for DAQmx_AI_Thrmcpl_ScaleType ***
//*** Value set ScaleType2 ***
#define DAQmx_Val_Polynomial 10449 // Polynomial
#define DAQmx_Val_Table 10450 // Table
//*** Values for DAQmx_AI_ChanCal_ScaleType ***
//*** Value set ScaleType3 ***
#define DAQmx_Val_Polynomial 10449 // Polynomial
#define DAQmx_Val_Table 10450 // Table
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_AI_Bridge_ScaleType ***
//*** Value set ScaleType4 ***
#define DAQmx_Val_None 10230 // None
#define DAQmx_Val_TwoPointLinear 15898 // Two-Point Linear
#define DAQmx_Val_Table 10450 // Table
#define DAQmx_Val_Polynomial 10449 // Polynomial
//*** Values for DAQmx_AI_SensorPower_Cfg ***
//*** Value set SensorPowerCfg ***
#define DAQmx_Val_NoChange 10160 // No Change
#define DAQmx_Val_Enabled 16145 // Enabled
#define DAQmx_Val_Disabled 16146 // Disabled
//*** Values for DAQmx_AI_SensorPower_Type ***
//*** Values for DAQmx_PhysicalChan_AI_SensorPower_Types ***
//*** Values for DAQmx_PhysicalChan_AI_PowerControl_Type ***
//*** Value set SensorPowerType ***
#define DAQmx_Val_DC 10050 // DC
#define DAQmx_Val_AC 10045 // AC
#define DAQmx_Val_BipolarDC 16147 // BipolarDC
//*** Values for DAQmx_AI_Bridge_ShuntCal_Select ***
//*** Value set ShuntCalSelect ***
#define DAQmx_Val_A 12513 // A
#define DAQmx_Val_B 12514 // B
#define DAQmx_Val_AandB 12515 // A and B
//*** Value set ShuntElementLocation ***
#define DAQmx_Val_R1 12465 // R1
#define DAQmx_Val_R2 12466 // R2
#define DAQmx_Val_R3 12467 // R3
#define DAQmx_Val_R4 14813 // R4
#define DAQmx_Val_None 10230 // None
//*** Value set Signal ***
#define DAQmx_Val_AIConvertClock 12484 // AI Convert Clock
#define DAQmx_Val_10MHzRefClock 12536 // 10MHz Reference Clock
#define DAQmx_Val_20MHzTimebaseClock 12486 // 20MHz Timebase Clock
#define DAQmx_Val_SampleClock 12487 // Sample Clock
#define DAQmx_Val_AdvanceTrigger 12488 // Advance Trigger
#define DAQmx_Val_ReferenceTrigger 12490 // Reference Trigger
#define DAQmx_Val_StartTrigger 12491 // Start Trigger
#define DAQmx_Val_AdvCmpltEvent 12492 // Advance Complete Event
#define DAQmx_Val_AIHoldCmpltEvent 12493 // AI Hold Complete Event
#define DAQmx_Val_CounterOutputEvent 12494 // Counter Output Event
#define DAQmx_Val_ChangeDetectionEvent 12511 // Change Detection Event
#define DAQmx_Val_WDTExpiredEvent 12512 // Watchdog Timer Expired Event
//*** Value set Signal2 ***
#define DAQmx_Val_SampleCompleteEvent 12530 // Sample Complete Event
#define DAQmx_Val_CounterOutputEvent 12494 // Counter Output Event
#define DAQmx_Val_ChangeDetectionEvent 12511 // Change Detection Event
#define DAQmx_Val_SampleClock 12487 // Sample Clock
//*** Values for DAQmx_AnlgEdge_StartTrig_Slope ***
//*** Values for DAQmx_AnlgMultiEdge_StartTrig_Slopes ***
//*** Values for DAQmx_AnlgEdge_RefTrig_Slope ***
//*** Values for DAQmx_AnlgMultiEdge_RefTrig_Slopes ***
//*** Value set Slope1 ***
#define DAQmx_Val_RisingSlope 10280 // Rising
#define DAQmx_Val_FallingSlope 10171 // Falling
//*** Values for DAQmx_AI_SoundPressure_Units ***
//*** Value set SoundPressureUnits1 ***
#define DAQmx_Val_Pascals 10081 // Pascals
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_AI_Lowpass_SwitchCap_ClkSrc ***
//*** Values for DAQmx_AO_DAC_Ref_Src ***
//*** Values for DAQmx_AO_DAC_Offset_Src ***
//*** Value set SourceSelection ***
#define DAQmx_Val_Internal 10200 // Internal
#define DAQmx_Val_External 10167 // External
//*** Values for DAQmx_AI_StrainGage_Cfg ***
//*** Value set StrainGageBridgeType1 ***
#define DAQmx_Val_FullBridgeI 10183 // Full Bridge I
#define DAQmx_Val_FullBridgeII 10184 // Full Bridge II
#define DAQmx_Val_FullBridgeIII 10185 // Full Bridge III
#define DAQmx_Val_HalfBridgeI 10188 // Half Bridge I
#define DAQmx_Val_HalfBridgeII 10189 // Half Bridge II
#define DAQmx_Val_QuarterBridgeI 10271 // Quarter Bridge I
#define DAQmx_Val_QuarterBridgeII 10272 // Quarter Bridge II
//*** Values for DAQmx_AI_RosetteStrainGage_RosetteType ***
//*** Value set StrainGageRosetteType ***
#define DAQmx_Val_RectangularRosette 15968 // Rectangular Rosette
#define DAQmx_Val_DeltaRosette 15969 // Delta Rosette
#define DAQmx_Val_TeeRosette 15970 // Tee Rosette
//*** Values for DAQmx_AI_RosetteStrainGage_RosetteMeasType ***
//*** Value set StrainGageRosetteMeasurementType ***
#define DAQmx_Val_PrincipalStrain1 15971 // Principal Strain 1
#define DAQmx_Val_PrincipalStrain2 15972 // Principal Strain 2
#define DAQmx_Val_PrincipalStrainAngle 15973 // Principal Strain Angle
#define DAQmx_Val_CartesianStrainX 15974 // Cartesian Strain X
#define DAQmx_Val_CartesianStrainY 15975 // Cartesian Strain Y
#define DAQmx_Val_CartesianShearStrainXY 15976 // Cartesian Shear Strain XY
#define DAQmx_Val_MaxShearStrain 15977 // Maximum Shear Strain
#define DAQmx_Val_MaxShearStrainAngle 15978 // Maximum Shear Strain Angle
//*** Values for DAQmx_AI_Strain_Units ***
//*** Value set StrainUnits1 ***
#define DAQmx_Val_Strain 10299 // Strain
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_SwitchScan_RepeatMode ***
//*** Value set SwitchScanRepeatMode ***
#define DAQmx_Val_Finite 10172 // Finite
#define DAQmx_Val_Cont 10117 // Continuous
//*** Values for DAQmx_SwitchChan_Usage ***
//*** Value set SwitchUsageTypes ***
#define DAQmx_Val_Source 10439 // Source
#define DAQmx_Val_Load 10440 // Load
#define DAQmx_Val_ReservedForRouting 10441 // Reserved for Routing
//*** Values for DAQmx_SyncPulse_Type ***
//*** Value set SyncPulseType ***
#define DAQmx_Val_Onboard 16128 // Onboard
#define DAQmx_Val_DigEdge 10150 // Digital Edge
#define DAQmx_Val_Time 15996 // Time
//*** Values for DAQmx_Trigger_SyncType ***
//*** Value set SyncType ***
#define DAQmx_Val_None 10230 // None
#define DAQmx_Val_Master 15888 // Master
#define DAQmx_Val_Slave 15889 // Slave
//*** Values for DAQmx_Chan_SyncUnlockBehavior ***
//*** Value set SyncUnlockBehavior ***
#define DAQmx_Val_StopTaskAndError 15862 // Stop Task and Error
#define DAQmx_Val_IgnoreLostSyncLock 16129 // Ignore Lost Sync Lock
//*** Value set TEDSUnits ***
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
#define DAQmx_Val_FromTEDS 12516 // From TEDS
//*** Values for DAQmx_AI_Temp_Units ***
//*** Value set TemperatureUnits1 ***
#define DAQmx_Val_DegC 10143 // Deg C
#define DAQmx_Val_DegF 10144 // Deg F
#define DAQmx_Val_Kelvins 10325 // Kelvins
#define DAQmx_Val_DegR 10145 // Deg R
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_AI_Thrmcpl_Type ***
//*** Value set ThermocoupleType1 ***
#define DAQmx_Val_J_Type_TC 10072 // J
#define DAQmx_Val_K_Type_TC 10073 // K
#define DAQmx_Val_N_Type_TC 10077 // N
#define DAQmx_Val_R_Type_TC 10082 // R
#define DAQmx_Val_S_Type_TC 10085 // S
#define DAQmx_Val_T_Type_TC 10086 // T
#define DAQmx_Val_B_Type_TC 10047 // B
#define DAQmx_Val_E_Type_TC 10055 // E
//*** Values for DAQmx_SyncPulse_Time_Timescale ***
//*** Values for DAQmx_FirstSampTimestamp_Timescale ***
//*** Values for DAQmx_FirstSampClk_Timescale ***
//*** Values for DAQmx_StartTrig_Timescale ***
//*** Values for DAQmx_StartTrig_TimestampTimescale ***
//*** Values for DAQmx_RefTrig_TimestampTimescale ***
//*** Values for DAQmx_ArmStartTrig_Timescale ***
//*** Values for DAQmx_ArmStartTrig_TimestampTimescale ***
//*** Value set Timescale2 ***
#define DAQmx_Val_HostTime 16126 // Host Time
#define DAQmx_Val_IODeviceTime 16127 // I/O Device Time
//*** Values for DAQmx_CI_Timestamp_Units ***
//*** Value set TimeUnits ***
#define DAQmx_Val_Seconds 10364 // Seconds
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_CI_Pulse_Time_Units ***
//*** Values for DAQmx_CO_Pulse_Time_Units ***
//*** Value set TimeUnits2 ***
#define DAQmx_Val_Seconds 10364 // Seconds
//*** Values for DAQmx_CI_Period_Units ***
//*** Values for DAQmx_CI_PulseWidth_Units ***
//*** Values for DAQmx_CI_TwoEdgeSep_Units ***
//*** Values for DAQmx_CI_SemiPeriod_Units ***
//*** Value set TimeUnits3 ***
#define DAQmx_Val_Seconds 10364 // Seconds
#define DAQmx_Val_Ticks 10304 // Ticks
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Value set TimingResponseMode ***
#define DAQmx_Val_SingleCycle 14613 // Single-cycle
#define DAQmx_Val_Multicycle 14614 // Multicycle
//*** Values for DAQmx_AI_Torque_Units ***
//*** Value set TorqueUnits ***
#define DAQmx_Val_NewtonMeters 15881 // Nm
#define DAQmx_Val_InchOunces 15882 // oz-in
#define DAQmx_Val_InchPounds 15883 // lb-in
#define DAQmx_Val_FootPounds 15884 // lb-ft
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_ArmStartTrig_Type ***
//*** Values for DAQmx_WatchdogExpirTrig_Type ***
//*** Value set TriggerType4 ***
#define DAQmx_Val_DigEdge 10150 // Digital Edge
#define DAQmx_Val_Time 15996 // Time
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_AdvTrig_Type ***
//*** Value set TriggerType5 ***
#define DAQmx_Val_DigEdge 10150 // Digital Edge
#define DAQmx_Val_Software 10292 // Software
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_PauseTrig_Type ***
//*** Value set TriggerType6 ***
#define DAQmx_Val_AnlgLvl 10101 // Analog Level
#define DAQmx_Val_AnlgWin 10103 // Analog Window
#define DAQmx_Val_DigLvl 10152 // Digital Level
#define DAQmx_Val_DigPattern 10398 // Digital Pattern
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_RefTrig_Type ***
//*** Value set TriggerType8 ***
#define DAQmx_Val_AnlgEdge 10099 // Analog Edge
#define DAQmx_Val_AnlgMultiEdge 16108 // Analog Multi Edge
#define DAQmx_Val_DigEdge 10150 // Digital Edge
#define DAQmx_Val_DigPattern 10398 // Digital Pattern
#define DAQmx_Val_AnlgWin 10103 // Analog Window
#define DAQmx_Val_Time 15996 // Time
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_HshkTrig_Type ***
//*** Value set TriggerType9 ***
#define DAQmx_Val_Interlocked 12549 // Interlocked
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_StartTrig_Type ***
//*** Value set TriggerType10 ***
#define DAQmx_Val_AnlgEdge 10099 // Analog Edge
#define DAQmx_Val_AnlgMultiEdge 16108 // Analog Multi Edge
#define DAQmx_Val_DigEdge 10150 // Digital Edge
#define DAQmx_Val_DigPattern 10398 // Digital Pattern
#define DAQmx_Val_AnlgWin 10103 // Analog Window
#define DAQmx_Val_Time 15996 // Time
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_SampClk_UnderflowBehavior ***
//*** Values for DAQmx_Implicit_UnderflowBehavior ***
//*** Value set UnderflowBehavior ***
#define DAQmx_Val_HaltOutputAndError 14615 // Halt Output and Error
#define DAQmx_Val_PauseUntilDataAvailable 14616 // Pause until Data Available
//*** Values for DAQmx_Scale_PreScaledUnits ***
//*** Value set UnitsPreScaled ***
#define DAQmx_Val_Volts 10348 // Volts
#define DAQmx_Val_Amps 10342 // Amps
#define DAQmx_Val_DegF 10144 // Deg F
#define DAQmx_Val_DegC 10143 // Deg C
#define DAQmx_Val_DegR 10145 // Deg R
#define DAQmx_Val_Kelvins 10325 // Kelvins
#define DAQmx_Val_Strain 10299 // Strain
#define DAQmx_Val_Ohms 10384 // Ohms
#define DAQmx_Val_Hz 10373 // Hz
#define DAQmx_Val_Seconds 10364 // Seconds
#define DAQmx_Val_Meters 10219 // Meters
#define DAQmx_Val_Inches 10379 // Inches
#define DAQmx_Val_Degrees 10146 // Degrees
#define DAQmx_Val_Radians 10273 // Radians
#define DAQmx_Val_Ticks 10304 // Ticks
#define DAQmx_Val_RPM 16080 // RPM
#define DAQmx_Val_RadiansPerSecond 16081 // Radians/s
#define DAQmx_Val_DegreesPerSecond 16082 // Degrees/s
#define DAQmx_Val_g 10186 // g
#define DAQmx_Val_MetersPerSecondSquared 12470 // m/s^2
#define DAQmx_Val_InchesPerSecondSquared 12471 // in/s^2
#define DAQmx_Val_MetersPerSecond 15959 // m/s
#define DAQmx_Val_InchesPerSecond 15960 // in/s
#define DAQmx_Val_Pascals 10081 // Pascals
#define DAQmx_Val_Newtons 15875 // Newtons
#define DAQmx_Val_Pounds 15876 // Pounds
#define DAQmx_Val_KilogramForce 15877 // kgf
#define DAQmx_Val_PoundsPerSquareInch 15879 // psi
#define DAQmx_Val_Bar 15880 // bar
#define DAQmx_Val_NewtonMeters 15881 // Nm
#define DAQmx_Val_InchOunces 15882 // oz-in
#define DAQmx_Val_InchPounds 15883 // lb-in
#define DAQmx_Val_FootPounds 15884 // lb-ft
#define DAQmx_Val_VoltsPerVolt 15896 // Volts/Volt
#define DAQmx_Val_mVoltsPerVolt 15897 // mVolts/Volt
#define DAQmx_Val_Coulombs 16102 // Coulombs
#define DAQmx_Val_PicoCoulombs 16103 // PicoCoulombs
#define DAQmx_Val_FromTEDS 12516 // From TEDS
//*** Values for DAQmx_AI_Velocity_IEPESensor_SensitivityUnits ***
//*** Value set VelocityIEPESensorSensitivityUnits ***
#define DAQmx_Val_MillivoltsPerMillimeterPerSecond 15963 // mVolts/mm/s
#define DAQmx_Val_MilliVoltsPerInchPerSecond 15964 // mVolts/in/s
//*** Values for DAQmx_AI_Velocity_Units ***
//*** Values for DAQmx_CI_Velocity_LinEncoder_Units ***
//*** Value set VelocityUnits ***
#define DAQmx_Val_MetersPerSecond 15959 // m/s
#define DAQmx_Val_InchesPerSecond 15960 // in/s
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_AI_Voltage_Units ***
//*** Values for DAQmx_AI_Voltage_ACRMS_Units ***
//*** Value set VoltageUnits1 ***
#define DAQmx_Val_Volts 10348 // Volts
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
#define DAQmx_Val_FromTEDS 12516 // From TEDS
//*** Values for DAQmx_AO_Voltage_Units ***
//*** Value set VoltageUnits2 ***
#define DAQmx_Val_Volts 10348 // Volts
#define DAQmx_Val_FromCustomScale 10065 // From Custom Scale
//*** Values for DAQmx_Read_WaitMode ***
//*** Value set WaitMode ***
#define DAQmx_Val_WaitForInterrupt 12523 // Wait For Interrupt
#define DAQmx_Val_Poll 12524 // Poll
#define DAQmx_Val_Yield 12525 // Yield
#define DAQmx_Val_Sleep 12547 // Sleep
//*** Values for DAQmx_Write_WaitMode ***
//*** Value set WaitMode2 ***
#define DAQmx_Val_Poll 12524 // Poll
#define DAQmx_Val_Yield 12525 // Yield
#define DAQmx_Val_Sleep 12547 // Sleep
//*** Values for DAQmx_RealTime_WaitForNextSampClkWaitMode ***
//*** Value set WaitMode3 ***
#define DAQmx_Val_WaitForInterrupt 12523 // Wait For Interrupt
#define DAQmx_Val_Poll 12524 // Poll
//*** Values for DAQmx_RealTime_WriteRecoveryMode ***
//*** Value set WaitMode4 ***
#define DAQmx_Val_WaitForInterrupt 12523 // Wait For Interrupt
#define DAQmx_Val_Poll 12524 // Poll
//*** Values for DAQmx_Watchdog_AO_OutputType ***
//*** Value set WatchdogAOExpirState ***
#define DAQmx_Val_Voltage 10322 // Voltage
#define DAQmx_Val_Current 10134 // Current
#define DAQmx_Val_NoChange 10160 // No Change
//*** Values for DAQmx_Watchdog_CO_ExpirState ***
//*** Value set WatchdogCOExpirState ***
#define DAQmx_Val_Low 10214 // Low
#define DAQmx_Val_High 10192 // High
#define DAQmx_Val_NoChange 10160 // No Change
//*** Values for DAQmx_AnlgWin_StartTrig_When ***
//*** Values for DAQmx_AnlgWin_RefTrig_When ***
//*** Value set WindowTriggerCondition1 ***
#define DAQmx_Val_EnteringWin 10163 // Entering Window
#define DAQmx_Val_LeavingWin 10208 // Leaving Window
//*** Values for DAQmx_AnlgWin_PauseTrig_When ***
//*** Value set WindowTriggerCondition2 ***
#define DAQmx_Val_InsideWin 10199 // Inside Window
#define DAQmx_Val_OutsideWin 10251 // Outside Window
//*** Value set WriteBasicTEDSOptions ***
#define DAQmx_Val_WriteToEEPROM 12538 // Write To EEPROM
#define DAQmx_Val_WriteToPROM 12539 // Write To PROM Once
#define DAQmx_Val_DoNotWrite 12540 // Do Not Write
//*** Values for DAQmx_Write_RelativeTo ***
//*** Value set WriteRelativeTo ***
#define DAQmx_Val_FirstSample 10424 // First Sample
#define DAQmx_Val_CurrWritePos 10430 // Current Write Position
//*** Values for DAQmx_AI_Excit_IdleOutputBehavior ***
//*** Value set ExcitationIdleOutputBehavior ***
#define DAQmx_Val_ZeroVoltsOrAmps 12526 // Zero Volts or Amps
#define DAQmx_Val_MaintainExistingValue 12528 // Maintain Existing Value
//*** Values for DAQmx_CI_SampClkOverrunBehavior ***
//*** Value set SampClkOverrunBehavior ***
#define DAQmx_Val_RepeatedData 16062 // Repeated Data
#define DAQmx_Val_SentinelValue 16063 // Sentinel Value
//*** Values for DAQmx_CI_Freq_LogicLvlBehavior ***
//*** Values for DAQmx_CI_Period_LogicLvlBehavior ***
//*** Values for DAQmx_CI_CountEdges_LogicLvlBehavior ***
//*** Values for DAQmx_CI_CountEdges_CountDir_LogicLvlBehavior ***
//*** Values for DAQmx_CI_CountEdges_CountReset_LogicLvlBehavior ***
//*** Values for DAQmx_CI_CountEdges_Gate_LogicLvlBehavior ***
//*** Values for DAQmx_CI_DutyCycle_LogicLvlBehavior ***
//*** Values for DAQmx_CI_Encoder_AInputLogicLvlBehavior ***
//*** Values for DAQmx_CI_Encoder_BInputLogicLvlBehavior ***
//*** Values for DAQmx_CI_Encoder_ZInputLogicLvlBehavior ***
//*** Values for DAQmx_CI_PulseWidth_LogicLvlBehavior ***
//*** Values for DAQmx_CI_Velocity_Encoder_AInputLogicLvlBehavior ***
//*** Values for DAQmx_CI_Velocity_Encoder_BInputLogicLvlBehavior ***
//*** Values for DAQmx_CI_TwoEdgeSep_FirstLogicLvlBehavior ***
//*** Values for DAQmx_CI_TwoEdgeSep_SecondLogicLvlBehavior ***
//*** Values for DAQmx_CI_SemiPeriod_LogicLvlBehavior ***
//*** Values for DAQmx_CI_Pulse_Freq_LogicLvlBehavior ***
//*** Values for DAQmx_CI_Pulse_Time_LogicLvlBehavior ***
//*** Values for DAQmx_CI_Pulse_Ticks_LogicLvlBehavior ***
//*** Value set LogicLvlBehavior ***
#define DAQmx_Val_LogicLevelPullUp 16064 // Logic Level Pull-up
#define DAQmx_Val_None 10230 // None
//*** Values for DAQmx_AI_Excit_Sense ***
//*** Value set Sense ***
#define DAQmx_Val_Local 16095 // Local
#define DAQmx_Val_Remote 16096 // Remote
/******************************************************************************
*** NI-DAQmx Function Declarations *******************************************
******************************************************************************/
/******************************************************/
/*** Task Configuration/Control ***/
/******************************************************/
int32 __CFUNC DAQmxLoadTask (const char taskName[], TaskHandle *taskHandle);
int32 __CFUNC DAQmxCreateTask (const char taskName[], TaskHandle *taskHandle);
// Channel Names must be valid channels already available in MAX. They are not created.
int32 __CFUNC DAQmxAddGlobalChansToTask (TaskHandle taskHandle, const char channelNames[]);
int32 __CFUNC DAQmxStartTask (TaskHandle taskHandle);
int32 __CFUNC DAQmxStopTask (TaskHandle taskHandle);
int32 __CFUNC DAQmxClearTask (TaskHandle taskHandle);
int32 __CFUNC DAQmxWaitUntilTaskDone (TaskHandle taskHandle, float64 timeToWait);
int32 __CFUNC DAQmxWaitForValidTimestamp (TaskHandle taskHandle, int32 timestampEvent, float64 timeout, CVIAbsoluteTime* timestamp);
int32 __CFUNC DAQmxIsTaskDone (TaskHandle taskHandle, bool32 *isTaskDone);
int32 __CFUNC DAQmxTaskControl (TaskHandle taskHandle, int32 action);
int32 __CFUNC DAQmxGetNthTaskChannel (TaskHandle taskHandle, uInt32 index, char buffer[], int32 bufferSize);
int32 __CFUNC DAQmxGetNthTaskDevice (TaskHandle taskHandle, uInt32 index, char buffer[], int32 bufferSize);
int32 __CFUNC_C DAQmxGetTaskAttribute (TaskHandle taskHandle, int32 attribute, void *value, ...);
typedef int32 (CVICALLBACK *DAQmxEveryNSamplesEventCallbackPtr)(TaskHandle taskHandle, int32 everyNsamplesEventType, uInt32 nSamples, void *callbackData);
typedef int32 (CVICALLBACK *DAQmxDoneEventCallbackPtr)(TaskHandle taskHandle, int32 status, void *callbackData);
typedef int32 (CVICALLBACK *DAQmxSignalEventCallbackPtr)(TaskHandle taskHandle, int32 signalID, void *callbackData);
int32 __CFUNC DAQmxRegisterEveryNSamplesEvent(TaskHandle task, int32 everyNsamplesEventType, uInt32 nSamples, uInt32 options, DAQmxEveryNSamplesEventCallbackPtr callbackFunction, void *callbackData);
int32 __CFUNC DAQmxRegisterDoneEvent (TaskHandle task, uInt32 options, DAQmxDoneEventCallbackPtr callbackFunction, void *callbackData);
int32 __CFUNC DAQmxRegisterSignalEvent (TaskHandle task, int32 signalID, uInt32 options, DAQmxSignalEventCallbackPtr callbackFunction, void *callbackData);
/******************************************************/
/*** Channel Configuration/Creation ***/
/******************************************************/
int32 __CFUNC DAQmxCreateAIVoltageChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAICurrentChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, int32 shuntResistorLoc, float64 extShuntResistorVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIVoltageRMSChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAICurrentRMSChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, int32 shuntResistorLoc, float64 extShuntResistorVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIThrmcplChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 thermocoupleType, int32 cjcSource, float64 cjcVal, const char cjcChannel[]);
int32 __CFUNC DAQmxCreateAIRTDChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 rtdType, int32 resistanceConfig, int32 currentExcitSource, float64 currentExcitVal, float64 r0);
int32 __CFUNC DAQmxCreateAIThrmstrChanIex (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 resistanceConfig, int32 currentExcitSource, float64 currentExcitVal, float64 a, float64 b, float64 c);
int32 __CFUNC DAQmxCreateAIThrmstrChanVex (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 resistanceConfig, int32 voltageExcitSource, float64 voltageExcitVal, float64 a, float64 b, float64 c, float64 r1);
int32 __CFUNC DAQmxCreateAIFreqVoltageChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, float64 thresholdLevel, float64 hysteresis, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIResistanceChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 resistanceConfig, int32 currentExcitSource, float64 currentExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIStrainGageChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 strainConfig, int32 voltageExcitSource, float64 voltageExcitVal, float64 gageFactor, float64 initialBridgeVoltage, float64 nominalGageResistance, float64 poissonRatio, float64 leadWireResistance, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIRosetteStrainGageChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 rosetteType, float64 gageOrientation, const int32 rosetteMeasTypes[], uInt32 numRosetteMeasTypes, int32 strainConfig, int32 voltageExcitSource, float64 voltageExcitVal,float64 gageFactor, float64 nominalGageResistance,float64 poissonRatio,float64 leadWireResistance);
int32 __CFUNC DAQmxCreateAIForceBridgeTwoPointLinChan(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,float64 firstElectricalVal,float64 secondElectricalVal,int32 electricalUnits,float64 firstPhysicalVal,float64 secondPhysicalVal,int32 physicalUnits,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIForceBridgeTableChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,const float64 electricalVals[],uInt32 numElectricalVals,int32 electricalUnits,const float64 physicalVals[],uInt32 numPhysicalVals,int32 physicalUnits,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIForceBridgePolynomialChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,const float64 forwardCoeffs[],uInt32 numForwardCoeffs,const float64 reverseCoeffs[],uInt32 numReverseCoeffs,int32 electricalUnits,int32 physicalUnits,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIPressureBridgeTwoPointLinChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,float64 firstElectricalVal,float64 secondElectricalVal,int32 electricalUnits,float64 firstPhysicalVal,float64 secondPhysicalVal,int32 physicalUnits,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIPressureBridgeTableChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,const float64 electricalVals[],uInt32 numElectricalVals,int32 electricalUnits,const float64 physicalVals[],uInt32 numPhysicalVals,int32 physicalUnits,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIPressureBridgePolynomialChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,const float64 forwardCoeffs[],uInt32 numForwardCoeffs,const float64 reverseCoeffs[],uInt32 numReverseCoeffs,int32 electricalUnits,int32 physicalUnits,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAITorqueBridgeTwoPointLinChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,float64 firstElectricalVal,float64 secondElectricalVal,int32 electricalUnits,float64 firstPhysicalVal,float64 secondPhysicalVal,int32 physicalUnits,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAITorqueBridgeTableChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,const float64 electricalVals[],uInt32 numElectricalVals,int32 electricalUnits,const float64 physicalVals[],uInt32 numPhysicalVals,int32 physicalUnits,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAITorqueBridgePolynomialChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,const float64 forwardCoeffs[],uInt32 numForwardCoeffs,const float64 reverseCoeffs[],uInt32 numReverseCoeffs,int32 electricalUnits,int32 physicalUnits,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIBridgeChan (TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 bridgeConfig,int32 voltageExcitSource,float64 voltageExcitVal,float64 nominalBridgeResistance,const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIVoltageChanWithExcit(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, int32 bridgeConfig, int32 voltageExcitSource, float64 voltageExcitVal, bool32 useExcitForScaling, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAITempBuiltInSensorChan(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 units);
int32 __CFUNC DAQmxCreateAIAccelChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, float64 sensitivity, int32 sensitivityUnits, int32 currentExcitSource, float64 currentExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIVelocityIEPEChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, float64 sensitivity, int32 sensitivityUnits, int32 currentExcitSource, float64 currentExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIForceIEPEChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, float64 sensitivity, int32 sensitivityUnits, int32 currentExcitSource, float64 currentExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIMicrophoneChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, int32 units, float64 micSensitivity, float64 maxSndPressLevel, int32 currentExcitSource, float64 currentExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIChargeChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIAccelChargeChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, float64 sensitivity, int32 sensitivityUnits, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIAccel4WireDCVoltageChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, float64 sensitivity, int32 sensitivityUnits, int32 voltageExcitSource, float64 voltageExcitVal, bool32 useExcitForScaling, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIPosLVDTChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, float64 sensitivity, int32 sensitivityUnits, int32 voltageExcitSource, float64 voltageExcitVal, float64 voltageExcitFreq, int32 ACExcitWireMode, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIPosRVDTChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, float64 sensitivity, int32 sensitivityUnits, int32 voltageExcitSource, float64 voltageExcitVal, float64 voltageExcitFreq, int32 ACExcitWireMode, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAIPosEddyCurrProxProbeChan(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, float64 sensitivity, int32 sensitivityUnits, const char customScaleName[]);
// Function DAQmxCreateAIDeviceTempChan is obsolete and has been replaced by DAQmxCreateAITempBuiltInSensorChan
int32 __CFUNC DAQmxCreateAIDeviceTempChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 units);
int32 __CFUNC DAQmxCreateTEDSAIVoltageChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAICurrentChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, int32 shuntResistorLoc, float64 extShuntResistorVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIThrmcplChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 cjcSource, float64 cjcVal, const char cjcChannel[]);
int32 __CFUNC DAQmxCreateTEDSAIRTDChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 resistanceConfig, int32 currentExcitSource, float64 currentExcitVal);
int32 __CFUNC DAQmxCreateTEDSAIThrmstrChanIex(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 resistanceConfig, int32 currentExcitSource, float64 currentExcitVal);
int32 __CFUNC DAQmxCreateTEDSAIThrmstrChanVex(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 resistanceConfig, int32 voltageExcitSource, float64 voltageExcitVal, float64 r1);
int32 __CFUNC DAQmxCreateTEDSAIResistanceChan(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 resistanceConfig, int32 currentExcitSource, float64 currentExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIStrainGageChan(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 voltageExcitSource, float64 voltageExcitVal, float64 initialBridgeVoltage, float64 leadWireResistance, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIForceBridgeChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 voltageExcitSource,float64 voltageExcitVal,const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIPressureBridgeChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 voltageExcitSource,float64 voltageExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAITorqueBridgeChan(TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 voltageExcitSource,float64 voltageExcitVal,const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIBridgeChan (TaskHandle taskHandle,const char physicalChannel[],const char nameToAssignToChannel[],float64 minVal,float64 maxVal,int32 units,int32 voltageExcitSource,float64 voltageExcitVal,const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIVoltageChanWithExcit(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, int32 voltageExcitSource, float64 voltageExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIAccelChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, int32 currentExcitSource, float64 currentExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIForceIEPEChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, float64 minVal, float64 maxVal, int32 units, int32 currentExcitSource, float64 currentExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIMicrophoneChan(TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 terminalConfig, int32 units, float64 maxSndPressLevel, int32 currentExcitSource, float64 currentExcitVal, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIPosLVDTChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 voltageExcitSource, float64 voltageExcitVal, float64 voltageExcitFreq, int32 ACExcitWireMode, const char customScaleName[]);
int32 __CFUNC DAQmxCreateTEDSAIPosRVDTChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 voltageExcitSource, float64 voltageExcitVal, float64 voltageExcitFreq, int32 ACExcitWireMode, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAOVoltageChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAOCurrentChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, const char customScaleName[]);
int32 __CFUNC DAQmxCreateAOFuncGenChan (TaskHandle taskHandle, const char physicalChannel[], const char nameToAssignToChannel[], int32 type, float64 freq, float64 amplitude, float64 offset);
int32 __CFUNC DAQmxCreateDIChan (TaskHandle taskHandle, const char lines[], const char nameToAssignToLines[], int32 lineGrouping);
int32 __CFUNC DAQmxCreateDOChan (TaskHandle taskHandle, const char lines[], const char nameToAssignToLines[], int32 lineGrouping);
int32 __CFUNC DAQmxCreateCIFreqChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 edge, int32 measMethod, float64 measTime, uInt32 divisor, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCIPeriodChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 edge, int32 measMethod, float64 measTime, uInt32 divisor, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCICountEdgesChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], int32 edge, uInt32 initialCount, int32 countDirection);
int32 __CFUNC DAQmxCreateCIDutyCycleChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minFreq, float64 maxFreq, int32 edge, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCIPulseWidthChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 startingEdge, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCISemiPeriodChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCITwoEdgeSepChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units, int32 firstEdge, int32 secondEdge, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCIPulseChanFreq (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units);
int32 __CFUNC DAQmxCreateCIPulseChanTime (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 units);
int32 __CFUNC DAQmxCreateCIPulseChanTicks (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], const char sourceTerminal[], float64 minVal, float64 maxVal);
int32 __CFUNC DAQmxCreateCILinEncoderChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], int32 decodingType, bool32 ZidxEnable, float64 ZidxVal, int32 ZidxPhase, int32 units, float64 distPerPulse, float64 initialPos, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCIAngEncoderChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], int32 decodingType, bool32 ZidxEnable, float64 ZidxVal, int32 ZidxPhase, int32 units, uInt32 pulsesPerRev, float64 initialAngle, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCILinVelocityChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 decodingType, int32 units, float64 distPerPulse, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCIAngVelocityChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], float64 minVal, float64 maxVal, int32 decodingType, int32 units, uInt32 pulsesPerRev, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCIGPSTimestampChan (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], int32 units, int32 syncMethod, const char customScaleName[]);
int32 __CFUNC DAQmxCreateCOPulseChanFreq (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], int32 units, int32 idleState, float64 initialDelay, float64 freq, float64 dutyCycle);
int32 __CFUNC DAQmxCreateCOPulseChanTime (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], int32 units, int32 idleState, float64 initialDelay, float64 lowTime, float64 highTime);
int32 __CFUNC DAQmxCreateCOPulseChanTicks (TaskHandle taskHandle, const char counter[], const char nameToAssignToChannel[], const char sourceTerminal[], int32 idleState, int32 initialDelay, int32 lowTicks, int32 highTicks);
int32 __CFUNC DAQmxGetAIChanCalCalDate (TaskHandle taskHandle, const char channelName[], uInt32 *year, uInt32 *month, uInt32 *day, uInt32 *hour, uInt32 *minute);
int32 __CFUNC DAQmxSetAIChanCalCalDate (TaskHandle taskHandle, const char channelName[], uInt32 year, uInt32 month, uInt32 day, uInt32 hour, uInt32 minute);
int32 __CFUNC DAQmxGetAIChanCalExpDate (TaskHandle taskHandle, const char channelName[], uInt32 *year, uInt32 *month, uInt32 *day, uInt32 *hour, uInt32 *minute);
int32 __CFUNC DAQmxSetAIChanCalExpDate (TaskHandle taskHandle, const char channelName[], uInt32 year, uInt32 month, uInt32 day, uInt32 hour, uInt32 minute);
int32 __CFUNC_C DAQmxGetChanAttribute (TaskHandle taskHandle, const char channel[], int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetChanAttribute (TaskHandle taskHandle, const char channel[], int32 attribute, ...);
int32 __CFUNC DAQmxResetChanAttribute (TaskHandle taskHandle, const char channel[], int32 attribute);
/******************************************************/
/*** Timing ***/
/******************************************************/
// (Analog/Counter Timing)
int32 __CFUNC DAQmxCfgSampClkTiming (TaskHandle taskHandle, const char source[], float64 rate, int32 activeEdge, int32 sampleMode, uInt64 sampsPerChan);
// (Digital Timing)
int32 __CFUNC DAQmxCfgHandshakingTiming (TaskHandle taskHandle, int32 sampleMode, uInt64 sampsPerChan);
// (Burst Import Clock Timing)
int32 __CFUNC DAQmxCfgBurstHandshakingTimingImportClock(TaskHandle taskHandle, int32 sampleMode, uInt64 sampsPerChan, float64 sampleClkRate, const char sampleClkSrc[], int32 sampleClkActiveEdge, int32 pauseWhen, int32 readyEventActiveLevel);
// (Burst Export Clock Timing)
int32 __CFUNC DAQmxCfgBurstHandshakingTimingExportClock(TaskHandle taskHandle, int32 sampleMode, uInt64 sampsPerChan, float64 sampleClkRate, const char sampleClkOutpTerm[], int32 sampleClkPulsePolarity, int32 pauseWhen, int32 readyEventActiveLevel);
int32 __CFUNC DAQmxCfgChangeDetectionTiming (TaskHandle taskHandle, const char risingEdgeChan[], const char fallingEdgeChan[], int32 sampleMode, uInt64 sampsPerChan);
// (Counter Timing)
int32 __CFUNC DAQmxCfgImplicitTiming (TaskHandle taskHandle, int32 sampleMode, uInt64 sampsPerChan);
// (Pipelined Sample Clock Timing)
int32 __CFUNC DAQmxCfgPipelinedSampClkTiming (TaskHandle taskHandle, const char source[], float64 rate, int32 activeEdge, int32 sampleMode, uInt64 sampsPerChan);
int32 __CFUNC_C DAQmxGetTimingAttribute (TaskHandle taskHandle, int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetTimingAttribute (TaskHandle taskHandle, int32 attribute, ...);
int32 __CFUNC DAQmxResetTimingAttribute (TaskHandle taskHandle, int32 attribute);
int32 __CFUNC_C DAQmxGetTimingAttributeEx (TaskHandle taskHandle, const char deviceNames[], int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetTimingAttributeEx (TaskHandle taskHandle, const char deviceNames[], int32 attribute, ...);
int32 __CFUNC DAQmxResetTimingAttributeEx (TaskHandle taskHandle, const char deviceNames[], int32 attribute);
/******************************************************/
/*** Triggering ***/
/******************************************************/
int32 __CFUNC DAQmxDisableStartTrig (TaskHandle taskHandle);
int32 __CFUNC DAQmxCfgDigEdgeStartTrig (TaskHandle taskHandle, const char triggerSource[], int32 triggerEdge);
int32 __CFUNC DAQmxCfgAnlgEdgeStartTrig (TaskHandle taskHandle, const char triggerSource[], int32 triggerSlope, float64 triggerLevel);
int32 __CFUNC DAQmxCfgAnlgMultiEdgeStartTrig (TaskHandle taskHandle, const char triggerSources[], int32 triggerSlopeArray[], float64 triggerLevelArray[], uInt32 arraySize);
int32 __CFUNC DAQmxCfgAnlgWindowStartTrig (TaskHandle taskHandle, const char triggerSource[], int32 triggerWhen, float64 windowTop, float64 windowBottom);
int32 __CFUNC DAQmxCfgTimeStartTrig (TaskHandle taskHandle, CVIAbsoluteTime when, int32 timescale);
int32 __CFUNC DAQmxCfgDigPatternStartTrig (TaskHandle taskHandle, const char triggerSource[], const char triggerPattern[], int32 triggerWhen);
int32 __CFUNC DAQmxDisableRefTrig (TaskHandle taskHandle);
int32 __CFUNC DAQmxCfgDigEdgeRefTrig (TaskHandle taskHandle, const char triggerSource[], int32 triggerEdge, uInt32 pretriggerSamples);
int32 __CFUNC DAQmxCfgAnlgEdgeRefTrig (TaskHandle taskHandle, const char triggerSource[], int32 triggerSlope, float64 triggerLevel, uInt32 pretriggerSamples);
int32 __CFUNC DAQmxCfgAnlgMultiEdgeRefTrig (TaskHandle taskHandle, const char triggerSources[], int32 triggerSlopeArray[], float64 triggerLevelArray[], uInt32 pretriggerSamples, uInt32 arraySize);
int32 __CFUNC DAQmxCfgAnlgWindowRefTrig (TaskHandle taskHandle, const char triggerSource[], int32 triggerWhen, float64 windowTop, float64 windowBottom, uInt32 pretriggerSamples);
int32 __CFUNC DAQmxCfgDigPatternRefTrig (TaskHandle taskHandle, const char triggerSource[], const char triggerPattern[], int32 triggerWhen, uInt32 pretriggerSamples);
int32 __CFUNC_C DAQmxGetTrigAttribute (TaskHandle taskHandle, int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetTrigAttribute (TaskHandle taskHandle, int32 attribute, ...);
int32 __CFUNC DAQmxResetTrigAttribute (TaskHandle taskHandle, int32 attribute);
/******************************************************/
/*** Read Data ***/
/******************************************************/
int32 __CFUNC DAQmxReadAnalogF64 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, float64 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadAnalogScalarF64 (TaskHandle taskHandle, float64 timeout, float64 *value, bool32 *reserved);
int32 __CFUNC DAQmxReadBinaryI16 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, int16 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadBinaryU16 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, uInt16 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadBinaryI32 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, int32 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadBinaryU32 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, uInt32 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadDigitalU8 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, uInt8 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadDigitalU16 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, uInt16 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadDigitalU32 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, uInt32 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadDigitalScalarU32 (TaskHandle taskHandle, float64 timeout, uInt32 *value, bool32 *reserved);
int32 __CFUNC DAQmxReadDigitalLines (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, uInt8 readArray[], uInt32 arraySizeInBytes, int32 *sampsPerChanRead, int32 *numBytesPerSamp, bool32 *reserved);
int32 __CFUNC DAQmxReadCounterF64 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, float64 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadCounterU32 (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, uInt32 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadCounterF64Ex (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, float64 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadCounterU32Ex (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 fillMode, uInt32 readArray[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadCounterScalarF64 (TaskHandle taskHandle, float64 timeout, float64 *value, bool32 *reserved);
int32 __CFUNC DAQmxReadCounterScalarU32 (TaskHandle taskHandle, float64 timeout, uInt32 *value, bool32 *reserved);
int32 __CFUNC DAQmxReadCtrFreq (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 interleaved, float64 readArrayFrequency[], float64 readArrayDutyCycle[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadCtrTime (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 interleaved, float64 readArrayHighTime[], float64 readArrayLowTime[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadCtrTicks (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, bool32 interleaved, uInt32 readArrayHighTicks[], uInt32 readArrayLowTicks[], uInt32 arraySizeInSamps, int32 *sampsPerChanRead, bool32 *reserved);
int32 __CFUNC DAQmxReadCtrFreqScalar (TaskHandle taskHandle, float64 timeout, float64 *frequency, float64 *dutyCycle, bool32 *reserved);
int32 __CFUNC DAQmxReadCtrTimeScalar (TaskHandle taskHandle, float64 timeout, float64 *highTime, float64 *lowTime, bool32 *reserved);
int32 __CFUNC DAQmxReadCtrTicksScalar (TaskHandle taskHandle, float64 timeout, uInt32 *highTicks, uInt32 *lowTicks, bool32 *reserved);
int32 __CFUNC DAQmxReadRaw (TaskHandle taskHandle, int32 numSampsPerChan, float64 timeout, void *readArray, uInt32 arraySizeInBytes, int32 *sampsRead, int32 *numBytesPerSamp, bool32 *reserved);
int32 __CFUNC DAQmxGetNthTaskReadChannel (TaskHandle taskHandle, uInt32 index, char buffer[], int32 bufferSize);
int32 __CFUNC_C DAQmxGetReadAttribute (TaskHandle taskHandle, int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetReadAttribute (TaskHandle taskHandle, int32 attribute, ...);
int32 __CFUNC DAQmxResetReadAttribute (TaskHandle taskHandle, int32 attribute);
int32 __CFUNC DAQmxConfigureLogging (TaskHandle taskHandle, const char filePath[], int32 loggingMode, const char groupName[], int32 operation);
int32 __CFUNC DAQmxStartNewFile (TaskHandle taskHandle, const char filePath[]);
/******************************************************/
/*** Write Data ***/
/******************************************************/
int32 __CFUNC DAQmxWriteAnalogF64 (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const float64 writeArray[], int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteAnalogScalarF64 (TaskHandle taskHandle, bool32 autoStart, float64 timeout, float64 value, bool32 *reserved);
int32 __CFUNC DAQmxWriteBinaryI16 (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const int16 writeArray[], int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteBinaryU16 (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const uInt16 writeArray[], int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteBinaryI32 (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const int32 writeArray[], int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteBinaryU32 (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const uInt32 writeArray[], int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteDigitalU8 (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const uInt8 writeArray[], int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteDigitalU16 (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const uInt16 writeArray[], int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteDigitalU32 (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const uInt32 writeArray[], int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteDigitalScalarU32 (TaskHandle taskHandle, bool32 autoStart, float64 timeout, uInt32 value, bool32 *reserved);
int32 __CFUNC DAQmxWriteDigitalLines (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const uInt8 writeArray[], int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteCtrFreq (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const float64 frequency[], const float64 dutyCycle[], int32 *numSampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteCtrFreqScalar (TaskHandle taskHandle, bool32 autoStart, float64 timeout, float64 frequency, float64 dutyCycle, bool32 *reserved);
int32 __CFUNC DAQmxWriteCtrTime (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const float64 highTime[], const float64 lowTime[], int32 *numSampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteCtrTimeScalar (TaskHandle taskHandle, bool32 autoStart, float64 timeout, float64 highTime, float64 lowTime, bool32 *reserved);
int32 __CFUNC DAQmxWriteCtrTicks (TaskHandle taskHandle, int32 numSampsPerChan, bool32 autoStart, float64 timeout, bool32 dataLayout, const uInt32 highTicks[], const uInt32 lowTicks[], int32 *numSampsPerChanWritten, bool32 *reserved);
int32 __CFUNC DAQmxWriteCtrTicksScalar (TaskHandle taskHandle, bool32 autoStart, float64 timeout, uInt32 highTicks, uInt32 lowTicks, bool32 *reserved);
int32 __CFUNC DAQmxWriteRaw (TaskHandle taskHandle, int32 numSamps, bool32 autoStart, float64 timeout, const void *writeArray, int32 *sampsPerChanWritten, bool32 *reserved);
int32 __CFUNC_C DAQmxGetWriteAttribute (TaskHandle taskHandle, int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetWriteAttribute (TaskHandle taskHandle, int32 attribute, ...);
int32 __CFUNC DAQmxResetWriteAttribute (TaskHandle taskHandle, int32 attribute);
/******************************************************/
/*** Events & Signals ***/
/******************************************************/
// Terminology: For hardware, "signals" comprise "clocks," "triggers," and (output) "events".
// Software signals or events are not presently supported.
// For possible values for parameter signalID see value set Signal in Values section above.
int32 __CFUNC DAQmxExportSignal (TaskHandle taskHandle, int32 signalID, const char outputTerminal[]);
int32 __CFUNC_C DAQmxGetExportedSignalAttribute(TaskHandle taskHandle, int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetExportedSignalAttribute(TaskHandle taskHandle, int32 attribute, ...);
int32 __CFUNC DAQmxResetExportedSignalAttribute(TaskHandle taskHandle, int32 attribute);
/******************************************************/
/*** Scale Configurations ***/
/******************************************************/
int32 __CFUNC DAQmxCreateLinScale (const char name[], float64 slope, float64 yIntercept, int32 preScaledUnits, const char scaledUnits[]);
int32 __CFUNC DAQmxCreateMapScale (const char name[], float64 prescaledMin, float64 prescaledMax, float64 scaledMin, float64 scaledMax, int32 preScaledUnits, const char scaledUnits[]);
int32 __CFUNC DAQmxCreatePolynomialScale (const char name[], const float64 forwardCoeffs[], uInt32 numForwardCoeffsIn, const float64 reverseCoeffs[], uInt32 numReverseCoeffsIn, int32 preScaledUnits, const char scaledUnits[]);
int32 __CFUNC DAQmxCreateTableScale (const char name[], const float64 prescaledVals[], uInt32 numPrescaledValsIn, const float64 scaledVals[], uInt32 numScaledValsIn, int32 preScaledUnits, const char scaledUnits[]);
int32 __CFUNC DAQmxCalculateReversePolyCoeff (const float64 forwardCoeffs[], uInt32 numForwardCoeffsIn, float64 minValX, float64 maxValX, int32 numPointsToCompute, int32 reversePolyOrder, float64 reverseCoeffs[]);
int32 __CFUNC_C DAQmxGetScaleAttribute (const char scaleName[], int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetScaleAttribute (const char scaleName[], int32 attribute, ...);
/******************************************************/
/*** Buffer Configurations ***/
/******************************************************/
int32 __CFUNC DAQmxCfgInputBuffer (TaskHandle taskHandle, uInt32 numSampsPerChan);
int32 __CFUNC DAQmxCfgOutputBuffer (TaskHandle taskHandle, uInt32 numSampsPerChan);
int32 __CFUNC_C DAQmxGetBufferAttribute (TaskHandle taskHandle, int32 attribute, void *value);
int32 __CFUNC_C DAQmxSetBufferAttribute (TaskHandle taskHandle, int32 attribute, ...);
int32 __CFUNC DAQmxResetBufferAttribute (TaskHandle taskHandle, int32 attribute);
/******************************************************/
/*** Switch Functions ***/
/******************************************************/
// NI-DAQmx Switch functions are deprecated and are no longer maintained in NI-DAQmx.
// Use NI-SWITCH for the most up-to-date VIs and functions
int32 __CFUNC DAQmxSwitchCreateScanList (const char scanList[], TaskHandle *taskHandle);
int32 __CFUNC DAQmxSwitchConnect (const char switchChannel1[], const char switchChannel2[], bool32 waitForSettling);
int32 __CFUNC DAQmxSwitchConnectMulti (const char connectionList[], bool32 waitForSettling);
int32 __CFUNC DAQmxSwitchDisconnect (const char switchChannel1[], const char switchChannel2[], bool32 waitForSettling);
int32 __CFUNC DAQmxSwitchDisconnectMulti (const char connectionList[], bool32 waitForSettling);
int32 __CFUNC DAQmxSwitchDisconnectAll (const char deviceName[], bool32 waitForSettling);
// Switch Topologies
#define DAQmx_Val_Switch_Topology_Configured_Topology "Configured Topology" // Configured Topology
#define DAQmx_Val_Switch_Topology_1127_1_Wire_64x1_Mux "1127/1-Wire 64x1 Mux" // 1127/1-Wire 64x1 Mux
#define DAQmx_Val_Switch_Topology_1127_2_Wire_32x1_Mux "1127/2-Wire 32x1 Mux" // 1127/2-Wire 32x1 Mux
#define DAQmx_Val_Switch_Topology_1127_2_Wire_4x8_Matrix "1127/2-Wire 4x8 Matrix" // 1127/2-Wire 4x8 Matrix
#define DAQmx_Val_Switch_Topology_1127_4_Wire_16x1_Mux "1127/4-Wire 16x1 Mux" // 1127/4-Wire 16x1 Mux
#define DAQmx_Val_Switch_Topology_1127_Independent "1127/Independent" // 1127/Independent
#define DAQmx_Val_Switch_Topology_1128_1_Wire_64x1_Mux "1128/1-Wire 64x1 Mux" // 1128/1-Wire 64x1 Mux
#define DAQmx_Val_Switch_Topology_1128_2_Wire_32x1_Mux "1128/2-Wire 32x1 Mux" // 1128/2-Wire 32x1 Mux
#define DAQmx_Val_Switch_Topology_1128_2_Wire_4x8_Matrix "1128/2-Wire 4x8 Matrix" // 1128/2-Wire 4x8 Matrix
#define DAQmx_Val_Switch_Topology_1128_4_Wire_16x1_Mux "1128/4-Wire 16x1 Mux" // 1128/4-Wire 16x1 Mux
#define DAQmx_Val_Switch_Topology_1128_Independent "1128/Independent" // 1128/Independent
#define DAQmx_Val_Switch_Topology_1129_2_Wire_16x16_Matrix "1129/2-Wire 16x16 Matrix" // 1129/2-Wire 16x16 Matrix
#define DAQmx_Val_Switch_Topology_1129_2_Wire_8x32_Matrix "1129/2-Wire 8x32 Matrix" // 1129/2-Wire 8x32 Matrix
#define DAQmx_Val_Switch_Topology_1129_2_Wire_4x64_Matrix "1129/2-Wire 4x64 Matrix" // 1129/2-Wire 4x64 Matrix
#define DAQmx_Val_Switch_Topology_1129_2_Wire_Dual_8x16_Matrix "1129/2-Wire Dual 8x16 Matrix" // 1129/2-Wire Dual 8x16 Matrix
#define DAQmx_Val_Switch_Topology_1129_2_Wire_Dual_4x32_Matrix "1129/2-Wire Dual 4x32 Matrix" // 1129/2-Wire Dual 4x32 Matrix
#define DAQmx_Val_Switch_Topology_1129_2_Wire_Quad_4x16_Matrix "1129/2-Wire Quad 4x16 Matrix" // 1129/2-Wire Quad 4x16 Matrix
#define DAQmx_Val_Switch_Topology_1130_1_Wire_256x1_Mux "1130/1-Wire 256x1 Mux" // 1130/1-Wire 256x1 Mux
#define DAQmx_Val_Switch_Topology_1130_1_Wire_Dual_128x1_Mux "1130/1-Wire Dual 128x1 Mux" // 1130/1-Wire Dual 128x1 Mux
#define DAQmx_Val_Switch_Topology_1130_2_Wire_128x1_Mux "1130/2-Wire 128x1 Mux" // 1130/2-Wire 128x1 Mux
#define DAQmx_Val_Switch_Topology_1130_4_Wire_64x1_Mux "1130/4-Wire 64x1 Mux" // 1130/4-Wire 64x1 Mux
#define DAQmx_Val_Switch_Topology_1130_1_Wire_4x64_Matrix "1130/1-Wire 4x64 Matrix" // 1130/1-Wire 4x64 Matrix
#define DAQmx_Val_Switch_Topology_1130_1_Wire_8x32_Matrix "1130/1-Wire 8x32 Matrix" // 1130/1-Wire 8x32 Matrix
#define DAQmx_Val_Switch_Topology_1130_1_Wire_Octal_32x1_Mux "1130/1-Wire Octal 32x1 Mux" // 1130/1-Wire Octal 32x1 Mux
#define DAQmx_Val_Switch_Topology_1130_1_Wire_Quad_64x1_Mux "1130/1-Wire Quad 64x1 Mux" // 1130/1-Wire Quad 64x1 Mux
#define DAQmx_Val_Switch_Topology_1130_1_Wire_Sixteen_16x1_Mux "1130/1-Wire Sixteen 16x1 Mux" // 1130/1-Wire Sixteen 16x1 Mux
#define DAQmx_Val_Switch_Topology_1130_2_Wire_4x32_Matrix "1130/2-Wire 4x32 Matrix" // 1130/2-Wire 4x32 Matrix
#define DAQmx_Val_Switch_Topology_1130_2_Wire_Octal_16x1_Mux "1130/2-Wire Octal 16x1 Mux" // 1130/2-Wire Octal 16x1 Mux
#define DAQmx_Val_Switch_Topology_1130_2_Wire_Quad_32x1_Mux "1130/2-Wire Quad 32x1 Mux" // 1130/2-Wire Quad 32x1 Mux
#define DAQmx_Val_Switch_Topology_1130_4_Wire_Quad_16x1_Mux "1130/4-Wire Quad 16x1 Mux" // 1130/4-Wire Quad 16x1 Mux
#define DAQmx_Val_Switch_Topology_1130_Independent "1130/Independent" // 1130/Independent
#define DAQmx_Val_Switch_Topology_1160_16_SPDT "1160/16-SPDT" // 1160/16-SPDT
#define DAQmx_Val_Switch_Topology_1161_8_SPDT "1161/8-SPDT" // 1161/8-SPDT
#define DAQmx_Val_Switch_Topology_1163R_Octal_4x1_Mux "1163R/Octal 4x1 Mux" // 1163R/Octal 4x1 Mux
#define DAQmx_Val_Switch_Topology_1166_32_SPDT "1166/32-SPDT" // 1166/32-SPDT
#define DAQmx_Val_Switch_Topology_1166_16_DPDT "1166/16-DPDT" // 1166/16-DPDT
#define DAQmx_Val_Switch_Topology_1167_Independent "1167/Independent" // 1167/Independent
#define DAQmx_Val_Switch_Topology_1169_100_SPST "1169/100-SPST" // 1169/100-SPST
#define DAQmx_Val_Switch_Topology_1169_50_DPST "1169/50-DPST" // 1169/50-DPST
#define DAQmx_Val_Switch_Topology_1175_1_Wire_196x1_Mux "1175/1-Wire 196x1 Mux" // 1175/1-Wire 196x1 Mux
#define DAQmx_Val_Switch_Topology_1175_2_Wire_98x1_Mux "1175/2-Wire 98x1 Mux" // 1175/2-Wire 98x1 Mux
#define DAQmx_Val_Switch_Topology_1175_2_Wire_95x1_Mux "1175/2-Wire 95x1 Mux" // 1175/2-Wire 95x1 Mux
#define DAQmx_Val_Switch_Topology_1190_Quad_4x1_Mux "1190/Quad 4x1 Mux" // 1190/Quad 4x1 Mux
#define DAQmx_Val_Switch_Topology_1191_Quad_4x1_Mux "1191/Quad 4x1 Mux" // 1191/Quad 4x1 Mux
#define DAQmx_Val_Switch_Topology_1192_8_SPDT "1192/8-SPDT" // 1192/8-SPDT
#define DAQmx_Val_Switch_Topology_1193_32x1_Mux "1193/32x1 Mux" // 1193/32x1 Mux
#define DAQmx_Val_Switch_Topology_1193_Dual_16x1_Mux "1193/Dual 16x1 Mux" // 1193/Dual 16x1 Mux
#define DAQmx_Val_Switch_Topology_1193_Quad_8x1_Mux "1193/Quad 8x1 Mux" // 1193/Quad 8x1 Mux
#define DAQmx_Val_Switch_Topology_1193_16x1_Terminated_Mux "1193/16x1 Terminated Mux" // 1193/16x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_1193_Dual_8x1_Terminated_Mux "1193/Dual 8x1 Terminated Mux" // 1193/Dual 8x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_1193_Quad_4x1_Terminated_Mux "1193/Quad 4x1 Terminated Mux" // 1193/Quad 4x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_1193_Independent "1193/Independent" // 1193/Independent
#define DAQmx_Val_Switch_Topology_1194_Quad_4x1_Mux "1194/Quad 4x1 Mux" // 1194/Quad 4x1 Mux
#define DAQmx_Val_Switch_Topology_1195_Quad_4x1_Mux "1195/Quad 4x1 Mux" // 1195/Quad 4x1 Mux
#define DAQmx_Val_Switch_Topology_2501_1_Wire_48x1_Mux "2501/1-Wire 48x1 Mux" // 2501/1-Wire 48x1 Mux
#define DAQmx_Val_Switch_Topology_2501_1_Wire_48x1_Amplified_Mux "2501/1-Wire 48x1 Amplified Mux" // 2501/1-Wire 48x1 Amplified Mux
#define DAQmx_Val_Switch_Topology_2501_2_Wire_24x1_Mux "2501/2-Wire 24x1 Mux" // 2501/2-Wire 24x1 Mux
#define DAQmx_Val_Switch_Topology_2501_2_Wire_24x1_Amplified_Mux "2501/2-Wire 24x1 Amplified Mux" // 2501/2-Wire 24x1 Amplified Mux
#define DAQmx_Val_Switch_Topology_2501_2_Wire_Dual_12x1_Mux "2501/2-Wire Dual 12x1 Mux" // 2501/2-Wire Dual 12x1 Mux
#define DAQmx_Val_Switch_Topology_2501_2_Wire_Quad_6x1_Mux "2501/2-Wire Quad 6x1 Mux" // 2501/2-Wire Quad 6x1 Mux
#define DAQmx_Val_Switch_Topology_2501_2_Wire_4x6_Matrix "2501/2-Wire 4x6 Matrix" // 2501/2-Wire 4x6 Matrix
#define DAQmx_Val_Switch_Topology_2501_4_Wire_12x1_Mux "2501/4-Wire 12x1 Mux" // 2501/4-Wire 12x1 Mux
#define DAQmx_Val_Switch_Topology_2503_1_Wire_48x1_Mux "2503/1-Wire 48x1 Mux" // 2503/1-Wire 48x1 Mux
#define DAQmx_Val_Switch_Topology_2503_2_Wire_24x1_Mux "2503/2-Wire 24x1 Mux" // 2503/2-Wire 24x1 Mux
#define DAQmx_Val_Switch_Topology_2503_2_Wire_Dual_12x1_Mux "2503/2-Wire Dual 12x1 Mux" // 2503/2-Wire Dual 12x1 Mux
#define DAQmx_Val_Switch_Topology_2503_2_Wire_Quad_6x1_Mux "2503/2-Wire Quad 6x1 Mux" // 2503/2-Wire Quad 6x1 Mux
#define DAQmx_Val_Switch_Topology_2503_2_Wire_4x6_Matrix "2503/2-Wire 4x6 Matrix" // 2503/2-Wire 4x6 Matrix
#define DAQmx_Val_Switch_Topology_2503_4_Wire_12x1_Mux "2503/4-Wire 12x1 Mux" // 2503/4-Wire 12x1 Mux
#define DAQmx_Val_Switch_Topology_2510_Independent "2510/Independent" // 2510/Independent
#define DAQmx_Val_Switch_Topology_2512_Independent "2512/Independent" // 2512/Independent
#define DAQmx_Val_Switch_Topology_2514_Independent "2514/Independent" // 2514/Independent
#define DAQmx_Val_Switch_Topology_2515_Independent "2515/Independent" // 2515/Independent
#define DAQmx_Val_Switch_Topology_2520_80_SPST "2520/80-SPST" // 2520/80-SPST
#define DAQmx_Val_Switch_Topology_2521_40_DPST "2521/40-DPST" // 2521/40-DPST
#define DAQmx_Val_Switch_Topology_2522_53_SPDT "2522/53-SPDT" // 2522/53-SPDT
#define DAQmx_Val_Switch_Topology_2523_26_DPDT "2523/26-DPDT" // 2523/26-DPDT
#define DAQmx_Val_Switch_Topology_2527_1_Wire_64x1_Mux "2527/1-Wire 64x1 Mux" // 2527/1-Wire 64x1 Mux
#define DAQmx_Val_Switch_Topology_2527_1_Wire_Dual_32x1_Mux "2527/1-Wire Dual 32x1 Mux" // 2527/1-Wire Dual 32x1 Mux
#define DAQmx_Val_Switch_Topology_2527_2_Wire_32x1_Mux "2527/2-Wire 32x1 Mux" // 2527/2-Wire 32x1 Mux
#define DAQmx_Val_Switch_Topology_2527_2_Wire_Dual_16x1_Mux "2527/2-Wire Dual 16x1 Mux" // 2527/2-Wire Dual 16x1 Mux
#define DAQmx_Val_Switch_Topology_2527_4_Wire_16x1_Mux "2527/4-Wire 16x1 Mux" // 2527/4-Wire 16x1 Mux
#define DAQmx_Val_Switch_Topology_2527_Independent "2527/Independent" // 2527/Independent
#define DAQmx_Val_Switch_Topology_2529_2_Wire_8x16_Matrix "2529/2-Wire 8x16 Matrix" // 2529/2-Wire 8x16 Matrix
#define DAQmx_Val_Switch_Topology_2529_2_Wire_4x32_Matrix "2529/2-Wire 4x32 Matrix" // 2529/2-Wire 4x32 Matrix
#define DAQmx_Val_Switch_Topology_2529_2_Wire_Dual_4x16_Matrix "2529/2-Wire Dual 4x16 Matrix" // 2529/2-Wire Dual 4x16 Matrix
#define DAQmx_Val_Switch_Topology_2530_1_Wire_128x1_Mux "2530/1-Wire 128x1 Mux" // 2530/1-Wire 128x1 Mux
#define DAQmx_Val_Switch_Topology_2530_1_Wire_Dual_64x1_Mux "2530/1-Wire Dual 64x1 Mux" // 2530/1-Wire Dual 64x1 Mux
#define DAQmx_Val_Switch_Topology_2530_2_Wire_64x1_Mux "2530/2-Wire 64x1 Mux" // 2530/2-Wire 64x1 Mux
#define DAQmx_Val_Switch_Topology_2530_4_Wire_32x1_Mux "2530/4-Wire 32x1 Mux" // 2530/4-Wire 32x1 Mux
#define DAQmx_Val_Switch_Topology_2530_1_Wire_4x32_Matrix "2530/1-Wire 4x32 Matrix" // 2530/1-Wire 4x32 Matrix
#define DAQmx_Val_Switch_Topology_2530_1_Wire_8x16_Matrix "2530/1-Wire 8x16 Matrix" // 2530/1-Wire 8x16 Matrix
#define DAQmx_Val_Switch_Topology_2530_1_Wire_Octal_16x1_Mux "2530/1-Wire Octal 16x1 Mux" // 2530/1-Wire Octal 16x1 Mux
#define DAQmx_Val_Switch_Topology_2530_1_Wire_Quad_32x1_Mux "2530/1-Wire Quad 32x1 Mux" // 2530/1-Wire Quad 32x1 Mux
#define DAQmx_Val_Switch_Topology_2530_2_Wire_4x16_Matrix "2530/2-Wire 4x16 Matrix" // 2530/2-Wire 4x16 Matrix
#define DAQmx_Val_Switch_Topology_2530_2_Wire_Dual_32x1_Mux "2530/2-Wire Dual 32x1 Mux" // 2530/2-Wire Dual 32x1 Mux
#define DAQmx_Val_Switch_Topology_2530_2_Wire_Quad_16x1_Mux "2530/2-Wire Quad 16x1 Mux" // 2530/2-Wire Quad 16x1 Mux
#define DAQmx_Val_Switch_Topology_2530_4_Wire_Dual_16x1_Mux "2530/4-Wire Dual 16x1 Mux" // 2530/4-Wire Dual 16x1 Mux
#define DAQmx_Val_Switch_Topology_2530_Independent "2530/Independent" // 2530/Independent
#define DAQmx_Val_Switch_Topology_2531_1_Wire_4x128_Matrix "2531/1-Wire 4x128 Matrix" // 2531/1-Wire 4x128 Matrix
#define DAQmx_Val_Switch_Topology_2531_1_Wire_8x64_Matrix "2531/1-Wire 8x64 Matrix" // 2531/1-Wire 8x64 Matrix
#define DAQmx_Val_Switch_Topology_2531_1_Wire_Dual_4x64_Matrix "2531/1-Wire Dual 4x64 Matrix" // 2531/1-Wire Dual 4x64 Matrix
#define DAQmx_Val_Switch_Topology_2531_1_Wire_Dual_8x32_Matrix "2531/1-Wire Dual 8x32 Matrix" // 2531/1-Wire Dual 8x32 Matrix
#define DAQmx_Val_Switch_Topology_2532_1_Wire_16x32_Matrix "2532/1-Wire 16x32 Matrix" // 2532/1-Wire 16x32 Matrix
#define DAQmx_Val_Switch_Topology_2532_1_Wire_4x128_Matrix "2532/1-Wire 4x128 Matrix" // 2532/1-Wire 4x128 Matrix
#define DAQmx_Val_Switch_Topology_2532_1_Wire_8x64_Matrix "2532/1-Wire 8x64 Matrix" // 2532/1-Wire 8x64 Matrix
#define DAQmx_Val_Switch_Topology_2532_1_Wire_Dual_16x16_Matrix "2532/1-Wire Dual 16x16 Matrix" // 2532/1-Wire Dual 16x16 Matrix
#define DAQmx_Val_Switch_Topology_2532_1_Wire_Dual_4x64_Matrix "2532/1-Wire Dual 4x64 Matrix" // 2532/1-Wire Dual 4x64 Matrix
#define DAQmx_Val_Switch_Topology_2532_1_Wire_Dual_8x32_Matrix "2532/1-Wire Dual 8x32 Matrix" // 2532/1-Wire Dual 8x32 Matrix
#define DAQmx_Val_Switch_Topology_2532_1_Wire_Quad_4x32_Matrix "2532/1-Wire Quad 4x32 Matrix" // 2532/1-Wire Quad 4x32 Matrix
#define DAQmx_Val_Switch_Topology_2532_1_Wire_Sixteen_2x16_Matrix "2532/1-Wire Sixteen 2x16 Matrix" // 2532/1-Wire Sixteen 2x16 Matrix
#define DAQmx_Val_Switch_Topology_2532_2_Wire_16x16_Matrix "2532/2-Wire 16x16 Matrix" // 2532/2-Wire 16x16 Matrix
#define DAQmx_Val_Switch_Topology_2532_2_Wire_4x64_Matrix "2532/2-Wire 4x64 Matrix" // 2532/2-Wire 4x64 Matrix
#define DAQmx_Val_Switch_Topology_2532_2_Wire_8x32_Matrix "2532/2-Wire 8x32 Matrix" // 2532/2-Wire 8x32 Matrix
#define DAQmx_Val_Switch_Topology_2532_2_Wire_Dual_4x32_Matrix "2532/2-Wire Dual 4x32 Matrix" // 2532/2-Wire Dual 4x32 Matrix
#define DAQmx_Val_Switch_Topology_2533_1_Wire_4x64_Matrix "2533/1-Wire 4x64 Matrix" // 2533/1-Wire 4x64 Matrix
#define DAQmx_Val_Switch_Topology_2534_1_Wire_8x32_Matrix "2534/1-Wire 8x32 Matrix" // 2534/1-Wire 8x32 Matrix
#define DAQmx_Val_Switch_Topology_2535_1_Wire_4x136_Matrix "2535/1-Wire 4x136 Matrix" // 2535/1-Wire 4x136 Matrix
#define DAQmx_Val_Switch_Topology_2536_1_Wire_8x68_Matrix "2536/1-Wire 8x68 Matrix" // 2536/1-Wire 8x68 Matrix
#define DAQmx_Val_Switch_Topology_2540_1_Wire_8x9_Matrix "2540/1-Wire 8x9 Matrix" // 2540/1-Wire 8x9 Matrix
#define DAQmx_Val_Switch_Topology_2541_1_Wire_8x12_Matrix "2541/1-Wire 8x12 Matrix" // 2541/1-Wire 8x12 Matrix
#define DAQmx_Val_Switch_Topology_2542_Quad_2x1_Terminated_Mux "2542/Quad 2x1 Terminated Mux" // 2542/Quad 2x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_2543_Dual_4x1_Terminated_Mux "2543/Dual 4x1 Terminated Mux" // 2543/Dual 4x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_2544_8x1_Terminated_Mux "2544/8x1 Terminated Mux" // 2544/8x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_2545_4x1_Terminated_Mux "2545/4x1 Terminated Mux" // 2545/4x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_2546_Dual_4x1_Mux "2546/Dual 4x1 Mux" // 2546/Dual 4x1 Mux
#define DAQmx_Val_Switch_Topology_2547_8x1_Mux "2547/8x1 Mux" // 2547/8x1 Mux
#define DAQmx_Val_Switch_Topology_2548_4_SPDT "2548/4-SPDT" // 2548/4-SPDT
#define DAQmx_Val_Switch_Topology_2549_Terminated_2_SPDT "2549/Terminated 2-SPDT" // 2549/Terminated 2-SPDT
#define DAQmx_Val_Switch_Topology_2554_4x1_Mux "2554/4x1 Mux" // 2554/4x1 Mux
#define DAQmx_Val_Switch_Topology_2555_4x1_Terminated_Mux "2555/4x1 Terminated Mux" // 2555/4x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_2556_Dual_4x1_Mux "2556/Dual 4x1 Mux" // 2556/Dual 4x1 Mux
#define DAQmx_Val_Switch_Topology_2557_8x1_Mux "2557/8x1 Mux" // 2557/8x1 Mux
#define DAQmx_Val_Switch_Topology_2558_4_SPDT "2558/4-SPDT" // 2558/4-SPDT
#define DAQmx_Val_Switch_Topology_2559_Terminated_2_SPDT "2559/Terminated 2-SPDT" // 2559/Terminated 2-SPDT
#define DAQmx_Val_Switch_Topology_2564_16_SPST "2564/16-SPST" // 2564/16-SPST
#define DAQmx_Val_Switch_Topology_2564_8_DPST "2564/8-DPST" // 2564/8-DPST
#define DAQmx_Val_Switch_Topology_2565_16_SPST "2565/16-SPST" // 2565/16-SPST
#define DAQmx_Val_Switch_Topology_2566_16_SPDT "2566/16-SPDT" // 2566/16-SPDT
#define DAQmx_Val_Switch_Topology_2566_8_DPDT "2566/8-DPDT" // 2566/8-DPDT
#define DAQmx_Val_Switch_Topology_2567_Independent "2567/Independent" // 2567/Independent
#define DAQmx_Val_Switch_Topology_2568_31_SPST "2568/31-SPST" // 2568/31-SPST
#define DAQmx_Val_Switch_Topology_2568_15_DPST "2568/15-DPST" // 2568/15-DPST
#define DAQmx_Val_Switch_Topology_2569_100_SPST "2569/100-SPST" // 2569/100-SPST
#define DAQmx_Val_Switch_Topology_2569_50_DPST "2569/50-DPST" // 2569/50-DPST
#define DAQmx_Val_Switch_Topology_2570_40_SPDT "2570/40-SPDT" // 2570/40-SPDT
#define DAQmx_Val_Switch_Topology_2570_20_DPDT "2570/20-DPDT" // 2570/20-DPDT
#define DAQmx_Val_Switch_Topology_2571_66_SPDT "2571/66-SPDT" // 2571/66-SPDT
#define DAQmx_Val_Switch_Topology_2575_1_Wire_196x1_Mux "2575/1-Wire 196x1 Mux" // 2575/1-Wire 196x1 Mux
#define DAQmx_Val_Switch_Topology_2575_2_Wire_98x1_Mux "2575/2-Wire 98x1 Mux" // 2575/2-Wire 98x1 Mux
#define DAQmx_Val_Switch_Topology_2575_2_Wire_95x1_Mux "2575/2-Wire 95x1 Mux" // 2575/2-Wire 95x1 Mux
#define DAQmx_Val_Switch_Topology_2576_2_Wire_64x1_Mux "2576/2-Wire 64x1 Mux" // 2576/2-Wire 64x1 Mux
#define DAQmx_Val_Switch_Topology_2576_2_Wire_Dual_32x1_Mux "2576/2-Wire Dual 32x1 Mux" // 2576/2-Wire Dual 32x1 Mux
#define DAQmx_Val_Switch_Topology_2576_2_Wire_Octal_8x1_Mux "2576/2-Wire Octal 8x1 Mux" // 2576/2-Wire Octal 8x1 Mux
#define DAQmx_Val_Switch_Topology_2576_2_Wire_Quad_16x1_Mux "2576/2-Wire Quad 16x1 Mux" // 2576/2-Wire Quad 16x1 Mux
#define DAQmx_Val_Switch_Topology_2576_2_Wire_Sixteen_4x1_Mux "2576/2-Wire Sixteen 4x1 Mux" // 2576/2-Wire Sixteen 4x1 Mux
#define DAQmx_Val_Switch_Topology_2576_Independent "2576/Independent" // 2576/Independent
#define DAQmx_Val_Switch_Topology_2584_1_Wire_12x1_Mux "2584/1-Wire 12x1 Mux" // 2584/1-Wire 12x1 Mux
#define DAQmx_Val_Switch_Topology_2584_1_Wire_Dual_6x1_Mux "2584/1-Wire Dual 6x1 Mux" // 2584/1-Wire Dual 6x1 Mux
#define DAQmx_Val_Switch_Topology_2584_2_Wire_6x1_Mux "2584/2-Wire 6x1 Mux" // 2584/2-Wire 6x1 Mux
#define DAQmx_Val_Switch_Topology_2584_Independent "2584/Independent" // 2584/Independent
#define DAQmx_Val_Switch_Topology_2585_1_Wire_10x1_Mux "2585/1-Wire 10x1 Mux" // 2585/1-Wire 10x1 Mux
#define DAQmx_Val_Switch_Topology_2586_10_SPST "2586/10-SPST" // 2586/10-SPST
#define DAQmx_Val_Switch_Topology_2586_5_DPST "2586/5-DPST" // 2586/5-DPST
#define DAQmx_Val_Switch_Topology_2590_4x1_Mux "2590/4x1 Mux" // 2590/4x1 Mux
#define DAQmx_Val_Switch_Topology_2591_4x1_Mux "2591/4x1 Mux" // 2591/4x1 Mux
#define DAQmx_Val_Switch_Topology_2593_16x1_Mux "2593/16x1 Mux" // 2593/16x1 Mux
#define DAQmx_Val_Switch_Topology_2593_Dual_8x1_Mux "2593/Dual 8x1 Mux" // 2593/Dual 8x1 Mux
#define DAQmx_Val_Switch_Topology_2593_8x1_Terminated_Mux "2593/8x1 Terminated Mux" // 2593/8x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_2593_Dual_4x1_Terminated_Mux "2593/Dual 4x1 Terminated Mux" // 2593/Dual 4x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_2593_Independent "2593/Independent" // 2593/Independent
#define DAQmx_Val_Switch_Topology_2594_4x1_Mux "2594/4x1 Mux" // 2594/4x1 Mux
#define DAQmx_Val_Switch_Topology_2595_4x1_Mux "2595/4x1 Mux" // 2595/4x1 Mux
#define DAQmx_Val_Switch_Topology_2596_Dual_6x1_Mux "2596/Dual 6x1 Mux" // 2596/Dual 6x1 Mux
#define DAQmx_Val_Switch_Topology_2597_6x1_Terminated_Mux "2597/6x1 Terminated Mux" // 2597/6x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_2598_Dual_Transfer "2598/Dual Transfer" // 2598/Dual Transfer
#define DAQmx_Val_Switch_Topology_2599_2_SPDT "2599/2-SPDT" // 2599/2-SPDT
#define DAQmx_Val_Switch_Topology_2720_Independent "2720/Independent" // 2720/Independent
#define DAQmx_Val_Switch_Topology_2722_Independent "2722/Independent" // 2722/Independent
#define DAQmx_Val_Switch_Topology_2725_Independent "2725/Independent" // 2725/Independent
#define DAQmx_Val_Switch_Topology_2727_Independent "2727/Independent" // 2727/Independent
#define DAQmx_Val_Switch_Topology_2790_Independent "2790/Independent" // 2790/Independent
#define DAQmx_Val_Switch_Topology_2796_Dual_6x1_Mux "2796/Dual 6x1 Mux" // 2796/Dual 6x1 Mux
#define DAQmx_Val_Switch_Topology_2797_6x1_Terminated_Mux "2797/6x1 Terminated Mux" // 2797/6x1 Terminated Mux
#define DAQmx_Val_Switch_Topology_2798_Dual_Transfer "2798/Dual Transfer" // 2798/Dual Transfer
#define DAQmx_Val_Switch_Topology_2799_2_SPDT "2799/2-SPDT" // 2799/2-SPDT
int32 __CFUNC DAQmxSwitchSetTopologyAndReset (const char deviceName[], const char newTopology[]);
// For possible values of the output parameter pathStatus see value set SwitchPathType in Values section above.
int32 __CFUNC DAQmxSwitchFindPath (const char switchChannel1[], const char switchChannel2[], char path[], uInt32 pathBufferSize, int32 *pathStatus);
int32 __CFUNC DAQmxSwitchOpenRelays (const char relayList[], bool32 waitForSettling);
int32 __CFUNC DAQmxSwitchCloseRelays (const char relayList[], bool32 waitForSettling);
int32 __CFUNC DAQmxSwitchGetSingleRelayCount (const char relayName[], uInt32 *count);
int32 __CFUNC DAQmxSwitchGetMultiRelayCount (const char relayList[], uInt32 count[], uInt32 countArraySize, uInt32 *numRelayCountsRead);
// For possible values of the output parameter relayPos see value set RelayPos in Values section above.
int32 __CFUNC DAQmxSwitchGetSingleRelayPos (const char relayName[], uInt32 *relayPos);
// For possible values in the output array relayPos see value set RelayPos in Values section above.
int32 __CFUNC DAQmxSwitchGetMultiRelayPos (const char relayList[], uInt32 relayPos[], uInt32 relayPosArraySize, uInt32 *numRelayPossRead);
int32 __CFUNC DAQmxSwitchWaitForSettling (const char deviceName[]);
int32 __CFUNC_C DAQmxGetSwitchChanAttribute (const char switchChannelName[], int32 attribute, void *value);
int32 __CFUNC_C DAQmxSetSwitchChanAttribute (const char switchChannelName[], int32 attribute, ...);
int32 __CFUNC_C DAQmxGetSwitchDeviceAttribute (const char deviceName[], int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetSwitchDeviceAttribute (const char deviceName[], int32 attribute, ...);
int32 __CFUNC_C DAQmxGetSwitchScanAttribute (TaskHandle taskHandle, int32 attribute, void *value);
int32 __CFUNC_C DAQmxSetSwitchScanAttribute (TaskHandle taskHandle, int32 attribute, ...);
int32 __CFUNC DAQmxResetSwitchScanAttribute (TaskHandle taskHandle, int32 attribute);
int32 __CFUNC DAQmxDisableAdvTrig (TaskHandle taskHandle);
int32 __CFUNC DAQmxCfgDigEdgeAdvTrig (TaskHandle taskHandle, const char triggerSource[], int32 triggerEdge);
int32 __CFUNC DAQmxSendSoftwareTrigger (TaskHandle taskHandle, int32 triggerID);
/******************************************************/
/*** Signal Routing ***/
/******************************************************/
int32 __CFUNC DAQmxConnectTerms (const char sourceTerminal[], const char destinationTerminal[], int32 signalModifiers);
int32 __CFUNC DAQmxDisconnectTerms (const char sourceTerminal[], const char destinationTerminal[]);
int32 __CFUNC DAQmxTristateOutputTerm (const char outputTerminal[]);
/******************************************************/
/*** Device Control ***/
/******************************************************/
int32 __CFUNC DAQmxResetDevice (const char deviceName[]);
int32 __CFUNC DAQmxSelfTestDevice (const char deviceName[]);
int32 __CFUNC_C DAQmxGetDeviceAttribute (const char deviceName[], int32 attribute, void *value, ...);
/******************************************************/
/*** Watchdog Timer ***/
/******************************************************/
int32 __CFUNC_C DAQmxCreateWatchdogTimerTask (const char deviceName[], const char taskName[], TaskHandle *taskHandle, float64 timeout, const char lines[], int32 expState, ...);
int32 __CFUNC DAQmxCreateWatchdogTimerTaskEx (const char deviceName[], const char taskName[], TaskHandle *taskHandle, float64 timeout);
int32 __CFUNC DAQmxControlWatchdogTask (TaskHandle taskHandle, int32 action);
int32 __CFUNC DAQmxCfgWatchdogAOExpirStates(TaskHandle taskHandle, const char channelNames[], const float64 expirStateArray[], const int32 outputTypeArray[], uInt32 arraySize);
int32 __CFUNC DAQmxCfgWatchdogCOExpirStates(TaskHandle taskHandle, const char channelNames[], const int32 expirStateArray[], uInt32 arraySize);
int32 __CFUNC DAQmxCfgWatchdogDOExpirStates(TaskHandle taskHandle, const char channelNames[], const int32 expirStateArray[], uInt32 arraySize);
int32 __CFUNC_C DAQmxGetWatchdogAttribute (TaskHandle taskHandle, const char lines[], int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetWatchdogAttribute (TaskHandle taskHandle, const char lines[], int32 attribute, ...);
int32 __CFUNC DAQmxResetWatchdogAttribute (TaskHandle taskHandle, const char lines[], int32 attribute);
/******************************************************/
/*** Calibration ***/
/******************************************************/
int32 __CFUNC DAQmxSelfCal (const char deviceName[]);
int32 __CFUNC DAQmxPerformBridgeOffsetNullingCal(TaskHandle taskHandle, const char channel[]);
int32 __CFUNC DAQmxPerformBridgeOffsetNullingCalEx(TaskHandle taskHandle, const char channel[], bool32 skipUnsupportedChannels);
int32 __CFUNC DAQmxPerformThrmcplLeadOffsetNullingCal(TaskHandle taskHandle, const char channel[], bool32 skipUnsupportedChannels);
// Note: This function is deprecated. Use DAQmxPerformStrainShuntCalEx instead.
int32 __CFUNC DAQmxPerformStrainShuntCal (TaskHandle taskHandle, const char channel[], float64 shuntResistorValue, int32 shuntResistorLocation, bool32 skipUnsupportedChannels);
int32 __CFUNC DAQmxPerformStrainShuntCalEx (TaskHandle taskHandle, const char channel[], float64 shuntResistorValue, int32 shuntResistorLocation, int32 shuntResistorSelect, int32 shuntResistorSource, bool32 skipUnsupportedChannels);
// Note: This function is deprecated. Use DAQmxPerformBridgeShuntCalEx instead.
int32 __CFUNC DAQmxPerformBridgeShuntCal (TaskHandle taskHandle, const char channel[], float64 shuntResistorValue, int32 shuntResistorLocation, float64 bridgeResistance, bool32 skipUnsupportedChannels);
int32 __CFUNC DAQmxPerformBridgeShuntCalEx (TaskHandle taskHandle, const char channel[], float64 shuntResistorValue, int32 shuntResistorLocation, int32 shuntResistorSelect, int32 shuntResistorSource, float64 bridgeResistance, bool32 skipUnsupportedChannels);
int32 __CFUNC DAQmxGetSelfCalLastDateAndTime (const char deviceName[], uInt32 *year, uInt32 *month, uInt32 *day, uInt32 *hour, uInt32 *minute);
int32 __CFUNC DAQmxGetExtCalLastDateAndTime (const char deviceName[], uInt32 *year, uInt32 *month, uInt32 *day, uInt32 *hour, uInt32 *minute);
int32 __CFUNC DAQmxRestoreLastExtCalConst (const char deviceName[]);
int32 __CFUNC DAQmxESeriesCalAdjust (CalHandle calHandle, float64 referenceVoltage);
int32 __CFUNC DAQmxMSeriesCalAdjust (CalHandle calHandle, float64 referenceVoltage);
int32 __CFUNC DAQmxSSeriesCalAdjust (CalHandle calHandle, float64 referenceVoltage);
int32 __CFUNC DAQmxSCBaseboardCalAdjust (CalHandle calHandle, float64 referenceVoltage);
int32 __CFUNC DAQmxAOSeriesCalAdjust (CalHandle calHandle, float64 referenceVoltage);
int32 __CFUNC DAQmxXSeriesCalAdjust (CalHandle calHandle, float64 referenceVoltage);
int32 __CFUNC DAQmxDeviceSupportsCal (const char deviceName[], bool32 *calSupported);
int32 __CFUNC_C DAQmxGetCalInfoAttribute (const char deviceName[], int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetCalInfoAttribute (const char deviceName[], int32 attribute, ...);
int32 __CFUNC DAQmxInitExtCal (const char deviceName[], const char password[], CalHandle *calHandle);
int32 __CFUNC DAQmxCloseExtCal (CalHandle calHandle, int32 action);
int32 __CFUNC DAQmxChangeExtCalPassword (const char deviceName[], const char password[], const char newPassword[]);
int32 __CFUNC DAQmxDSASetCalTemp (CalHandle calHandle, float64 temperature);
int32 __CFUNC DAQmxAdjustDSAAICal (CalHandle calHandle, float64 referenceVoltage);
int32 __CFUNC DAQmxAdjustDSAAICalEx (CalHandle calHandle, float64 referenceVoltage, bool32 inputsShorted);
int32 __CFUNC DAQmxAdjustDSAAICalWithGainAndCoupling (CalHandle calHandle, int32 coupling, float64 gain, float64 referenceVoltage);
int32 __CFUNC DAQmxAdjustDSAAOCal (CalHandle calHandle, uInt32 channel, float64 requestedLowVoltage, float64 actualLowVoltage, float64 requestedHighVoltage, float64 actualHighVoltage, float64 gainSetting);
int32 __CFUNC DAQmxAdjust4610Cal (CalHandle calHandle, const char channelName[], float64 gain, float64 offset);
int32 __CFUNC DAQmxAdjustDSATimebaseCal (CalHandle calHandle, float64 referenceFrequency);
int32 __CFUNC DAQmxAdjustDSAAOTimebaseCal (CalHandle calHandle, float64 measuredFrequency, bool32* calComplete);
int32 __CFUNC DAQmxSetupDSAAOTimebaseCal (CalHandle calHandle, float64* expectedFrequency);
int32 __CFUNC DAQmxGet4463AdjustPoints (CalHandle calHandle, int32 terminalConfig, float64 gain, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust4463Cal (CalHandle calHandle, const char channelNames[], float64 referenceVoltage);
int32 __CFUNC DAQmxSetup4463Cal (CalHandle calHandle, const char channelNames[], int32 terminalConfig, float64 gain, float64 outputVoltage);
int32 __CFUNC DAQmxSetup4480Cal (CalHandle calHandle, const char channelNames[], int32 calMode);
int32 __CFUNC DAQmxAdjustTIOTimebaseCal (CalHandle calHandle, float64 referenceFrequency);
int32 __CFUNC DAQmxAdjust4204Cal (CalHandle calHandle, const char channelNames[], float64 lowPassFreq, bool32 trackHoldEnabled, float64 inputVal);
int32 __CFUNC DAQmxAdjust4220Cal (CalHandle calHandle, const char channelNames[], float64 gain, float64 inputVal);
int32 __CFUNC DAQmxAdjust4224Cal (CalHandle calHandle, const char channelNames[], float64 gain, float64 inputVal);
// Note: This function is obsolete and now always returns zero.
int32 __CFUNC DAQmxAdjust4225Cal (CalHandle calHandle, const char channelNames[], float64 gain, float64 inputVal);
int32 __CFUNC DAQmxSetup433xCal (CalHandle calHandle, const char channelNames[], float64 excitationVoltage);
int32 __CFUNC DAQmxAdjust433xCal (CalHandle calHandle, float64 refVoltage, float64 refExcitation, int32 shuntLocation);
int32 __CFUNC DAQmxSetup4339Cal (CalHandle calHandle, const char channelNames[], int32 calMode, float64 rangeMax, float64 rangeMin, float64 excitationVoltage);
int32 __CFUNC DAQmxAdjust4339Cal (CalHandle calHandle, float64 refVoltage);
int32 __CFUNC DAQmxGet4339CalAdjustPoints (CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize );
int32 __CFUNC DAQmxAdjust4300Cal (CalHandle calHandle, float64 refVoltage);
int32 __CFUNC DAQmxSetup4302Cal (CalHandle calHandle, const char channelNames[], float64 rangeMin, float64 rangeMax);
int32 __CFUNC DAQmxGet4302CalAdjustPoints (CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust4302Cal (CalHandle calHandle, float64 refVoltage);
int32 __CFUNC DAQmxSetup4303Cal (CalHandle calHandle, const char channelNames[], float64 rangeMin, float64 rangeMax);
int32 __CFUNC DAQmxGet4303CalAdjustPoints (CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust4303Cal (CalHandle calHandle, float64 refVoltage);
int32 __CFUNC DAQmxSetup4304Cal (CalHandle calHandle, const char channelNames[], float64 rangeMin, float64 rangeMax);
int32 __CFUNC DAQmxGet4304CalAdjustPoints (CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust4304Cal (CalHandle calHandle, float64 refVoltage);
int32 __CFUNC DAQmxSetup4305Cal (CalHandle calHandle, const char channelNames[], float64 rangeMin, float64 rangeMax);
int32 __CFUNC DAQmxGet4305CalAdjustPoints (CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust4305Cal (CalHandle calHandle, float64 refVoltage);
int32 __CFUNC DAQmxAdjust4309Cal (CalHandle calHandle, float64 refVoltage);
int32 __CFUNC DAQmxAdjust4310Cal (CalHandle calHandle, float64 refVoltage);
int32 __CFUNC DAQmxAdjust4353Cal (CalHandle calHandle, const char channelNames[], float64 refVal);
int32 __CFUNC DAQmxAdjust4357Cal (CalHandle calHandle, const char channelNames[], const float64 refVals[], int32 numRefVals);
int32 __CFUNC DAQmxSetup4322Cal (CalHandle calHandle, const char channelNames[], int32 outputType, float64 outputVal);
int32 __CFUNC DAQmxAdjust4322Cal (CalHandle calHandle, const char channelNames[], float64 refVal);
int32 __CFUNC DAQmxGet4322CalAdjustPoints (CalHandle calHandle, int32 outputType, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxConnectSCExpressCalAccChans (CalHandle calHandle, const char channelNames[], const char connection[]);
int32 __CFUNC DAQmxDisconnectSCExpressCalAccChans (CalHandle calHandle);
int32 __CFUNC DAQmxGetPossibleSCExpressCalAccConnections (const char deviceName[], const char channelNames[], char *connections, uInt32 connectionsBufferSize);
int32 __CFUNC DAQmxSetSCExpressCalAccBridgeOutput (CalHandle calHandle, float64 voltsPerVolt);
int32 __CFUNC DAQmxFieldDAQSetCalTemp (CalHandle calHandle, float64 temperature);
int32 __CFUNC DAQmxGet11601CalAdjustPoints (CalHandle calHandle, float64 *adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust11601Cal (CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet11603CalAdjustPoints (CalHandle calHandle, float64 *adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust11603Cal (CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxSetup11605Cal (CalHandle calHandle, float64 rangeMin, float64 rangeMax);
int32 __CFUNC DAQmxGet11605CalAdjustPoints (CalHandle calHandle, float64 *adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust11605Cal (CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet11613CalAdjustPoints (CalHandle calHandle, float64 *adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust11613Cal (CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet11614CalAdjustPoints (CalHandle calHandle, float64 *adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust11614Cal (CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxSetup11634Cal (CalHandle calHandle, float64 rangeMin, float64 rangeMax);
int32 __CFUNC DAQmxGet11634CalAdjustPoints (CalHandle calHandle, float64 *adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust11634Cal (CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxSetup11637Cal (CalHandle calHandle, const char channelNames[], int32 bridgeConfig, float64 voltageExcitation);
int32 __CFUNC DAQmxAdjust11637Cal (CalHandle calHandle, float64 value, float64* actualReading, float64* asFoundGainError, float64* asFoundOffsetError);
int32 __CFUNC DAQmxGet9201CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxCSeriesSetCalTemp(CalHandle calHandle, float64 temperature);
int32 __CFUNC DAQmxAdjust9201Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9202CalAdjustPoints(CalHandle calHandle, float64 *adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9202Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9203CalAdjustPoints(CalHandle calHandle, float64 rangeMin, float64 rangeMax, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9203GainCal(CalHandle calHandle, const char channelNames[], float64 rangeMin, float64 rangeMax, float64 value);
int32 __CFUNC DAQmxAdjust9203OffsetCal(CalHandle calHandle, const char channelNames[], float64 rangeMin, float64 rangeMax);
int32 __CFUNC DAQmxAdjust9205Cal(CalHandle calHandle, float64 value);
int32 __CFUNC DAQmxAdjust9206Cal(CalHandle calHandle, float64 value);
int32 __CFUNC DAQmxGet9207CalAdjustPoints(CalHandle calHandle, const char channelNames[], float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9207GainCal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxAdjust9207OffsetCal(CalHandle calHandle, const char channelNames[]);
int32 __CFUNC DAQmxGet9208CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9208GainCal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxAdjust9208OffsetCal(CalHandle calHandle, const char channelNames[]);
int32 __CFUNC DAQmxGet9209CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9209GainCal(CalHandle calHandle, const char channelNames[], int32 terminalConfig, float64 value);
int32 __CFUNC DAQmxAdjust9209OffsetCal(CalHandle calHandle, const char channelNames[]);
int32 __CFUNC DAQmxAdjust9210Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxAdjust9211Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9212CalAdjustPoints(CalHandle calHandle, const char channelNames[], float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9212Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9213CalAdjustPoints(CalHandle calHandle, float64 rangeMin, float64 rangeMax, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9213Cal(CalHandle calHandle, const char channelNames[], float64 rangeMin, float64 rangeMax, float64 value);
int32 __CFUNC DAQmxGet9214CalAdjustPoints(CalHandle calHandle, const char channelNames[], float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9214Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9215CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9215Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9216CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9216Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9217CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9217Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxSetup9218Cal(CalHandle calHandle, const char channelNames[], float64 rangeMin, float64 rangeMax, int32 measType);
int32 __CFUNC DAQmxGet9218CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9218Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxSetup9219Cal(CalHandle calHandle, const char channelNames[], float64 rangeMin, float64 rangeMax, int32 measType, int32 bridgeConfig);
int32 __CFUNC DAQmxGet9219CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9219Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9220CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9220Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9221CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9221Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9222CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9222Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9223CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9223Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9224CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9224Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9225CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9225Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9226CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9226Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9227CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9227Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9228CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9228Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9229CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9229Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9230CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9230Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9231CalAdjustPoints(CalHandle calHandle, float64 *adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9231Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9232CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9232Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9234CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9234GainCal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxAdjust9234OffsetCal(CalHandle calHandle, const char channelNames[]);
int32 __CFUNC DAQmxGet9238CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9238Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9239CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9239Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9242CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxSetup9242Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxAdjust9242Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9244CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxSetup9244Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxAdjust9244Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9246CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9246Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9247CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9247Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9250CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9250Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9251CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9251Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9252CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9252Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9253CalAdjustPoints(CalHandle calHandle, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9253Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9260CalAdjustPoints(CalHandle calHandle, int32* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxSetup9260Cal(CalHandle calHandle, const char channelNames[], int32 value);
int32 __CFUNC DAQmxAdjust9260Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9262CalAdjustPoints(CalHandle calHandle, int32* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxSetup9262Cal(CalHandle calHandle, const char channelNames[], int32 value);
int32 __CFUNC DAQmxAdjust9262Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9263CalAdjustPoints(CalHandle calHandle, int32* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxSetup9263Cal(CalHandle calHandle, const char channelNames[], int32 value);
int32 __CFUNC DAQmxAdjust9263Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9264CalAdjustPoints(CalHandle calHandle, int32* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxSetup9264Cal(CalHandle calHandle, const char channelNames[], int32 value);
int32 __CFUNC DAQmxAdjust9264Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9265CalAdjustPoints(CalHandle calHandle, int32* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxSetup9265Cal(CalHandle calHandle, const char channelNames[], int32 value);
int32 __CFUNC DAQmxAdjust9265Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9266CalAdjustPoints(CalHandle calHandle, int32* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxSetup9266Cal(CalHandle calHandle, const char channelNames[], int32 value);
int32 __CFUNC DAQmxAdjust9266Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9269CalAdjustPoints(CalHandle calHandle, int32* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxSetup9269Cal(CalHandle calHandle, const char channelNames[], int32 value);
int32 __CFUNC DAQmxAdjust9269Cal(CalHandle calHandle, const char channelNames[], float64 value);
int32 __CFUNC DAQmxGet9775CalAdjustPoints(CalHandle calHandle, uInt32 coupling, float64* adjustmentPoints, uInt32 bufferSize);
int32 __CFUNC DAQmxAdjust9775Cal(CalHandle calHandle, const char channelNames[], float64 value, uInt32 coupling);
int32 __CFUNC DAQmxSetup1102Cal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust1102Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1104Cal (CalHandle calHandle, const char channelName[]);
int32 __CFUNC DAQmxAdjust1104Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1112Cal (CalHandle calHandle, const char channelName[]);
int32 __CFUNC DAQmxAdjust1112Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1122Cal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust1122Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1124Cal (CalHandle calHandle, const char channelName[], int32 range, uInt32 dacValue);
int32 __CFUNC DAQmxAdjust1124Cal (CalHandle calHandle, float64 measOutput);
int32 __CFUNC DAQmxSetup1125Cal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust1125Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1126Cal (CalHandle calHandle, const char channelName[], float64 upperFreqLimit);
int32 __CFUNC DAQmxAdjust1126Cal (CalHandle calHandle, float64 refFreq, float64 measOutput);
int32 __CFUNC DAQmxSetup1141Cal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust1141Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1142Cal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust1142Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1143Cal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust1143Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1502Cal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust1502Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1503Cal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust1503Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxAdjust1503CurrentCal (CalHandle calHandle, const char channelName[], float64 measCurrent);
int32 __CFUNC DAQmxSetup1520Cal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust1520Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1521Cal (CalHandle calHandle, const char channelName[]);
int32 __CFUNC DAQmxAdjust1521Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup153xCal (CalHandle calHandle, const char channelName[], float64 gain);
int32 __CFUNC DAQmxAdjust153xCal (CalHandle calHandle, float64 refVoltage, float64 measOutput);
int32 __CFUNC DAQmxSetup1540Cal (CalHandle calHandle, const char channelName[], float64 excitationVoltage, float64 excitationFreq);
int32 __CFUNC DAQmxAdjust1540Cal (CalHandle calHandle, float64 refVoltage, float64 measOutput, int32 inputCalSource);
/******************************************************/
/*** TEDS ***/
/******************************************************/
int32 __CFUNC DAQmxConfigureTEDS (const char physicalChannel[], const char filePath[]);
int32 __CFUNC DAQmxClearTEDS (const char physicalChannel[]);
int32 __CFUNC DAQmxWriteToTEDSFromArray (const char physicalChannel[], const uInt8 bitStream[], uInt32 arraySize, int32 basicTEDSOptions);
int32 __CFUNC DAQmxWriteToTEDSFromFile (const char physicalChannel[], const char filePath[], int32 basicTEDSOptions);
int32 __CFUNC_C DAQmxGetPhysicalChanAttribute (const char physicalChannel[], int32 attribute, void *value, ...);
/******************************************************/
/*** Real-Time ***/
/******************************************************/
int32 __CFUNC DAQmxWaitForNextSampleClock(TaskHandle taskHandle, float64 timeout, bool32 *isLate);
int32 __CFUNC_C DAQmxGetRealTimeAttribute (TaskHandle taskHandle, int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetRealTimeAttribute (TaskHandle taskHandle, int32 attribute, ...);
int32 __CFUNC DAQmxResetRealTimeAttribute(TaskHandle taskHandle, int32 attribute);
// Note: This function is obsolete and now always returns zero.
bool32 __CFUNC DAQmxIsReadOrWriteLate (int32 errorCode);
/******************************************************/
/*** Storage ***/
/******************************************************/
int32 __CFUNC DAQmxSaveTask (TaskHandle taskHandle, const char saveAs[], const char author[], uInt32 options);
int32 __CFUNC DAQmxSaveGlobalChan (TaskHandle taskHandle, const char channelName[], const char saveAs[], const char author[], uInt32 options);
int32 __CFUNC DAQmxSaveScale (const char scaleName[], const char saveAs[], const char author[], uInt32 options);
int32 __CFUNC DAQmxDeleteSavedTask (const char taskName[]);
int32 __CFUNC DAQmxDeleteSavedGlobalChan (const char channelName[]);
int32 __CFUNC DAQmxDeleteSavedScale (const char scaleName[]);
int32 __CFUNC_C DAQmxGetPersistedTaskAttribute (const char taskName[], int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxGetPersistedChanAttribute (const char channel[], int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxGetPersistedScaleAttribute(const char scaleName[], int32 attribute, void *value, ...);
/******************************************************/
/*** System Configuration ***/
/******************************************************/
int32 __CFUNC_C DAQmxGetSystemInfoAttribute (int32 attribute, void *value, ...);
int32 __CFUNC_C DAQmxSetDigitalPowerUpStates (const char deviceName[], const char channelNames[], int32 state, ...);
int32 __CFUNC_C DAQmxGetDigitalPowerUpStates (const char deviceName[], const char channelName[], int32* state, ...);
int32 __CFUNC_C DAQmxSetDigitalPullUpPullDownStates (const char deviceName[], const char channelName[], int32 state, ...);
int32 __CFUNC_C DAQmxGetDigitalPullUpPullDownStates (const char deviceName[], const char channelName[], int32* state, ...);
int32 __CFUNC_C DAQmxSetAnalogPowerUpStates (const char deviceName[], const char channelNames[], float64 state, int32 channelType, ...);
int32 __CFUNC_C DAQmxSetAnalogPowerUpStatesWithOutputType (const char channelNames[], const float64 stateArray[], const int32 channelTypeArray[], uInt32 arraySize);
int32 __CFUNC_C DAQmxGetAnalogPowerUpStates (const char deviceName[], const char channelName[], float64* state, int32 channelType, ...);
int32 __CFUNC_C DAQmxGetAnalogPowerUpStatesWithOutputType(const char channelNames[], float64 stateArray[], int32 channelTypeArray[], uInt32 *arraySizePtr);
int32 __CFUNC DAQmxSetDigitalLogicFamilyPowerUpState(const char deviceName[], int32 logicFamily);
int32 __CFUNC DAQmxGetDigitalLogicFamilyPowerUpState(const char deviceName[], int32* logicFamily);
int32 __CFUNC DAQmxAddNetworkDevice(const char IPAddress[],const char deviceName[], bool32 attemptReservation, float64 timeout, char deviceNameOut[], uInt32 deviceNameOutBufferSize);
int32 __CFUNC DAQmxDeleteNetworkDevice(const char deviceName[]);
int32 __CFUNC DAQmxReserveNetworkDevice(const char deviceName[], bool32 overrideReservation);
int32 __CFUNC DAQmxUnreserveNetworkDevice(const char deviceName[]);
/******************************************************/
/*** cDAQ Sync Connections ***/
/******************************************************/
int32 __CFUNC DAQmxAutoConfigureCDAQSyncConnections(const char chassisDevicesPorts[], float64 timeout);
int32 __CFUNC DAQmxGetAutoConfiguredCDAQSyncConnections(char portList[], uInt32 portListSize);
int32 __CFUNC DAQmxAreConfiguredCDAQSyncPortsDisconnected(const char chassisDevicesPorts[], float64 timeout, bool32* disconnectedPortsExist);
int32 __CFUNC DAQmxGetDisconnectedCDAQSyncPorts(char portList[], uInt32 portListSize);
int32 __CFUNC DAQmxAddCDAQSyncConnection(const char portList[]);
int32 __CFUNC DAQmxRemoveCDAQSyncConnection(const char portList[]);
/******************************************************/
/*** Error Handling ***/
/******************************************************/
int32 __CFUNC DAQmxGetErrorString (int32 errorCode, char errorString[], uInt32 bufferSize);
int32 __CFUNC DAQmxGetExtendedErrorInfo (char errorString[], uInt32 bufferSize);
/******************************************************************************
*** NI-DAQmx Specific Attribute Get/Set/Reset Function Declarations **********
******************************************************************************/
//********** Buffer **********
//*** Set/Get functions for DAQmx_Buf_Input_BufSize ***
int32 __CFUNC DAQmxGetBufInputBufSize(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetBufInputBufSize(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetBufInputBufSize(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Buf_Input_OnbrdBufSize ***
int32 __CFUNC DAQmxGetBufInputOnbrdBufSize(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Buf_Output_BufSize ***
int32 __CFUNC DAQmxGetBufOutputBufSize(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetBufOutputBufSize(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetBufOutputBufSize(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Buf_Output_OnbrdBufSize ***
int32 __CFUNC DAQmxGetBufOutputOnbrdBufSize(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetBufOutputOnbrdBufSize(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetBufOutputOnbrdBufSize(TaskHandle taskHandle);
//********** Calibration Info **********
//*** Set/Get functions for DAQmx_SelfCal_Supported ***
int32 __CFUNC DAQmxGetSelfCalSupported(const char deviceName[], bool32 *data);
//*** Set/Get functions for DAQmx_SelfCal_LastTemp ***
int32 __CFUNC DAQmxGetSelfCalLastTemp(const char deviceName[], float64 *data);
//*** Set/Get functions for DAQmx_ExtCal_RecommendedInterval ***
int32 __CFUNC DAQmxGetExtCalRecommendedInterval(const char deviceName[], uInt32 *data);
//*** Set/Get functions for DAQmx_ExtCal_LastTemp ***
int32 __CFUNC DAQmxGetExtCalLastTemp(const char deviceName[], float64 *data);
//*** Set/Get functions for DAQmx_Cal_UserDefinedInfo ***
int32 __CFUNC DAQmxGetCalUserDefinedInfo(const char deviceName[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCalUserDefinedInfo(const char deviceName[], const char *data);
//*** Set/Get functions for DAQmx_Cal_UserDefinedInfo_MaxSize ***
int32 __CFUNC DAQmxGetCalUserDefinedInfoMaxSize(const char deviceName[], uInt32 *data);
//*** Set/Get functions for DAQmx_Cal_DevTemp ***
int32 __CFUNC DAQmxGetCalDevTemp(const char deviceName[], float64 *data);
//*** Set/Get functions for DAQmx_Cal_AccConnectionCount ***
int32 __CFUNC DAQmxGetCalAccConnectionCount(const char deviceName[], uInt32 *data);
int32 __CFUNC DAQmxSetCalAccConnectionCount(const char deviceName[], uInt32 data);
//*** Set/Get functions for DAQmx_Cal_RecommendedAccConnectionCountLimit ***
int32 __CFUNC DAQmxGetCalRecommendedAccConnectionCountLimit(const char deviceName[], uInt32 *data);
//********** Channel **********
//*** Set/Get functions for DAQmx_AI_Max ***
int32 __CFUNC DAQmxGetAIMax(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIMax(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIMax(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Min ***
int32 __CFUNC DAQmxGetAIMin(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIMin(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIMin(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_CustomScaleName ***
int32 __CFUNC DAQmxGetAICustomScaleName(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAICustomScaleName(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetAICustomScaleName(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_MeasType ***
// Uses value set AIMeasurementType
int32 __CFUNC DAQmxGetAIMeasType(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_AI_Voltage_Units ***
// Uses value set VoltageUnits1
int32 __CFUNC DAQmxGetAIVoltageUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIVoltageUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIVoltageUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Voltage_dBRef ***
int32 __CFUNC DAQmxGetAIVoltagedBRef(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIVoltagedBRef(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIVoltagedBRef(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Voltage_ACRMS_Units ***
// Uses value set VoltageUnits1
int32 __CFUNC DAQmxGetAIVoltageACRMSUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIVoltageACRMSUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIVoltageACRMSUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Temp_Units ***
// Uses value set TemperatureUnits1
int32 __CFUNC DAQmxGetAITempUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAITempUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAITempUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Thrmcpl_Type ***
// Uses value set ThermocoupleType1
int32 __CFUNC DAQmxGetAIThrmcplType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIThrmcplType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIThrmcplType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Thrmcpl_ScaleType ***
// Uses value set ScaleType2
int32 __CFUNC DAQmxGetAIThrmcplScaleType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIThrmcplScaleType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIThrmcplScaleType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Thrmcpl_CJCSrc ***
// Uses value set CJCSource1
int32 __CFUNC DAQmxGetAIThrmcplCJCSrc(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_AI_Thrmcpl_CJCVal ***
int32 __CFUNC DAQmxGetAIThrmcplCJCVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIThrmcplCJCVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIThrmcplCJCVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Thrmcpl_CJCChan ***
int32 __CFUNC DAQmxGetAIThrmcplCJCChan(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_AI_RTD_Type ***
// Uses value set RTDType1
int32 __CFUNC DAQmxGetAIRTDType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIRTDType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIRTDType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RTD_R0 ***
int32 __CFUNC DAQmxGetAIRTDR0(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIRTDR0(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIRTDR0(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RTD_A ***
int32 __CFUNC DAQmxGetAIRTDA(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIRTDA(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIRTDA(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RTD_B ***
int32 __CFUNC DAQmxGetAIRTDB(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIRTDB(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIRTDB(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RTD_C ***
int32 __CFUNC DAQmxGetAIRTDC(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIRTDC(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIRTDC(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Thrmstr_A ***
int32 __CFUNC DAQmxGetAIThrmstrA(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIThrmstrA(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIThrmstrA(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Thrmstr_B ***
int32 __CFUNC DAQmxGetAIThrmstrB(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIThrmstrB(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIThrmstrB(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Thrmstr_C ***
int32 __CFUNC DAQmxGetAIThrmstrC(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIThrmstrC(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIThrmstrC(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Thrmstr_R1 ***
int32 __CFUNC DAQmxGetAIThrmstrR1(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIThrmstrR1(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIThrmstrR1(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ForceReadFromChan ***
int32 __CFUNC DAQmxGetAIForceReadFromChan(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIForceReadFromChan(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIForceReadFromChan(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Current_Units ***
// Uses value set CurrentUnits1
int32 __CFUNC DAQmxGetAICurrentUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAICurrentUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAICurrentUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Current_ACRMS_Units ***
// Uses value set CurrentUnits1
int32 __CFUNC DAQmxGetAICurrentACRMSUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAICurrentACRMSUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAICurrentACRMSUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Strain_Units ***
// Uses value set StrainUnits1
int32 __CFUNC DAQmxGetAIStrainUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIStrainUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIStrainUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_StrainGage_ForceReadFromChan ***
int32 __CFUNC DAQmxGetAIStrainGageForceReadFromChan(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIStrainGageForceReadFromChan(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIStrainGageForceReadFromChan(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_StrainGage_GageFactor ***
int32 __CFUNC DAQmxGetAIStrainGageGageFactor(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIStrainGageGageFactor(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIStrainGageGageFactor(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_StrainGage_PoissonRatio ***
int32 __CFUNC DAQmxGetAIStrainGagePoissonRatio(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIStrainGagePoissonRatio(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIStrainGagePoissonRatio(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_StrainGage_Cfg ***
// Uses value set StrainGageBridgeType1
int32 __CFUNC DAQmxGetAIStrainGageCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIStrainGageCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIStrainGageCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RosetteStrainGage_RosetteType ***
// Uses value set StrainGageRosetteType
int32 __CFUNC DAQmxGetAIRosetteStrainGageRosetteType(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_AI_RosetteStrainGage_Orientation ***
int32 __CFUNC DAQmxGetAIRosetteStrainGageOrientation(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIRosetteStrainGageOrientation(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIRosetteStrainGageOrientation(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RosetteStrainGage_StrainChans ***
int32 __CFUNC DAQmxGetAIRosetteStrainGageStrainChans(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_AI_RosetteStrainGage_RosetteMeasType ***
// Uses value set StrainGageRosetteMeasurementType
int32 __CFUNC DAQmxGetAIRosetteStrainGageRosetteMeasType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIRosetteStrainGageRosetteMeasType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIRosetteStrainGageRosetteMeasType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Resistance_Units ***
// Uses value set ResistanceUnits1
int32 __CFUNC DAQmxGetAIResistanceUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIResistanceUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIResistanceUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Freq_Units ***
// Uses value set FrequencyUnits
int32 __CFUNC DAQmxGetAIFreqUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIFreqUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIFreqUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Freq_ThreshVoltage ***
int32 __CFUNC DAQmxGetAIFreqThreshVoltage(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIFreqThreshVoltage(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIFreqThreshVoltage(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Freq_Hyst ***
int32 __CFUNC DAQmxGetAIFreqHyst(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIFreqHyst(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIFreqHyst(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_LVDT_Units ***
// Uses value set LengthUnits2
int32 __CFUNC DAQmxGetAILVDTUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAILVDTUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAILVDTUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_LVDT_Sensitivity ***
int32 __CFUNC DAQmxGetAILVDTSensitivity(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAILVDTSensitivity(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAILVDTSensitivity(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_LVDT_SensitivityUnits ***
// Uses value set LVDTSensitivityUnits1
int32 __CFUNC DAQmxGetAILVDTSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAILVDTSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAILVDTSensitivityUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RVDT_Units ***
// Uses value set AngleUnits1
int32 __CFUNC DAQmxGetAIRVDTUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIRVDTUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIRVDTUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RVDT_Sensitivity ***
int32 __CFUNC DAQmxGetAIRVDTSensitivity(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIRVDTSensitivity(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIRVDTSensitivity(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RVDT_SensitivityUnits ***
// Uses value set RVDTSensitivityUnits1
int32 __CFUNC DAQmxGetAIRVDTSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIRVDTSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIRVDTSensitivityUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_EddyCurrentProxProbe_Units ***
// Uses value set LengthUnits2
int32 __CFUNC DAQmxGetAIEddyCurrentProxProbeUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIEddyCurrentProxProbeUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIEddyCurrentProxProbeUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_EddyCurrentProxProbe_Sensitivity ***
int32 __CFUNC DAQmxGetAIEddyCurrentProxProbeSensitivity(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIEddyCurrentProxProbeSensitivity(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIEddyCurrentProxProbeSensitivity(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_EddyCurrentProxProbe_SensitivityUnits ***
// Uses value set EddyCurrentProxProbeSensitivityUnits
int32 __CFUNC DAQmxGetAIEddyCurrentProxProbeSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIEddyCurrentProxProbeSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIEddyCurrentProxProbeSensitivityUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_SoundPressure_MaxSoundPressureLvl ***
int32 __CFUNC DAQmxGetAISoundPressureMaxSoundPressureLvl(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAISoundPressureMaxSoundPressureLvl(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAISoundPressureMaxSoundPressureLvl(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_SoundPressure_Units ***
// Uses value set SoundPressureUnits1
int32 __CFUNC DAQmxGetAISoundPressureUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAISoundPressureUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAISoundPressureUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_SoundPressure_dBRef ***
int32 __CFUNC DAQmxGetAISoundPressuredBRef(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAISoundPressuredBRef(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAISoundPressuredBRef(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Microphone_Sensitivity ***
int32 __CFUNC DAQmxGetAIMicrophoneSensitivity(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIMicrophoneSensitivity(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIMicrophoneSensitivity(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Accel_Units ***
// Uses value set AccelUnits2
int32 __CFUNC DAQmxGetAIAccelUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIAccelUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIAccelUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Accel_dBRef ***
int32 __CFUNC DAQmxGetAIAcceldBRef(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIAcceldBRef(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIAcceldBRef(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Accel_4WireDCVoltage_Sensitivity ***
int32 __CFUNC DAQmxGetAIAccel4WireDCVoltageSensitivity(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIAccel4WireDCVoltageSensitivity(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIAccel4WireDCVoltageSensitivity(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Accel_4WireDCVoltage_SensitivityUnits ***
// Uses value set AccelSensitivityUnits1
int32 __CFUNC DAQmxGetAIAccel4WireDCVoltageSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIAccel4WireDCVoltageSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIAccel4WireDCVoltageSensitivityUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Accel_Sensitivity ***
int32 __CFUNC DAQmxGetAIAccelSensitivity(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIAccelSensitivity(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIAccelSensitivity(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Accel_SensitivityUnits ***
// Uses value set AccelSensitivityUnits1
int32 __CFUNC DAQmxGetAIAccelSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIAccelSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIAccelSensitivityUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Accel_Charge_Sensitivity ***
int32 __CFUNC DAQmxGetAIAccelChargeSensitivity(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIAccelChargeSensitivity(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIAccelChargeSensitivity(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Accel_Charge_SensitivityUnits ***
// Uses value set AccelChargeSensitivityUnits
int32 __CFUNC DAQmxGetAIAccelChargeSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIAccelChargeSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIAccelChargeSensitivityUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Velocity_Units ***
// Uses value set VelocityUnits
int32 __CFUNC DAQmxGetAIVelocityUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIVelocityUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIVelocityUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Velocity_IEPESensor_dBRef ***
int32 __CFUNC DAQmxGetAIVelocityIEPESensordBRef(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIVelocityIEPESensordBRef(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIVelocityIEPESensordBRef(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Velocity_IEPESensor_Sensitivity ***
int32 __CFUNC DAQmxGetAIVelocityIEPESensorSensitivity(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIVelocityIEPESensorSensitivity(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIVelocityIEPESensorSensitivity(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Velocity_IEPESensor_SensitivityUnits ***
// Uses value set VelocityIEPESensorSensitivityUnits
int32 __CFUNC DAQmxGetAIVelocityIEPESensorSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIVelocityIEPESensorSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIVelocityIEPESensorSensitivityUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Force_Units ***
// Uses value set ForceUnits
int32 __CFUNC DAQmxGetAIForceUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIForceUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIForceUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Force_IEPESensor_Sensitivity ***
int32 __CFUNC DAQmxGetAIForceIEPESensorSensitivity(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIForceIEPESensorSensitivity(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIForceIEPESensorSensitivity(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Force_IEPESensor_SensitivityUnits ***
// Uses value set ForceIEPESensorSensitivityUnits
int32 __CFUNC DAQmxGetAIForceIEPESensorSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIForceIEPESensorSensitivityUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIForceIEPESensorSensitivityUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Pressure_Units ***
// Uses value set PressureUnits
int32 __CFUNC DAQmxGetAIPressureUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIPressureUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIPressureUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Torque_Units ***
// Uses value set TorqueUnits
int32 __CFUNC DAQmxGetAITorqueUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAITorqueUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAITorqueUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_Units ***
// Uses value set BridgeUnits
int32 __CFUNC DAQmxGetAIBridgeUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIBridgeUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIBridgeUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ElectricalUnits ***
// Uses value set BridgeElectricalUnits
int32 __CFUNC DAQmxGetAIBridgeElectricalUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIBridgeElectricalUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIBridgeElectricalUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_PhysicalUnits ***
// Uses value set BridgePhysicalUnits
int32 __CFUNC DAQmxGetAIBridgePhysicalUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIBridgePhysicalUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIBridgePhysicalUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ScaleType ***
// Uses value set ScaleType4
int32 __CFUNC DAQmxGetAIBridgeScaleType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIBridgeScaleType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIBridgeScaleType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_TwoPointLin_First_ElectricalVal ***
int32 __CFUNC DAQmxGetAIBridgeTwoPointLinFirstElectricalVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeTwoPointLinFirstElectricalVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeTwoPointLinFirstElectricalVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_TwoPointLin_First_PhysicalVal ***
int32 __CFUNC DAQmxGetAIBridgeTwoPointLinFirstPhysicalVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeTwoPointLinFirstPhysicalVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeTwoPointLinFirstPhysicalVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_TwoPointLin_Second_ElectricalVal ***
int32 __CFUNC DAQmxGetAIBridgeTwoPointLinSecondElectricalVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeTwoPointLinSecondElectricalVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeTwoPointLinSecondElectricalVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_TwoPointLin_Second_PhysicalVal ***
int32 __CFUNC DAQmxGetAIBridgeTwoPointLinSecondPhysicalVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeTwoPointLinSecondPhysicalVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeTwoPointLinSecondPhysicalVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_Table_ElectricalVals ***
int32 __CFUNC DAQmxGetAIBridgeTableElectricalVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIBridgeTableElectricalVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIBridgeTableElectricalVals(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_Table_PhysicalVals ***
int32 __CFUNC DAQmxGetAIBridgeTablePhysicalVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIBridgeTablePhysicalVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIBridgeTablePhysicalVals(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_Poly_ForwardCoeff ***
int32 __CFUNC DAQmxGetAIBridgePolyForwardCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIBridgePolyForwardCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIBridgePolyForwardCoeff(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_Poly_ReverseCoeff ***
int32 __CFUNC DAQmxGetAIBridgePolyReverseCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIBridgePolyReverseCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIBridgePolyReverseCoeff(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Charge_Units ***
// Uses value set ChargeUnits
int32 __CFUNC DAQmxGetAIChargeUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIChargeUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIChargeUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Is_TEDS ***
int32 __CFUNC DAQmxGetAIIsTEDS(TaskHandle taskHandle, const char channel[], bool32 *data);
//*** Set/Get functions for DAQmx_AI_TEDS_Units ***
int32 __CFUNC DAQmxGetAITEDSUnits(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_AI_Coupling ***
// Uses value set Coupling1
int32 __CFUNC DAQmxGetAICoupling(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAICoupling(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAICoupling(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Impedance ***
// Uses value set Impedance1
int32 __CFUNC DAQmxGetAIImpedance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIImpedance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIImpedance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_TermCfg ***
// Uses value set InputTermCfg
int32 __CFUNC DAQmxGetAITermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAITermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAITermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_InputSrc ***
int32 __CFUNC DAQmxGetAIInputSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAIInputSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetAIInputSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ResistanceCfg ***
// Uses value set ResistanceConfiguration
int32 __CFUNC DAQmxGetAIResistanceCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIResistanceCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIResistanceCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_LeadWireResistance ***
int32 __CFUNC DAQmxGetAILeadWireResistance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAILeadWireResistance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAILeadWireResistance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_Cfg ***
// Uses value set BridgeConfiguration1
int32 __CFUNC DAQmxGetAIBridgeCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIBridgeCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIBridgeCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_NomResistance ***
int32 __CFUNC DAQmxGetAIBridgeNomResistance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeNomResistance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeNomResistance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_InitialVoltage ***
int32 __CFUNC DAQmxGetAIBridgeInitialVoltage(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeInitialVoltage(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeInitialVoltage(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_InitialRatio ***
int32 __CFUNC DAQmxGetAIBridgeInitialRatio(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeInitialRatio(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeInitialRatio(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ShuntCal_Enable ***
int32 __CFUNC DAQmxGetAIBridgeShuntCalEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIBridgeShuntCalEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIBridgeShuntCalEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ShuntCal_Select ***
// Uses value set ShuntCalSelect
int32 __CFUNC DAQmxGetAIBridgeShuntCalSelect(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIBridgeShuntCalSelect(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIBridgeShuntCalSelect(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ShuntCal_ShuntCalASrc ***
// Uses value set BridgeShuntCalSource
int32 __CFUNC DAQmxGetAIBridgeShuntCalShuntCalASrc(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIBridgeShuntCalShuntCalASrc(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIBridgeShuntCalShuntCalASrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ShuntCal_GainAdjust ***
int32 __CFUNC DAQmxGetAIBridgeShuntCalGainAdjust(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeShuntCalGainAdjust(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeShuntCalGainAdjust(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ShuntCal_ShuntCalAResistance ***
int32 __CFUNC DAQmxGetAIBridgeShuntCalShuntCalAResistance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeShuntCalShuntCalAResistance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeShuntCalShuntCalAResistance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ShuntCal_ShuntCalAActualResistance ***
int32 __CFUNC DAQmxGetAIBridgeShuntCalShuntCalAActualResistance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeShuntCalShuntCalAActualResistance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeShuntCalShuntCalAActualResistance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ShuntCal_ShuntCalBResistance ***
int32 __CFUNC DAQmxGetAIBridgeShuntCalShuntCalBResistance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeShuntCalShuntCalBResistance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeShuntCalShuntCalBResistance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_ShuntCal_ShuntCalBActualResistance ***
int32 __CFUNC DAQmxGetAIBridgeShuntCalShuntCalBActualResistance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIBridgeShuntCalShuntCalBActualResistance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIBridgeShuntCalShuntCalBActualResistance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_Balance_CoarsePot ***
int32 __CFUNC DAQmxGetAIBridgeBalanceCoarsePot(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIBridgeBalanceCoarsePot(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIBridgeBalanceCoarsePot(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Bridge_Balance_FinePot ***
int32 __CFUNC DAQmxGetAIBridgeBalanceFinePot(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIBridgeBalanceFinePot(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIBridgeBalanceFinePot(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_CurrentShunt_Loc ***
// Uses value set CurrentShuntResistorLocation1
int32 __CFUNC DAQmxGetAICurrentShuntLoc(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAICurrentShuntLoc(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAICurrentShuntLoc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_CurrentShunt_Resistance ***
int32 __CFUNC DAQmxGetAICurrentShuntResistance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAICurrentShuntResistance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAICurrentShuntResistance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Excit_Sense ***
// Uses value set Sense
int32 __CFUNC DAQmxGetAIExcitSense(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIExcitSense(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIExcitSense(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Excit_Src ***
// Uses value set ExcitationSource
int32 __CFUNC DAQmxGetAIExcitSrc(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIExcitSrc(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIExcitSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Excit_Val ***
int32 __CFUNC DAQmxGetAIExcitVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIExcitVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIExcitVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Excit_UseForScaling ***
int32 __CFUNC DAQmxGetAIExcitUseForScaling(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIExcitUseForScaling(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIExcitUseForScaling(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Excit_UseMultiplexed ***
int32 __CFUNC DAQmxGetAIExcitUseMultiplexed(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIExcitUseMultiplexed(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIExcitUseMultiplexed(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Excit_ActualVal ***
int32 __CFUNC DAQmxGetAIExcitActualVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIExcitActualVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIExcitActualVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Excit_DCorAC ***
// Uses value set ExcitationDCorAC
int32 __CFUNC DAQmxGetAIExcitDCorAC(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIExcitDCorAC(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIExcitDCorAC(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Excit_VoltageOrCurrent ***
// Uses value set ExcitationVoltageOrCurrent
int32 __CFUNC DAQmxGetAIExcitVoltageOrCurrent(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIExcitVoltageOrCurrent(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIExcitVoltageOrCurrent(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Excit_IdleOutputBehavior ***
// Uses value set ExcitationIdleOutputBehavior
int32 __CFUNC DAQmxGetAIExcitIdleOutputBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIExcitIdleOutputBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIExcitIdleOutputBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ACExcit_Freq ***
int32 __CFUNC DAQmxGetAIACExcitFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIACExcitFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIACExcitFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ACExcit_SyncEnable ***
int32 __CFUNC DAQmxGetAIACExcitSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIACExcitSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIACExcitSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ACExcit_WireMode ***
// Uses value set ACExcitWireMode
int32 __CFUNC DAQmxGetAIACExcitWireMode(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIACExcitWireMode(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIACExcitWireMode(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_SensorPower_Voltage ***
int32 __CFUNC DAQmxGetAISensorPowerVoltage(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAISensorPowerVoltage(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAISensorPowerVoltage(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_SensorPower_Cfg ***
// Uses value set SensorPowerCfg
int32 __CFUNC DAQmxGetAISensorPowerCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAISensorPowerCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAISensorPowerCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_SensorPower_Type ***
// Uses value set SensorPowerType
int32 __CFUNC DAQmxGetAISensorPowerType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAISensorPowerType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAISensorPowerType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_OpenThrmcplDetectEnable ***
int32 __CFUNC DAQmxGetAIOpenThrmcplDetectEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIOpenThrmcplDetectEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIOpenThrmcplDetectEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Thrmcpl_LeadOffsetVoltage ***
int32 __CFUNC DAQmxGetAIThrmcplLeadOffsetVoltage(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIThrmcplLeadOffsetVoltage(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIThrmcplLeadOffsetVoltage(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Atten ***
int32 __CFUNC DAQmxGetAIAtten(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIAtten(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIAtten(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ProbeAtten ***
int32 __CFUNC DAQmxGetAIProbeAtten(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIProbeAtten(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIProbeAtten(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Lowpass_Enable ***
int32 __CFUNC DAQmxGetAILowpassEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAILowpassEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAILowpassEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Lowpass_CutoffFreq ***
int32 __CFUNC DAQmxGetAILowpassCutoffFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAILowpassCutoffFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAILowpassCutoffFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Lowpass_SwitchCap_ClkSrc ***
// Uses value set SourceSelection
int32 __CFUNC DAQmxGetAILowpassSwitchCapClkSrc(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAILowpassSwitchCapClkSrc(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAILowpassSwitchCapClkSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Lowpass_SwitchCap_ExtClkFreq ***
int32 __CFUNC DAQmxGetAILowpassSwitchCapExtClkFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAILowpassSwitchCapExtClkFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAILowpassSwitchCapExtClkFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Lowpass_SwitchCap_ExtClkDiv ***
int32 __CFUNC DAQmxGetAILowpassSwitchCapExtClkDiv(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAILowpassSwitchCapExtClkDiv(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAILowpassSwitchCapExtClkDiv(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Lowpass_SwitchCap_OutClkDiv ***
int32 __CFUNC DAQmxGetAILowpassSwitchCapOutClkDiv(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAILowpassSwitchCapOutClkDiv(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAILowpassSwitchCapOutClkDiv(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Enable ***
int32 __CFUNC DAQmxGetAIDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Type ***
// Uses value set FilterType2
int32 __CFUNC DAQmxGetAIDigFltrType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIDigFltrType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIDigFltrType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Response ***
// Uses value set FilterResponse
int32 __CFUNC DAQmxGetAIDigFltrResponse(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIDigFltrResponse(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIDigFltrResponse(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Order ***
int32 __CFUNC DAQmxGetAIDigFltrOrder(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAIDigFltrOrder(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAIDigFltrOrder(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Lowpass_CutoffFreq ***
int32 __CFUNC DAQmxGetAIDigFltrLowpassCutoffFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIDigFltrLowpassCutoffFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIDigFltrLowpassCutoffFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Highpass_CutoffFreq ***
int32 __CFUNC DAQmxGetAIDigFltrHighpassCutoffFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIDigFltrHighpassCutoffFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIDigFltrHighpassCutoffFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Bandpass_CenterFreq ***
int32 __CFUNC DAQmxGetAIDigFltrBandpassCenterFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIDigFltrBandpassCenterFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIDigFltrBandpassCenterFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Bandpass_Width ***
int32 __CFUNC DAQmxGetAIDigFltrBandpassWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIDigFltrBandpassWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIDigFltrBandpassWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Notch_CenterFreq ***
int32 __CFUNC DAQmxGetAIDigFltrNotchCenterFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIDigFltrNotchCenterFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIDigFltrNotchCenterFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Notch_Width ***
int32 __CFUNC DAQmxGetAIDigFltrNotchWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIDigFltrNotchWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIDigFltrNotchWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DigFltr_Coeff ***
int32 __CFUNC DAQmxGetAIDigFltrCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIDigFltrCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIDigFltrCoeff(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Filter_Enable ***
int32 __CFUNC DAQmxGetAIFilterEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIFilterEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIFilterEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Filter_Freq ***
int32 __CFUNC DAQmxGetAIFilterFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIFilterFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIFilterFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Filter_Response ***
// Uses value set FilterResponse1
int32 __CFUNC DAQmxGetAIFilterResponse(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIFilterResponse(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIFilterResponse(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Filter_Order ***
int32 __CFUNC DAQmxGetAIFilterOrder(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAIFilterOrder(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAIFilterOrder(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_FilterDelay ***
int32 __CFUNC DAQmxGetAIFilterDelay(TaskHandle taskHandle, const char channel[], float64 *data);
//*** Set/Get functions for DAQmx_AI_FilterDelayUnits ***
// Uses value set DigitalWidthUnits4
int32 __CFUNC DAQmxGetAIFilterDelayUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIFilterDelayUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIFilterDelayUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RemoveFilterDelay ***
int32 __CFUNC DAQmxGetAIRemoveFilterDelay(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIRemoveFilterDelay(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIRemoveFilterDelay(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_FilterDelayAdjustment ***
int32 __CFUNC DAQmxGetAIFilterDelayAdjustment(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIFilterDelayAdjustment(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIFilterDelayAdjustment(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_AveragingWinSize ***
int32 __CFUNC DAQmxGetAIAveragingWinSize(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAIAveragingWinSize(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAIAveragingWinSize(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ResolutionUnits ***
// Uses value set ResolutionType1
int32 __CFUNC DAQmxGetAIResolutionUnits(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_AI_Resolution ***
int32 __CFUNC DAQmxGetAIResolution(TaskHandle taskHandle, const char channel[], float64 *data);
//*** Set/Get functions for DAQmx_AI_RawSampSize ***
int32 __CFUNC DAQmxGetAIRawSampSize(TaskHandle taskHandle, const char channel[], uInt32 *data);
//*** Set/Get functions for DAQmx_AI_RawSampJustification ***
// Uses value set DataJustification1
int32 __CFUNC DAQmxGetAIRawSampJustification(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_AI_ADCTimingMode ***
// Uses value set ADCTimingMode
int32 __CFUNC DAQmxGetAIADCTimingMode(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIADCTimingMode(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIADCTimingMode(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ADCCustomTimingMode ***
int32 __CFUNC DAQmxGetAIADCCustomTimingMode(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAIADCCustomTimingMode(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAIADCCustomTimingMode(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Dither_Enable ***
int32 __CFUNC DAQmxGetAIDitherEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIDitherEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIDitherEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_HasValidCalInfo ***
int32 __CFUNC DAQmxGetAIChanCalHasValidCalInfo(TaskHandle taskHandle, const char channel[], bool32 *data);
//*** Set/Get functions for DAQmx_AI_ChanCal_EnableCal ***
int32 __CFUNC DAQmxGetAIChanCalEnableCal(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIChanCalEnableCal(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIChanCalEnableCal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_ApplyCalIfExp ***
int32 __CFUNC DAQmxGetAIChanCalApplyCalIfExp(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIChanCalApplyCalIfExp(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIChanCalApplyCalIfExp(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_ScaleType ***
// Uses value set ScaleType3
int32 __CFUNC DAQmxGetAIChanCalScaleType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIChanCalScaleType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIChanCalScaleType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_Table_PreScaledVals ***
int32 __CFUNC DAQmxGetAIChanCalTablePreScaledVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIChanCalTablePreScaledVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIChanCalTablePreScaledVals(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_Table_ScaledVals ***
int32 __CFUNC DAQmxGetAIChanCalTableScaledVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIChanCalTableScaledVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIChanCalTableScaledVals(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_Poly_ForwardCoeff ***
int32 __CFUNC DAQmxGetAIChanCalPolyForwardCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIChanCalPolyForwardCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIChanCalPolyForwardCoeff(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_Poly_ReverseCoeff ***
int32 __CFUNC DAQmxGetAIChanCalPolyReverseCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIChanCalPolyReverseCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIChanCalPolyReverseCoeff(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_OperatorName ***
int32 __CFUNC DAQmxGetAIChanCalOperatorName(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAIChanCalOperatorName(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetAIChanCalOperatorName(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_Desc ***
int32 __CFUNC DAQmxGetAIChanCalDesc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAIChanCalDesc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetAIChanCalDesc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_Verif_RefVals ***
int32 __CFUNC DAQmxGetAIChanCalVerifRefVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIChanCalVerifRefVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIChanCalVerifRefVals(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChanCal_Verif_AcqVals ***
int32 __CFUNC DAQmxGetAIChanCalVerifAcqVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAIChanCalVerifAcqVals(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAIChanCalVerifAcqVals(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Rng_High ***
int32 __CFUNC DAQmxGetAIRngHigh(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIRngHigh(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIRngHigh(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Rng_Low ***
int32 __CFUNC DAQmxGetAIRngLow(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIRngLow(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIRngLow(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DCOffset ***
int32 __CFUNC DAQmxGetAIDCOffset(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIDCOffset(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIDCOffset(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_Gain ***
int32 __CFUNC DAQmxGetAIGain(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIGain(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIGain(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_SampAndHold_Enable ***
int32 __CFUNC DAQmxGetAISampAndHoldEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAISampAndHoldEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAISampAndHoldEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_AutoZeroMode ***
// Uses value set AutoZeroType1
int32 __CFUNC DAQmxGetAIAutoZeroMode(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIAutoZeroMode(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIAutoZeroMode(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_ChopEnable ***
int32 __CFUNC DAQmxGetAIChopEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIChopEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIChopEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DataXferMaxRate ***
int32 __CFUNC DAQmxGetAIDataXferMaxRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIDataXferMaxRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIDataXferMaxRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DataXferMech ***
// Uses value set DataTransferMechanism
int32 __CFUNC DAQmxGetAIDataXferMech(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIDataXferMech(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIDataXferMech(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DataXferReqCond ***
// Uses value set InputDataTransferCondition
int32 __CFUNC DAQmxGetAIDataXferReqCond(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIDataXferReqCond(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIDataXferReqCond(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DataXferCustomThreshold ***
int32 __CFUNC DAQmxGetAIDataXferCustomThreshold(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAIDataXferCustomThreshold(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAIDataXferCustomThreshold(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_UsbXferReqSize ***
int32 __CFUNC DAQmxGetAIUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAIUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAIUsbXferReqSize(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_UsbXferReqCount ***
int32 __CFUNC DAQmxGetAIUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAIUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAIUsbXferReqCount(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_MemMapEnable ***
int32 __CFUNC DAQmxGetAIMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIMemMapEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_RawDataCompressionType ***
// Uses value set RawDataCompressionType
int32 __CFUNC DAQmxGetAIRawDataCompressionType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAIRawDataCompressionType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAIRawDataCompressionType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_LossyLSBRemoval_CompressedSampSize ***
int32 __CFUNC DAQmxGetAILossyLSBRemovalCompressedSampSize(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAILossyLSBRemovalCompressedSampSize(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAILossyLSBRemovalCompressedSampSize(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_DevScalingCoeff ***
int32 __CFUNC DAQmxGetAIDevScalingCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_AI_EnhancedAliasRejectionEnable ***
int32 __CFUNC DAQmxGetAIEnhancedAliasRejectionEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIEnhancedAliasRejectionEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIEnhancedAliasRejectionEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_OpenChanDetectEnable ***
int32 __CFUNC DAQmxGetAIOpenChanDetectEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIOpenChanDetectEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIOpenChanDetectEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_InputLimitsFaultDetect_UpperLimit ***
int32 __CFUNC DAQmxGetAIInputLimitsFaultDetectUpperLimit(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIInputLimitsFaultDetectUpperLimit(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIInputLimitsFaultDetectUpperLimit(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_InputLimitsFaultDetect_LowerLimit ***
int32 __CFUNC DAQmxGetAIInputLimitsFaultDetectLowerLimit(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAIInputLimitsFaultDetectLowerLimit(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAIInputLimitsFaultDetectLowerLimit(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_InputLimitsFaultDetectEnable ***
int32 __CFUNC DAQmxGetAIInputLimitsFaultDetectEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIInputLimitsFaultDetectEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIInputLimitsFaultDetectEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_PowerSupplyFaultDetectEnable ***
int32 __CFUNC DAQmxGetAIPowerSupplyFaultDetectEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIPowerSupplyFaultDetectEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIPowerSupplyFaultDetectEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AI_OvercurrentDetectEnable ***
int32 __CFUNC DAQmxGetAIOvercurrentDetectEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAIOvercurrentDetectEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAIOvercurrentDetectEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_Max ***
int32 __CFUNC DAQmxGetAOMax(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOMax(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOMax(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_Min ***
int32 __CFUNC DAQmxGetAOMin(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOMin(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOMin(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_CustomScaleName ***
int32 __CFUNC DAQmxGetAOCustomScaleName(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAOCustomScaleName(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetAOCustomScaleName(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_OutputType ***
// Uses value set AOOutputChannelType
int32 __CFUNC DAQmxGetAOOutputType(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_AO_Voltage_Units ***
// Uses value set VoltageUnits2
int32 __CFUNC DAQmxGetAOVoltageUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAOVoltageUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAOVoltageUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_Voltage_CurrentLimit ***
int32 __CFUNC DAQmxGetAOVoltageCurrentLimit(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOVoltageCurrentLimit(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOVoltageCurrentLimit(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_Current_Units ***
// Uses value set CurrentUnits1
int32 __CFUNC DAQmxGetAOCurrentUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAOCurrentUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAOCurrentUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FuncGen_Type ***
// Uses value set FuncGenType
int32 __CFUNC DAQmxGetAOFuncGenType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAOFuncGenType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAOFuncGenType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FuncGen_Freq ***
int32 __CFUNC DAQmxGetAOFuncGenFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOFuncGenFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOFuncGenFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FuncGen_Amplitude ***
int32 __CFUNC DAQmxGetAOFuncGenAmplitude(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOFuncGenAmplitude(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOFuncGenAmplitude(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FuncGen_Offset ***
int32 __CFUNC DAQmxGetAOFuncGenOffset(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOFuncGenOffset(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOFuncGenOffset(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FuncGen_Square_DutyCycle ***
int32 __CFUNC DAQmxGetAOFuncGenSquareDutyCycle(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOFuncGenSquareDutyCycle(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOFuncGenSquareDutyCycle(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FuncGen_ModulationType ***
// Uses value set ModulationType
int32 __CFUNC DAQmxGetAOFuncGenModulationType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAOFuncGenModulationType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAOFuncGenModulationType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FuncGen_FMDeviation ***
int32 __CFUNC DAQmxGetAOFuncGenFMDeviation(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOFuncGenFMDeviation(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOFuncGenFMDeviation(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_OutputImpedance ***
int32 __CFUNC DAQmxGetAOOutputImpedance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOOutputImpedance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOOutputImpedance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_LoadImpedance ***
int32 __CFUNC DAQmxGetAOLoadImpedance(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOLoadImpedance(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOLoadImpedance(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_IdleOutputBehavior ***
// Uses value set AOIdleOutputBehavior
int32 __CFUNC DAQmxGetAOIdleOutputBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAOIdleOutputBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAOIdleOutputBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_TermCfg ***
// Uses value set OutputTermCfg
int32 __CFUNC DAQmxGetAOTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAOTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAOTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_ResolutionUnits ***
// Uses value set ResolutionType1
int32 __CFUNC DAQmxGetAOResolutionUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAOResolutionUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAOResolutionUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_Resolution ***
int32 __CFUNC DAQmxGetAOResolution(TaskHandle taskHandle, const char channel[], float64 *data);
//*** Set/Get functions for DAQmx_AO_DAC_Rng_High ***
int32 __CFUNC DAQmxGetAODACRngHigh(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAODACRngHigh(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAODACRngHigh(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DAC_Rng_Low ***
int32 __CFUNC DAQmxGetAODACRngLow(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAODACRngLow(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAODACRngLow(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DAC_Ref_ConnToGnd ***
int32 __CFUNC DAQmxGetAODACRefConnToGnd(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAODACRefConnToGnd(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAODACRefConnToGnd(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DAC_Ref_AllowConnToGnd ***
int32 __CFUNC DAQmxGetAODACRefAllowConnToGnd(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAODACRefAllowConnToGnd(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAODACRefAllowConnToGnd(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DAC_Ref_Src ***
// Uses value set SourceSelection
int32 __CFUNC DAQmxGetAODACRefSrc(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAODACRefSrc(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAODACRefSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DAC_Ref_ExtSrc ***
int32 __CFUNC DAQmxGetAODACRefExtSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAODACRefExtSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetAODACRefExtSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DAC_Ref_Val ***
int32 __CFUNC DAQmxGetAODACRefVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAODACRefVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAODACRefVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DAC_Offset_Src ***
// Uses value set SourceSelection
int32 __CFUNC DAQmxGetAODACOffsetSrc(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAODACOffsetSrc(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAODACOffsetSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DAC_Offset_ExtSrc ***
int32 __CFUNC DAQmxGetAODACOffsetExtSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAODACOffsetExtSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetAODACOffsetExtSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DAC_Offset_Val ***
int32 __CFUNC DAQmxGetAODACOffsetVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAODACOffsetVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAODACOffsetVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_ReglitchEnable ***
int32 __CFUNC DAQmxGetAOReglitchEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAOReglitchEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAOReglitchEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FilterDelay ***
int32 __CFUNC DAQmxGetAOFilterDelay(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOFilterDelay(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOFilterDelay(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FilterDelayUnits ***
// Uses value set DigitalWidthUnits4
int32 __CFUNC DAQmxGetAOFilterDelayUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAOFilterDelayUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAOFilterDelayUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_FilterDelayAdjustment ***
int32 __CFUNC DAQmxGetAOFilterDelayAdjustment(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOFilterDelayAdjustment(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOFilterDelayAdjustment(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_Gain ***
int32 __CFUNC DAQmxGetAOGain(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetAOGain(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetAOGain(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_UseOnlyOnBrdMem ***
int32 __CFUNC DAQmxGetAOUseOnlyOnBrdMem(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAOUseOnlyOnBrdMem(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAOUseOnlyOnBrdMem(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DataXferMech ***
// Uses value set DataTransferMechanism
int32 __CFUNC DAQmxGetAODataXferMech(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAODataXferMech(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAODataXferMech(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DataXferReqCond ***
// Uses value set OutputDataTransferCondition
int32 __CFUNC DAQmxGetAODataXferReqCond(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetAODataXferReqCond(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetAODataXferReqCond(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_UsbXferReqSize ***
int32 __CFUNC DAQmxGetAOUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAOUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAOUsbXferReqSize(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_UsbXferReqCount ***
int32 __CFUNC DAQmxGetAOUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetAOUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetAOUsbXferReqCount(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_MemMapEnable ***
int32 __CFUNC DAQmxGetAOMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAOMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAOMemMapEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_AO_DevScalingCoeff ***
int32 __CFUNC DAQmxGetAODevScalingCoeff(TaskHandle taskHandle, const char channel[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_AO_EnhancedImageRejectionEnable ***
int32 __CFUNC DAQmxGetAOEnhancedImageRejectionEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetAOEnhancedImageRejectionEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetAOEnhancedImageRejectionEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_InvertLines ***
int32 __CFUNC DAQmxGetDIInvertLines(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDIInvertLines(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDIInvertLines(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_NumLines ***
int32 __CFUNC DAQmxGetDINumLines(TaskHandle taskHandle, const char channel[], uInt32 *data);
//*** Set/Get functions for DAQmx_DI_DigFltr_Enable ***
int32 __CFUNC DAQmxGetDIDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDIDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDIDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetDIDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetDIDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetDIDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_DigFltr_EnableBusMode ***
int32 __CFUNC DAQmxGetDIDigFltrEnableBusMode(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDIDigFltrEnableBusMode(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDIDigFltrEnableBusMode(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetDIDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDIDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetDIDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetDIDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetDIDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetDIDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_DigSync_Enable ***
int32 __CFUNC DAQmxGetDIDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDIDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDIDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_Tristate ***
int32 __CFUNC DAQmxGetDITristate(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDITristate(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDITristate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_LogicFamily ***
// Uses value set LogicFamily
int32 __CFUNC DAQmxGetDILogicFamily(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDILogicFamily(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDILogicFamily(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_DataXferMech ***
// Uses value set DataTransferMechanism
int32 __CFUNC DAQmxGetDIDataXferMech(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDIDataXferMech(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDIDataXferMech(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_DataXferReqCond ***
// Uses value set InputDataTransferCondition
int32 __CFUNC DAQmxGetDIDataXferReqCond(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDIDataXferReqCond(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDIDataXferReqCond(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_UsbXferReqSize ***
int32 __CFUNC DAQmxGetDIUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetDIUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetDIUsbXferReqSize(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_UsbXferReqCount ***
int32 __CFUNC DAQmxGetDIUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetDIUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetDIUsbXferReqCount(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_MemMapEnable ***
int32 __CFUNC DAQmxGetDIMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDIMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDIMemMapEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DI_AcquireOn ***
// Uses value set SampleClockActiveOrInactiveEdgeSelection
int32 __CFUNC DAQmxGetDIAcquireOn(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDIAcquireOn(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDIAcquireOn(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_OutputDriveType ***
// Uses value set DigitalDriveType
int32 __CFUNC DAQmxGetDOOutputDriveType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDOOutputDriveType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDOOutputDriveType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_InvertLines ***
int32 __CFUNC DAQmxGetDOInvertLines(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDOInvertLines(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDOInvertLines(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_NumLines ***
int32 __CFUNC DAQmxGetDONumLines(TaskHandle taskHandle, const char channel[], uInt32 *data);
//*** Set/Get functions for DAQmx_DO_Tristate ***
int32 __CFUNC DAQmxGetDOTristate(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDOTristate(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDOTristate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_LineStates_StartState ***
// Uses value set DigitalLineState
int32 __CFUNC DAQmxGetDOLineStatesStartState(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDOLineStatesStartState(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDOLineStatesStartState(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_LineStates_PausedState ***
// Uses value set DigitalLineState
int32 __CFUNC DAQmxGetDOLineStatesPausedState(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDOLineStatesPausedState(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDOLineStatesPausedState(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_LineStates_DoneState ***
// Uses value set DigitalLineState
int32 __CFUNC DAQmxGetDOLineStatesDoneState(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDOLineStatesDoneState(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDOLineStatesDoneState(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_LogicFamily ***
// Uses value set LogicFamily
int32 __CFUNC DAQmxGetDOLogicFamily(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDOLogicFamily(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDOLogicFamily(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_Overcurrent_Limit ***
int32 __CFUNC DAQmxGetDOOvercurrentLimit(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetDOOvercurrentLimit(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetDOOvercurrentLimit(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_Overcurrent_AutoReenable ***
int32 __CFUNC DAQmxGetDOOvercurrentAutoReenable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDOOvercurrentAutoReenable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDOOvercurrentAutoReenable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_Overcurrent_ReenablePeriod ***
int32 __CFUNC DAQmxGetDOOvercurrentReenablePeriod(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetDOOvercurrentReenablePeriod(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetDOOvercurrentReenablePeriod(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_UseOnlyOnBrdMem ***
int32 __CFUNC DAQmxGetDOUseOnlyOnBrdMem(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDOUseOnlyOnBrdMem(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDOUseOnlyOnBrdMem(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_DataXferMech ***
// Uses value set DataTransferMechanism
int32 __CFUNC DAQmxGetDODataXferMech(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDODataXferMech(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDODataXferMech(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_DataXferReqCond ***
// Uses value set OutputDataTransferCondition
int32 __CFUNC DAQmxGetDODataXferReqCond(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDODataXferReqCond(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDODataXferReqCond(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_UsbXferReqSize ***
int32 __CFUNC DAQmxGetDOUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetDOUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetDOUsbXferReqSize(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_UsbXferReqCount ***
int32 __CFUNC DAQmxGetDOUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetDOUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetDOUsbXferReqCount(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_MemMapEnable ***
int32 __CFUNC DAQmxGetDOMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetDOMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetDOMemMapEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_DO_GenerateOn ***
// Uses value set SampleClockActiveOrInactiveEdgeSelection
int32 __CFUNC DAQmxGetDOGenerateOn(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetDOGenerateOn(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetDOGenerateOn(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Max ***
int32 __CFUNC DAQmxGetCIMax(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIMax(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIMax(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Min ***
int32 __CFUNC DAQmxGetCIMin(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIMin(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIMin(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CustomScaleName ***
int32 __CFUNC DAQmxGetCICustomScaleName(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICustomScaleName(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICustomScaleName(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_MeasType ***
// Uses value set CIMeasurementType
int32 __CFUNC DAQmxGetCIMeasType(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_CI_Freq_Units ***
// Uses value set FrequencyUnits3
int32 __CFUNC DAQmxGetCIFreqUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIFreqUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIFreqUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_Term ***
int32 __CFUNC DAQmxGetCIFreqTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIFreqTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIFreqTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIFreqTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIFreqTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIFreqTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIFreqLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIFreqLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIFreqLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIFreqDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIFreqDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIFreqDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIFreqDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIFreqDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIFreqDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIFreqDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIFreqDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIFreqDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIFreqDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIFreqDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIFreqDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_DigSync_Enable ***
int32 __CFUNC DAQmxGetCIFreqDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIFreqDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIFreqDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_StartingEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCIFreqStartingEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIFreqStartingEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIFreqStartingEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_MeasMeth ***
// Uses value set CounterFrequencyMethod
int32 __CFUNC DAQmxGetCIFreqMeasMeth(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIFreqMeasMeth(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIFreqMeasMeth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_EnableAveraging ***
int32 __CFUNC DAQmxGetCIFreqEnableAveraging(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIFreqEnableAveraging(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIFreqEnableAveraging(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_MeasTime ***
int32 __CFUNC DAQmxGetCIFreqMeasTime(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIFreqMeasTime(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIFreqMeasTime(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Freq_Div ***
int32 __CFUNC DAQmxGetCIFreqDiv(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCIFreqDiv(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCIFreqDiv(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_Units ***
// Uses value set TimeUnits3
int32 __CFUNC DAQmxGetCIPeriodUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPeriodUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPeriodUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_Term ***
int32 __CFUNC DAQmxGetCIPeriodTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPeriodTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPeriodTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIPeriodTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPeriodTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPeriodTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIPeriodLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPeriodLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPeriodLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIPeriodDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPeriodDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPeriodDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIPeriodDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPeriodDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPeriodDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIPeriodDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPeriodDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPeriodDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIPeriodDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPeriodDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPeriodDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_DigSync_Enable ***
int32 __CFUNC DAQmxGetCIPeriodDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPeriodDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPeriodDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_StartingEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCIPeriodStartingEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPeriodStartingEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPeriodStartingEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_MeasMeth ***
// Uses value set CounterFrequencyMethod
int32 __CFUNC DAQmxGetCIPeriodMeasMeth(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPeriodMeasMeth(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPeriodMeasMeth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_EnableAveraging ***
int32 __CFUNC DAQmxGetCIPeriodEnableAveraging(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPeriodEnableAveraging(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPeriodEnableAveraging(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_MeasTime ***
int32 __CFUNC DAQmxGetCIPeriodMeasTime(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPeriodMeasTime(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPeriodMeasTime(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Period_Div ***
int32 __CFUNC DAQmxGetCIPeriodDiv(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCIPeriodDiv(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCIPeriodDiv(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Term ***
int32 __CFUNC DAQmxGetCICountEdgesTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICountEdgesTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICountEdgesTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCICountEdgesTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCICountEdgesLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCICountEdgesDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICountEdgesDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICountEdgesDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCICountEdgesDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICountEdgesDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICountEdgesDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCICountEdgesDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICountEdgesDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICountEdgesDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCICountEdgesDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICountEdgesDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICountEdgesDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_DigSync_Enable ***
int32 __CFUNC DAQmxGetCICountEdgesDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICountEdgesDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICountEdgesDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Dir ***
// Uses value set CountDirection1
int32 __CFUNC DAQmxGetCICountEdgesDir(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesDir(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesDir(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_DirTerm ***
int32 __CFUNC DAQmxGetCICountEdgesDirTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICountEdgesDirTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICountEdgesDirTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountDir_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCICountEdgesCountDirTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountDirTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountDirTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountDir_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCICountEdgesCountDirLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountDirLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountDirLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountDir_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCICountEdgesCountDirDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountDirDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountDirDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountDir_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCICountEdgesCountDirDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountDirDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICountEdgesCountDirDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountDir_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCICountEdgesCountDirDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICountEdgesCountDirDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICountEdgesCountDirDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountDir_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCICountEdgesCountDirDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountDirDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICountEdgesCountDirDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountDir_DigSync_Enable ***
int32 __CFUNC DAQmxGetCICountEdgesCountDirDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountDirDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountDirDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_InitialCnt ***
int32 __CFUNC DAQmxGetCICountEdgesInitialCnt(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCICountEdgesInitialCnt(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCICountEdgesInitialCnt(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_ActiveEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCICountEdgesActiveEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesActiveEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesActiveEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_Enable ***
int32 __CFUNC DAQmxGetCICountEdgesCountResetEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountResetEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_ResetCount ***
int32 __CFUNC DAQmxGetCICountEdgesCountResetResetCount(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountResetResetCount(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetResetCount(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_Term ***
int32 __CFUNC DAQmxGetCICountEdgesCountResetTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICountEdgesCountResetTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCICountEdgesCountResetTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountResetTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCICountEdgesCountResetLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountResetLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCICountEdgesCountResetDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountResetDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCICountEdgesCountResetDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountResetDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCICountEdgesCountResetDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICountEdgesCountResetDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCICountEdgesCountResetDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountResetDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_DigSync_Enable ***
int32 __CFUNC DAQmxGetCICountEdgesCountResetDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountResetDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_CountReset_ActiveEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCICountEdgesCountResetActiveEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesCountResetActiveEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesCountResetActiveEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Gate_Enable ***
int32 __CFUNC DAQmxGetCICountEdgesGateEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICountEdgesGateEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICountEdgesGateEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Gate_Term ***
int32 __CFUNC DAQmxGetCICountEdgesGateTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICountEdgesGateTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICountEdgesGateTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Gate_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCICountEdgesGateTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesGateTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesGateTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Gate_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCICountEdgesGateLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesGateLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesGateLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Gate_DigFltrEnable ***
int32 __CFUNC DAQmxGetCICountEdgesGateDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICountEdgesGateDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICountEdgesGateDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Gate_DigFltrMinPulseWidth ***
int32 __CFUNC DAQmxGetCICountEdgesGateDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICountEdgesGateDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICountEdgesGateDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Gate_DigFltrTimebaseSrc ***
int32 __CFUNC DAQmxGetCICountEdgesGateDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICountEdgesGateDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICountEdgesGateDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_Gate_DigFltrTimebaseRate ***
int32 __CFUNC DAQmxGetCICountEdgesGateDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICountEdgesGateDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICountEdgesGateDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CountEdges_GateWhen ***
// Uses value set Level1
int32 __CFUNC DAQmxGetCICountEdgesGateWhen(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICountEdgesGateWhen(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICountEdgesGateWhen(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DutyCycle_Term ***
int32 __CFUNC DAQmxGetCIDutyCycleTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIDutyCycleTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIDutyCycleTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DutyCycle_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIDutyCycleTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIDutyCycleTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIDutyCycleTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DutyCycle_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIDutyCycleLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIDutyCycleLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIDutyCycleLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DutyCycle_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIDutyCycleDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIDutyCycleDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIDutyCycleDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DutyCycle_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIDutyCycleDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIDutyCycleDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIDutyCycleDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DutyCycle_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIDutyCycleDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIDutyCycleDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIDutyCycleDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DutyCycle_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIDutyCycleDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIDutyCycleDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIDutyCycleDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DutyCycle_StartingEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCIDutyCycleStartingEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIDutyCycleStartingEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIDutyCycleStartingEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_AngEncoder_Units ***
// Uses value set AngleUnits2
int32 __CFUNC DAQmxGetCIAngEncoderUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIAngEncoderUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIAngEncoderUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_AngEncoder_PulsesPerRev ***
int32 __CFUNC DAQmxGetCIAngEncoderPulsesPerRev(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCIAngEncoderPulsesPerRev(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCIAngEncoderPulsesPerRev(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_AngEncoder_InitialAngle ***
int32 __CFUNC DAQmxGetCIAngEncoderInitialAngle(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIAngEncoderInitialAngle(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIAngEncoderInitialAngle(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_LinEncoder_Units ***
// Uses value set LengthUnits3
int32 __CFUNC DAQmxGetCILinEncoderUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCILinEncoderUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCILinEncoderUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_LinEncoder_DistPerPulse ***
int32 __CFUNC DAQmxGetCILinEncoderDistPerPulse(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCILinEncoderDistPerPulse(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCILinEncoderDistPerPulse(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_LinEncoder_InitialPos ***
int32 __CFUNC DAQmxGetCILinEncoderInitialPos(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCILinEncoderInitialPos(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCILinEncoderInitialPos(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_DecodingType ***
// Uses value set EncoderType2
int32 __CFUNC DAQmxGetCIEncoderDecodingType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIEncoderDecodingType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIEncoderDecodingType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_AInputTerm ***
int32 __CFUNC DAQmxGetCIEncoderAInputTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIEncoderAInputTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIEncoderAInputTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_AInputTermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIEncoderAInputTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIEncoderAInputTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIEncoderAInputTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_AInputLogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIEncoderAInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIEncoderAInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIEncoderAInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_AInput_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIEncoderAInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIEncoderAInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIEncoderAInputDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_AInput_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIEncoderAInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIEncoderAInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIEncoderAInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_AInput_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIEncoderAInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIEncoderAInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIEncoderAInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_AInput_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIEncoderAInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIEncoderAInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIEncoderAInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_AInput_DigSync_Enable ***
int32 __CFUNC DAQmxGetCIEncoderAInputDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIEncoderAInputDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIEncoderAInputDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_BInputTerm ***
int32 __CFUNC DAQmxGetCIEncoderBInputTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIEncoderBInputTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIEncoderBInputTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_BInputTermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIEncoderBInputTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIEncoderBInputTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIEncoderBInputTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_BInputLogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIEncoderBInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIEncoderBInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIEncoderBInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_BInput_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIEncoderBInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIEncoderBInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIEncoderBInputDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_BInput_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIEncoderBInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIEncoderBInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIEncoderBInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_BInput_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIEncoderBInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIEncoderBInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIEncoderBInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_BInput_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIEncoderBInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIEncoderBInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIEncoderBInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_BInput_DigSync_Enable ***
int32 __CFUNC DAQmxGetCIEncoderBInputDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIEncoderBInputDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIEncoderBInputDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZInputTerm ***
int32 __CFUNC DAQmxGetCIEncoderZInputTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIEncoderZInputTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIEncoderZInputTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZInputTermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIEncoderZInputTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIEncoderZInputTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIEncoderZInputTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZInputLogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIEncoderZInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIEncoderZInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIEncoderZInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZInput_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIEncoderZInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIEncoderZInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIEncoderZInputDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZInput_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIEncoderZInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIEncoderZInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIEncoderZInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZInput_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIEncoderZInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIEncoderZInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIEncoderZInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZInput_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIEncoderZInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIEncoderZInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIEncoderZInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZInput_DigSync_Enable ***
int32 __CFUNC DAQmxGetCIEncoderZInputDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIEncoderZInputDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIEncoderZInputDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZIndexEnable ***
int32 __CFUNC DAQmxGetCIEncoderZIndexEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIEncoderZIndexEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIEncoderZIndexEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZIndexVal ***
int32 __CFUNC DAQmxGetCIEncoderZIndexVal(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIEncoderZIndexVal(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIEncoderZIndexVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Encoder_ZIndexPhase ***
// Uses value set EncoderZIndexPhase1
int32 __CFUNC DAQmxGetCIEncoderZIndexPhase(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIEncoderZIndexPhase(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIEncoderZIndexPhase(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_Units ***
// Uses value set TimeUnits3
int32 __CFUNC DAQmxGetCIPulseWidthUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseWidthUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseWidthUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_Term ***
int32 __CFUNC DAQmxGetCIPulseWidthTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPulseWidthTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPulseWidthTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIPulseWidthTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseWidthTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseWidthTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIPulseWidthLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseWidthLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseWidthLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIPulseWidthDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPulseWidthDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPulseWidthDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIPulseWidthDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPulseWidthDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPulseWidthDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIPulseWidthDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPulseWidthDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPulseWidthDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIPulseWidthDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPulseWidthDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPulseWidthDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_DigSync_Enable ***
int32 __CFUNC DAQmxGetCIPulseWidthDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPulseWidthDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPulseWidthDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_PulseWidth_StartingEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCIPulseWidthStartingEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseWidthStartingEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseWidthStartingEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Timestamp_Units ***
// Uses value set TimeUnits
int32 __CFUNC DAQmxGetCITimestampUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCITimestampUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCITimestampUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Timestamp_InitialSeconds ***
int32 __CFUNC DAQmxGetCITimestampInitialSeconds(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCITimestampInitialSeconds(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCITimestampInitialSeconds(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_GPS_SyncMethod ***
// Uses value set GpsSignalType1
int32 __CFUNC DAQmxGetCIGPSSyncMethod(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIGPSSyncMethod(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIGPSSyncMethod(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_GPS_SyncSrc ***
int32 __CFUNC DAQmxGetCIGPSSyncSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIGPSSyncSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIGPSSyncSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_AngEncoder_Units ***
// Uses value set AngularVelocityUnits
int32 __CFUNC DAQmxGetCIVelocityAngEncoderUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIVelocityAngEncoderUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIVelocityAngEncoderUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_AngEncoder_PulsesPerRev ***
int32 __CFUNC DAQmxGetCIVelocityAngEncoderPulsesPerRev(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCIVelocityAngEncoderPulsesPerRev(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCIVelocityAngEncoderPulsesPerRev(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_LinEncoder_Units ***
// Uses value set VelocityUnits
int32 __CFUNC DAQmxGetCIVelocityLinEncoderUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIVelocityLinEncoderUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIVelocityLinEncoderUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_LinEncoder_DistPerPulse ***
int32 __CFUNC DAQmxGetCIVelocityLinEncoderDistPerPulse(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIVelocityLinEncoderDistPerPulse(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIVelocityLinEncoderDistPerPulse(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_DecodingType ***
// Uses value set EncoderType2
int32 __CFUNC DAQmxGetCIVelocityEncoderDecodingType(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderDecodingType(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderDecodingType(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_AInputTerm ***
int32 __CFUNC DAQmxGetCIVelocityEncoderAInputTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIVelocityEncoderAInputTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIVelocityEncoderAInputTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_AInputTermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIVelocityEncoderAInputTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderAInputTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderAInputTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_AInputLogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIVelocityEncoderAInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderAInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderAInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_AInputDigFltr_Enable ***
int32 __CFUNC DAQmxGetCIVelocityEncoderAInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderAInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderAInputDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_AInputDigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIVelocityEncoderAInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderAInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderAInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_AInputDigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIVelocityEncoderAInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIVelocityEncoderAInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIVelocityEncoderAInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_AInputDigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIVelocityEncoderAInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderAInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderAInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_BInputTerm ***
int32 __CFUNC DAQmxGetCIVelocityEncoderBInputTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIVelocityEncoderBInputTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIVelocityEncoderBInputTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_BInputTermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIVelocityEncoderBInputTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderBInputTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderBInputTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_BInputLogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIVelocityEncoderBInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderBInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderBInputLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_BInputDigFltr_Enable ***
int32 __CFUNC DAQmxGetCIVelocityEncoderBInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderBInputDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderBInputDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_BInputDigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIVelocityEncoderBInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderBInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderBInputDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_BInputDigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIVelocityEncoderBInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIVelocityEncoderBInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIVelocityEncoderBInputDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Encoder_BInputDigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIVelocityEncoderBInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIVelocityEncoderBInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIVelocityEncoderBInputDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_MeasTime ***
int32 __CFUNC DAQmxGetCIVelocityMeasTime(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIVelocityMeasTime(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIVelocityMeasTime(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Velocity_Div ***
int32 __CFUNC DAQmxGetCIVelocityDiv(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCIVelocityDiv(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCIVelocityDiv(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_Units ***
// Uses value set TimeUnits3
int32 __CFUNC DAQmxGetCITwoEdgeSepUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_FirstTerm ***
int32 __CFUNC DAQmxGetCITwoEdgeSepFirstTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCITwoEdgeSepFirstTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCITwoEdgeSepFirstTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_FirstTermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCITwoEdgeSepFirstTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepFirstTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepFirstTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_FirstLogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCITwoEdgeSepFirstLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepFirstLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepFirstLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_First_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCITwoEdgeSepFirstDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepFirstDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepFirstDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_First_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCITwoEdgeSepFirstDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepFirstDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepFirstDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_First_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCITwoEdgeSepFirstDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCITwoEdgeSepFirstDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCITwoEdgeSepFirstDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_First_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCITwoEdgeSepFirstDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepFirstDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepFirstDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_First_DigSync_Enable ***
int32 __CFUNC DAQmxGetCITwoEdgeSepFirstDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepFirstDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepFirstDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_FirstEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCITwoEdgeSepFirstEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepFirstEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepFirstEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_SecondTerm ***
int32 __CFUNC DAQmxGetCITwoEdgeSepSecondTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCITwoEdgeSepSecondTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCITwoEdgeSepSecondTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_SecondTermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCITwoEdgeSepSecondTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepSecondTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepSecondTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_SecondLogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCITwoEdgeSepSecondLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepSecondLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepSecondLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_Second_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCITwoEdgeSepSecondDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepSecondDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepSecondDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_Second_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCITwoEdgeSepSecondDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepSecondDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepSecondDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_Second_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCITwoEdgeSepSecondDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCITwoEdgeSepSecondDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCITwoEdgeSepSecondDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_Second_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCITwoEdgeSepSecondDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepSecondDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepSecondDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_Second_DigSync_Enable ***
int32 __CFUNC DAQmxGetCITwoEdgeSepSecondDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepSecondDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepSecondDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_TwoEdgeSep_SecondEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCITwoEdgeSepSecondEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCITwoEdgeSepSecondEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCITwoEdgeSepSecondEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_Units ***
// Uses value set TimeUnits3
int32 __CFUNC DAQmxGetCISemiPeriodUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCISemiPeriodUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCISemiPeriodUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_Term ***
int32 __CFUNC DAQmxGetCISemiPeriodTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCISemiPeriodTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCISemiPeriodTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCISemiPeriodTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCISemiPeriodTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCISemiPeriodTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCISemiPeriodLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCISemiPeriodLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCISemiPeriodLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCISemiPeriodDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCISemiPeriodDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCISemiPeriodDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCISemiPeriodDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCISemiPeriodDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCISemiPeriodDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCISemiPeriodDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCISemiPeriodDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCISemiPeriodDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCISemiPeriodDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCISemiPeriodDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCISemiPeriodDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_DigSync_Enable ***
int32 __CFUNC DAQmxGetCISemiPeriodDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCISemiPeriodDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCISemiPeriodDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SemiPeriod_StartingEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCISemiPeriodStartingEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCISemiPeriodStartingEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCISemiPeriodStartingEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_Units ***
// Uses value set FrequencyUnits2
int32 __CFUNC DAQmxGetCIPulseFreqUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseFreqUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseFreqUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_Term ***
int32 __CFUNC DAQmxGetCIPulseFreqTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPulseFreqTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPulseFreqTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIPulseFreqTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseFreqTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseFreqTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIPulseFreqLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseFreqLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseFreqLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIPulseFreqDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPulseFreqDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPulseFreqDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIPulseFreqDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPulseFreqDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPulseFreqDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIPulseFreqDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPulseFreqDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPulseFreqDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIPulseFreqDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPulseFreqDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPulseFreqDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_DigSync_Enable ***
int32 __CFUNC DAQmxGetCIPulseFreqDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPulseFreqDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPulseFreqDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Freq_Start_Edge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCIPulseFreqStartEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseFreqStartEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseFreqStartEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_Units ***
// Uses value set TimeUnits2
int32 __CFUNC DAQmxGetCIPulseTimeUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseTimeUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseTimeUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_Term ***
int32 __CFUNC DAQmxGetCIPulseTimeTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPulseTimeTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPulseTimeTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIPulseTimeTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseTimeTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseTimeTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIPulseTimeLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseTimeLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseTimeLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIPulseTimeDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPulseTimeDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPulseTimeDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIPulseTimeDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPulseTimeDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPulseTimeDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIPulseTimeDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPulseTimeDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPulseTimeDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIPulseTimeDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPulseTimeDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPulseTimeDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_DigSync_Enable ***
int32 __CFUNC DAQmxGetCIPulseTimeDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPulseTimeDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPulseTimeDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Time_StartEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCIPulseTimeStartEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseTimeStartEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseTimeStartEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Ticks_Term ***
int32 __CFUNC DAQmxGetCIPulseTicksTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPulseTicksTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPulseTicksTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Ticks_TermCfg ***
// Uses value set InputTermCfg2
int32 __CFUNC DAQmxGetCIPulseTicksTermCfg(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseTicksTermCfg(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseTicksTermCfg(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Ticks_LogicLvlBehavior ***
// Uses value set LogicLvlBehavior
int32 __CFUNC DAQmxGetCIPulseTicksLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseTicksLogicLvlBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseTicksLogicLvlBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Ticks_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCIPulseTicksDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPulseTicksDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPulseTicksDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Ticks_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCIPulseTicksDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPulseTicksDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPulseTicksDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Ticks_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCIPulseTicksDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCIPulseTicksDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCIPulseTicksDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Ticks_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCIPulseTicksDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIPulseTicksDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIPulseTicksDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Ticks_DigSync_Enable ***
int32 __CFUNC DAQmxGetCIPulseTicksDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIPulseTicksDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIPulseTicksDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Pulse_Ticks_StartEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCIPulseTicksStartEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIPulseTicksStartEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIPulseTicksStartEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CtrTimebaseSrc ***
int32 __CFUNC DAQmxGetCICtrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICtrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICtrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CtrTimebaseRate ***
int32 __CFUNC DAQmxGetCICtrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICtrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICtrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CtrTimebaseActiveEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCICtrTimebaseActiveEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCICtrTimebaseActiveEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCICtrTimebaseActiveEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CtrTimebase_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCICtrTimebaseDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICtrTimebaseDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICtrTimebaseDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CtrTimebase_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCICtrTimebaseDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICtrTimebaseDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICtrTimebaseDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CtrTimebase_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCICtrTimebaseDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCICtrTimebaseDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCICtrTimebaseDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CtrTimebase_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCICtrTimebaseDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCICtrTimebaseDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCICtrTimebaseDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_CtrTimebase_DigSync_Enable ***
int32 __CFUNC DAQmxGetCICtrTimebaseDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCICtrTimebaseDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCICtrTimebaseDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_ThreshVoltage ***
int32 __CFUNC DAQmxGetCIThreshVoltage(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIThreshVoltage(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIThreshVoltage(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Count ***
int32 __CFUNC DAQmxGetCICount(TaskHandle taskHandle, const char channel[], uInt32 *data);
//*** Set/Get functions for DAQmx_CI_OutputState ***
// Uses value set Level1
int32 __CFUNC DAQmxGetCIOutputState(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_CI_TCReached ***
int32 __CFUNC DAQmxGetCITCReached(TaskHandle taskHandle, const char channel[], bool32 *data);
//*** Set/Get functions for DAQmx_CI_CtrTimebaseMasterTimebaseDiv ***
int32 __CFUNC DAQmxGetCICtrTimebaseMasterTimebaseDiv(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCICtrTimebaseMasterTimebaseDiv(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCICtrTimebaseMasterTimebaseDiv(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SampClkOverrunBehavior ***
// Uses value set SampClkOverrunBehavior
int32 __CFUNC DAQmxGetCISampClkOverrunBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCISampClkOverrunBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCISampClkOverrunBehavior(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_SampClkOverrunSentinelVal ***
int32 __CFUNC DAQmxGetCISampClkOverrunSentinelVal(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCISampClkOverrunSentinelVal(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCISampClkOverrunSentinelVal(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DataXferMech ***
// Uses value set DataTransferMechanism
int32 __CFUNC DAQmxGetCIDataXferMech(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIDataXferMech(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIDataXferMech(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_DataXferReqCond ***
// Uses value set InputDataTransferCondition
int32 __CFUNC DAQmxGetCIDataXferReqCond(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCIDataXferReqCond(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCIDataXferReqCond(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_UsbXferReqSize ***
int32 __CFUNC DAQmxGetCIUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCIUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCIUsbXferReqSize(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_UsbXferReqCount ***
int32 __CFUNC DAQmxGetCIUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCIUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCIUsbXferReqCount(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_MemMapEnable ***
int32 __CFUNC DAQmxGetCIMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIMemMapEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_NumPossiblyInvalidSamps ***
int32 __CFUNC DAQmxGetCINumPossiblyInvalidSamps(TaskHandle taskHandle, const char channel[], uInt32 *data);
//*** Set/Get functions for DAQmx_CI_DupCountPrevent ***
int32 __CFUNC DAQmxGetCIDupCountPrevent(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCIDupCountPrevent(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCIDupCountPrevent(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_Prescaler ***
int32 __CFUNC DAQmxGetCIPrescaler(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCIPrescaler(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCIPrescaler(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CI_MaxMeasPeriod ***
int32 __CFUNC DAQmxGetCIMaxMeasPeriod(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCIMaxMeasPeriod(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCIMaxMeasPeriod(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_OutputType ***
// Uses value set COOutputType
int32 __CFUNC DAQmxGetCOOutputType(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_CO_Pulse_IdleState ***
// Uses value set Level1
int32 __CFUNC DAQmxGetCOPulseIdleState(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCOPulseIdleState(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCOPulseIdleState(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_Term ***
int32 __CFUNC DAQmxGetCOPulseTerm(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCOPulseTerm(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCOPulseTerm(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_Time_Units ***
// Uses value set TimeUnits2
int32 __CFUNC DAQmxGetCOPulseTimeUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCOPulseTimeUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCOPulseTimeUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_HighTime ***
int32 __CFUNC DAQmxGetCOPulseHighTime(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCOPulseHighTime(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCOPulseHighTime(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_LowTime ***
int32 __CFUNC DAQmxGetCOPulseLowTime(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCOPulseLowTime(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCOPulseLowTime(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_Time_InitialDelay ***
int32 __CFUNC DAQmxGetCOPulseTimeInitialDelay(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCOPulseTimeInitialDelay(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCOPulseTimeInitialDelay(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_DutyCyc ***
int32 __CFUNC DAQmxGetCOPulseDutyCyc(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCOPulseDutyCyc(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCOPulseDutyCyc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_Freq_Units ***
// Uses value set FrequencyUnits2
int32 __CFUNC DAQmxGetCOPulseFreqUnits(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCOPulseFreqUnits(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCOPulseFreqUnits(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_Freq ***
int32 __CFUNC DAQmxGetCOPulseFreq(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCOPulseFreq(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCOPulseFreq(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_Freq_InitialDelay ***
int32 __CFUNC DAQmxGetCOPulseFreqInitialDelay(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCOPulseFreqInitialDelay(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCOPulseFreqInitialDelay(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_HighTicks ***
int32 __CFUNC DAQmxGetCOPulseHighTicks(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCOPulseHighTicks(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCOPulseHighTicks(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_LowTicks ***
int32 __CFUNC DAQmxGetCOPulseLowTicks(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCOPulseLowTicks(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCOPulseLowTicks(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Pulse_Ticks_InitialDelay ***
int32 __CFUNC DAQmxGetCOPulseTicksInitialDelay(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCOPulseTicksInitialDelay(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCOPulseTicksInitialDelay(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_CtrTimebaseSrc ***
int32 __CFUNC DAQmxGetCOCtrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCOCtrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCOCtrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_CtrTimebaseRate ***
int32 __CFUNC DAQmxGetCOCtrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCOCtrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCOCtrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_CtrTimebaseActiveEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetCOCtrTimebaseActiveEdge(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCOCtrTimebaseActiveEdge(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCOCtrTimebaseActiveEdge(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_CtrTimebase_DigFltr_Enable ***
int32 __CFUNC DAQmxGetCOCtrTimebaseDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCOCtrTimebaseDigFltrEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCOCtrTimebaseDigFltrEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_CtrTimebase_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetCOCtrTimebaseDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCOCtrTimebaseDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCOCtrTimebaseDigFltrMinPulseWidth(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_CtrTimebase_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetCOCtrTimebaseDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetCOCtrTimebaseDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetCOCtrTimebaseDigFltrTimebaseSrc(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_CtrTimebase_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetCOCtrTimebaseDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 *data);
int32 __CFUNC DAQmxSetCOCtrTimebaseDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[], float64 data);
int32 __CFUNC DAQmxResetCOCtrTimebaseDigFltrTimebaseRate(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_CtrTimebase_DigSync_Enable ***
int32 __CFUNC DAQmxGetCOCtrTimebaseDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCOCtrTimebaseDigSyncEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCOCtrTimebaseDigSyncEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Count ***
int32 __CFUNC DAQmxGetCOCount(TaskHandle taskHandle, const char channel[], uInt32 *data);
//*** Set/Get functions for DAQmx_CO_OutputState ***
// Uses value set Level1
int32 __CFUNC DAQmxGetCOOutputState(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_CO_AutoIncrCnt ***
int32 __CFUNC DAQmxGetCOAutoIncrCnt(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCOAutoIncrCnt(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCOAutoIncrCnt(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_CtrTimebaseMasterTimebaseDiv ***
int32 __CFUNC DAQmxGetCOCtrTimebaseMasterTimebaseDiv(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCOCtrTimebaseMasterTimebaseDiv(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCOCtrTimebaseMasterTimebaseDiv(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_PulseDone ***
int32 __CFUNC DAQmxGetCOPulseDone(TaskHandle taskHandle, const char channel[], bool32 *data);
//*** Set/Get functions for DAQmx_CO_EnableInitialDelayOnRetrigger ***
int32 __CFUNC DAQmxGetCOEnableInitialDelayOnRetrigger(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCOEnableInitialDelayOnRetrigger(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCOEnableInitialDelayOnRetrigger(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_ConstrainedGenMode ***
// Uses value set ConstrainedGenMode
int32 __CFUNC DAQmxGetCOConstrainedGenMode(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCOConstrainedGenMode(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCOConstrainedGenMode(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_UseOnlyOnBrdMem ***
int32 __CFUNC DAQmxGetCOUseOnlyOnBrdMem(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCOUseOnlyOnBrdMem(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCOUseOnlyOnBrdMem(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_DataXferMech ***
// Uses value set DataTransferMechanism
int32 __CFUNC DAQmxGetCODataXferMech(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCODataXferMech(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCODataXferMech(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_DataXferReqCond ***
// Uses value set OutputDataTransferCondition
int32 __CFUNC DAQmxGetCODataXferReqCond(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetCODataXferReqCond(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetCODataXferReqCond(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_UsbXferReqSize ***
int32 __CFUNC DAQmxGetCOUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCOUsbXferReqSize(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCOUsbXferReqSize(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_UsbXferReqCount ***
int32 __CFUNC DAQmxGetCOUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCOUsbXferReqCount(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCOUsbXferReqCount(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_MemMapEnable ***
int32 __CFUNC DAQmxGetCOMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 *data);
int32 __CFUNC DAQmxSetCOMemMapEnable(TaskHandle taskHandle, const char channel[], bool32 data);
int32 __CFUNC DAQmxResetCOMemMapEnable(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_Prescaler ***
int32 __CFUNC DAQmxGetCOPrescaler(TaskHandle taskHandle, const char channel[], uInt32 *data);
int32 __CFUNC DAQmxSetCOPrescaler(TaskHandle taskHandle, const char channel[], uInt32 data);
int32 __CFUNC DAQmxResetCOPrescaler(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_CO_RdyForNewVal ***
int32 __CFUNC DAQmxGetCORdyForNewVal(TaskHandle taskHandle, const char channel[], bool32 *data);
//*** Set/Get functions for DAQmx_ChanType ***
// Uses value set ChannelType
int32 __CFUNC DAQmxGetChanType(TaskHandle taskHandle, const char channel[], int32 *data);
//*** Set/Get functions for DAQmx_PhysicalChanName ***
int32 __CFUNC DAQmxGetPhysicalChanName(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetPhysicalChanName(TaskHandle taskHandle, const char channel[], const char *data);
//*** Set/Get functions for DAQmx_ChanDescr ***
int32 __CFUNC DAQmxGetChanDescr(TaskHandle taskHandle, const char channel[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetChanDescr(TaskHandle taskHandle, const char channel[], const char *data);
int32 __CFUNC DAQmxResetChanDescr(TaskHandle taskHandle, const char channel[]);
//*** Set/Get functions for DAQmx_ChanIsGlobal ***
int32 __CFUNC DAQmxGetChanIsGlobal(TaskHandle taskHandle, const char channel[], bool32 *data);
//*** Set/Get functions for DAQmx_Chan_SyncUnlockBehavior ***
// Uses value set SyncUnlockBehavior
int32 __CFUNC DAQmxGetChanSyncUnlockBehavior(TaskHandle taskHandle, const char channel[], int32 *data);
int32 __CFUNC DAQmxSetChanSyncUnlockBehavior(TaskHandle taskHandle, const char channel[], int32 data);
int32 __CFUNC DAQmxResetChanSyncUnlockBehavior(TaskHandle taskHandle, const char channel[]);
//********** Device **********
//*** Set/Get functions for DAQmx_Dev_IsSimulated ***
int32 __CFUNC DAQmxGetDevIsSimulated(const char device[], bool32 *data);
//*** Set/Get functions for DAQmx_Dev_ProductCategory ***
// Uses value set ProductCategory
int32 __CFUNC DAQmxGetDevProductCategory(const char device[], int32 *data);
//*** Set/Get functions for DAQmx_Dev_ProductType ***
int32 __CFUNC DAQmxGetDevProductType(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_ProductNum ***
int32 __CFUNC DAQmxGetDevProductNum(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_SerialNum ***
int32 __CFUNC DAQmxGetDevSerialNum(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_Accessory_ProductTypes ***
int32 __CFUNC DAQmxGetDevAccessoryProductTypes(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_Accessory_ProductNums ***
int32 __CFUNC DAQmxGetDevAccessoryProductNums(const char device[], uInt32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_Accessory_SerialNums ***
int32 __CFUNC DAQmxGetDevAccessorySerialNums(const char device[], uInt32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Carrier_SerialNum ***
int32 __CFUNC DAQmxGetCarrierSerialNum(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_FieldDAQ_DevName ***
int32 __CFUNC DAQmxGetFieldDAQDevName(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_FieldDAQ_BankDevNames ***
int32 __CFUNC DAQmxGetFieldDAQBankDevNames(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_Chassis_ModuleDevNames ***
int32 __CFUNC DAQmxGetDevChassisModuleDevNames(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_AnlgTrigSupported ***
int32 __CFUNC DAQmxGetDevAnlgTrigSupported(const char device[], bool32 *data);
//*** Set/Get functions for DAQmx_Dev_DigTrigSupported ***
int32 __CFUNC DAQmxGetDevDigTrigSupported(const char device[], bool32 *data);
//*** Set/Get functions for DAQmx_Dev_TimeTrigSupported ***
int32 __CFUNC DAQmxGetDevTimeTrigSupported(const char device[], bool32 *data);
//*** Set/Get functions for DAQmx_Dev_AI_PhysicalChans ***
int32 __CFUNC DAQmxGetDevAIPhysicalChans(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_AI_SupportedMeasTypes ***
// Uses value set AIMeasurementType
int32 __CFUNC DAQmxGetDevAISupportedMeasTypes(const char device[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_MaxSingleChanRate ***
int32 __CFUNC DAQmxGetDevAIMaxSingleChanRate(const char device[], float64 *data);
//*** Set/Get functions for DAQmx_Dev_AI_MaxMultiChanRate ***
int32 __CFUNC DAQmxGetDevAIMaxMultiChanRate(const char device[], float64 *data);
//*** Set/Get functions for DAQmx_Dev_AI_MinRate ***
int32 __CFUNC DAQmxGetDevAIMinRate(const char device[], float64 *data);
//*** Set/Get functions for DAQmx_Dev_AI_SimultaneousSamplingSupported ***
int32 __CFUNC DAQmxGetDevAISimultaneousSamplingSupported(const char device[], bool32 *data);
//*** Set/Get functions for DAQmx_Dev_AI_NumSampTimingEngines ***
int32 __CFUNC DAQmxGetDevAINumSampTimingEngines(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_AI_SampModes ***
// Uses value set AcquisitionType
int32 __CFUNC DAQmxGetDevAISampModes(const char device[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_NumSyncPulseSrcs ***
int32 __CFUNC DAQmxGetDevAINumSyncPulseSrcs(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_AI_TrigUsage ***
// Uses bits from enum TriggerUsageTypeBits
int32 __CFUNC DAQmxGetDevAITrigUsage(const char device[], int32 *data);
//*** Set/Get functions for DAQmx_Dev_AI_VoltageRngs ***
int32 __CFUNC DAQmxGetDevAIVoltageRngs(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_VoltageIntExcitDiscreteVals ***
int32 __CFUNC DAQmxGetDevAIVoltageIntExcitDiscreteVals(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_VoltageIntExcitRangeVals ***
int32 __CFUNC DAQmxGetDevAIVoltageIntExcitRangeVals(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_ChargeRngs ***
int32 __CFUNC DAQmxGetDevAIChargeRngs(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_CurrentRngs ***
int32 __CFUNC DAQmxGetDevAICurrentRngs(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_CurrentIntExcitDiscreteVals ***
int32 __CFUNC DAQmxGetDevAICurrentIntExcitDiscreteVals(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_BridgeRngs ***
int32 __CFUNC DAQmxGetDevAIBridgeRngs(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_ResistanceRngs ***
int32 __CFUNC DAQmxGetDevAIResistanceRngs(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_FreqRngs ***
int32 __CFUNC DAQmxGetDevAIFreqRngs(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_Gains ***
int32 __CFUNC DAQmxGetDevAIGains(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_Couplings ***
// Uses bits from enum CouplingTypeBits
int32 __CFUNC DAQmxGetDevAICouplings(const char device[], int32 *data);
//*** Set/Get functions for DAQmx_Dev_AI_LowpassCutoffFreqDiscreteVals ***
int32 __CFUNC DAQmxGetDevAILowpassCutoffFreqDiscreteVals(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_LowpassCutoffFreqRangeVals ***
int32 __CFUNC DAQmxGetDevAILowpassCutoffFreqRangeVals(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_AI_DigFltr_Types ***
// Uses value set FilterType2
int32 __CFUNC DAQmxGetAIDigFltrTypes(const char device[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_DigFltr_LowpassCutoffFreqDiscreteVals ***
int32 __CFUNC DAQmxGetDevAIDigFltrLowpassCutoffFreqDiscreteVals(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AI_DigFltr_LowpassCutoffFreqRangeVals ***
int32 __CFUNC DAQmxGetDevAIDigFltrLowpassCutoffFreqRangeVals(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AO_PhysicalChans ***
int32 __CFUNC DAQmxGetDevAOPhysicalChans(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_AO_SupportedOutputTypes ***
// Uses value set AOOutputChannelType
int32 __CFUNC DAQmxGetDevAOSupportedOutputTypes(const char device[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AO_MaxRate ***
int32 __CFUNC DAQmxGetDevAOMaxRate(const char device[], float64 *data);
//*** Set/Get functions for DAQmx_Dev_AO_MinRate ***
int32 __CFUNC DAQmxGetDevAOMinRate(const char device[], float64 *data);
//*** Set/Get functions for DAQmx_Dev_AO_SampClkSupported ***
int32 __CFUNC DAQmxGetDevAOSampClkSupported(const char device[], bool32 *data);
//*** Set/Get functions for DAQmx_Dev_AO_NumSampTimingEngines ***
int32 __CFUNC DAQmxGetDevAONumSampTimingEngines(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_AO_SampModes ***
// Uses value set AcquisitionType
int32 __CFUNC DAQmxGetDevAOSampModes(const char device[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AO_NumSyncPulseSrcs ***
int32 __CFUNC DAQmxGetDevAONumSyncPulseSrcs(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_AO_TrigUsage ***
// Uses bits from enum TriggerUsageTypeBits
int32 __CFUNC DAQmxGetDevAOTrigUsage(const char device[], int32 *data);
//*** Set/Get functions for DAQmx_Dev_AO_VoltageRngs ***
int32 __CFUNC DAQmxGetDevAOVoltageRngs(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AO_CurrentRngs ***
int32 __CFUNC DAQmxGetDevAOCurrentRngs(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_AO_Gains ***
int32 __CFUNC DAQmxGetDevAOGains(const char device[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_DI_Lines ***
int32 __CFUNC DAQmxGetDevDILines(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_DI_Ports ***
int32 __CFUNC DAQmxGetDevDIPorts(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_DI_MaxRate ***
int32 __CFUNC DAQmxGetDevDIMaxRate(const char device[], float64 *data);
//*** Set/Get functions for DAQmx_Dev_DI_NumSampTimingEngines ***
int32 __CFUNC DAQmxGetDevDINumSampTimingEngines(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_DI_TrigUsage ***
// Uses bits from enum TriggerUsageTypeBits
int32 __CFUNC DAQmxGetDevDITrigUsage(const char device[], int32 *data);
//*** Set/Get functions for DAQmx_Dev_DO_Lines ***
int32 __CFUNC DAQmxGetDevDOLines(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_DO_Ports ***
int32 __CFUNC DAQmxGetDevDOPorts(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_DO_MaxRate ***
int32 __CFUNC DAQmxGetDevDOMaxRate(const char device[], float64 *data);
//*** Set/Get functions for DAQmx_Dev_DO_NumSampTimingEngines ***
int32 __CFUNC DAQmxGetDevDONumSampTimingEngines(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_DO_TrigUsage ***
// Uses bits from enum TriggerUsageTypeBits
int32 __CFUNC DAQmxGetDevDOTrigUsage(const char device[], int32 *data);
//*** Set/Get functions for DAQmx_Dev_CI_PhysicalChans ***
int32 __CFUNC DAQmxGetDevCIPhysicalChans(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_CI_SupportedMeasTypes ***
// Uses value set CIMeasurementType
int32 __CFUNC DAQmxGetDevCISupportedMeasTypes(const char device[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_CI_TrigUsage ***
// Uses bits from enum TriggerUsageTypeBits
int32 __CFUNC DAQmxGetDevCITrigUsage(const char device[], int32 *data);
//*** Set/Get functions for DAQmx_Dev_CI_SampClkSupported ***
int32 __CFUNC DAQmxGetDevCISampClkSupported(const char device[], bool32 *data);
//*** Set/Get functions for DAQmx_Dev_CI_SampModes ***
// Uses value set AcquisitionType
int32 __CFUNC DAQmxGetDevCISampModes(const char device[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_CI_MaxSize ***
int32 __CFUNC DAQmxGetDevCIMaxSize(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_CI_MaxTimebase ***
int32 __CFUNC DAQmxGetDevCIMaxTimebase(const char device[], float64 *data);
//*** Set/Get functions for DAQmx_Dev_CO_PhysicalChans ***
int32 __CFUNC DAQmxGetDevCOPhysicalChans(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_CO_SupportedOutputTypes ***
// Uses value set COOutputType
int32 __CFUNC DAQmxGetDevCOSupportedOutputTypes(const char device[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_CO_SampClkSupported ***
int32 __CFUNC DAQmxGetDevCOSampClkSupported(const char device[], bool32 *data);
//*** Set/Get functions for DAQmx_Dev_CO_SampModes ***
// Uses value set AcquisitionType
int32 __CFUNC DAQmxGetDevCOSampModes(const char device[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Dev_CO_TrigUsage ***
// Uses bits from enum TriggerUsageTypeBits
int32 __CFUNC DAQmxGetDevCOTrigUsage(const char device[], int32 *data);
//*** Set/Get functions for DAQmx_Dev_CO_MaxSize ***
int32 __CFUNC DAQmxGetDevCOMaxSize(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_CO_MaxTimebase ***
int32 __CFUNC DAQmxGetDevCOMaxTimebase(const char device[], float64 *data);
//*** Set/Get functions for DAQmx_Dev_TEDS_HWTEDSSupported ***
int32 __CFUNC DAQmxGetDevTEDSHWTEDSSupported(const char device[], bool32 *data);
//*** Set/Get functions for DAQmx_Dev_NumDMAChans ***
int32 __CFUNC DAQmxGetDevNumDMAChans(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_BusType ***
// Uses value set BusType
int32 __CFUNC DAQmxGetDevBusType(const char device[], int32 *data);
//*** Set/Get functions for DAQmx_Dev_PCI_BusNum ***
int32 __CFUNC DAQmxGetDevPCIBusNum(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_PCI_DevNum ***
int32 __CFUNC DAQmxGetDevPCIDevNum(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_PXI_ChassisNum ***
int32 __CFUNC DAQmxGetDevPXIChassisNum(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_PXI_SlotNum ***
int32 __CFUNC DAQmxGetDevPXISlotNum(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_CompactDAQ_ChassisDevName ***
int32 __CFUNC DAQmxGetDevCompactDAQChassisDevName(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_CompactDAQ_SlotNum ***
int32 __CFUNC DAQmxGetDevCompactDAQSlotNum(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_CompactRIO_ChassisDevName ***
int32 __CFUNC DAQmxGetDevCompactRIOChassisDevName(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_CompactRIO_SlotNum ***
int32 __CFUNC DAQmxGetDevCompactRIOSlotNum(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_TCPIP_Hostname ***
int32 __CFUNC DAQmxGetDevTCPIPHostname(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_TCPIP_EthernetIP ***
int32 __CFUNC DAQmxGetDevTCPIPEthernetIP(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_TCPIP_WirelessIP ***
int32 __CFUNC DAQmxGetDevTCPIPWirelessIP(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_Terminals ***
int32 __CFUNC DAQmxGetDevTerminals(const char device[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Dev_NumTimeTrigs ***
int32 __CFUNC DAQmxGetDevNumTimeTrigs(const char device[], uInt32 *data);
//*** Set/Get functions for DAQmx_Dev_NumTimestampEngines ***
int32 __CFUNC DAQmxGetDevNumTimestampEngines(const char device[], uInt32 *data);
//********** Export Signal **********
//*** Set/Get functions for DAQmx_Exported_AIConvClk_OutputTerm ***
int32 __CFUNC DAQmxGetExportedAIConvClkOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedAIConvClkOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedAIConvClkOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AIConvClk_Pulse_Polarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedAIConvClkPulsePolarity(TaskHandle taskHandle, int32 *data);
//*** Set/Get functions for DAQmx_Exported_10MHzRefClk_OutputTerm ***
int32 __CFUNC DAQmxGetExported10MHzRefClkOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExported10MHzRefClkOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExported10MHzRefClkOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_20MHzTimebase_OutputTerm ***
int32 __CFUNC DAQmxGetExported20MHzTimebaseOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExported20MHzTimebaseOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExported20MHzTimebaseOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_SampClk_OutputBehavior ***
// Uses value set ExportActions3
int32 __CFUNC DAQmxGetExportedSampClkOutputBehavior(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedSampClkOutputBehavior(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedSampClkOutputBehavior(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_SampClk_OutputTerm ***
int32 __CFUNC DAQmxGetExportedSampClkOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedSampClkOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedSampClkOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_SampClk_DelayOffset ***
int32 __CFUNC DAQmxGetExportedSampClkDelayOffset(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetExportedSampClkDelayOffset(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetExportedSampClkDelayOffset(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_SampClk_Pulse_Polarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedSampClkPulsePolarity(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedSampClkPulsePolarity(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedSampClkPulsePolarity(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_SampClkTimebase_OutputTerm ***
int32 __CFUNC DAQmxGetExportedSampClkTimebaseOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedSampClkTimebaseOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedSampClkTimebaseOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_DividedSampClkTimebase_OutputTerm ***
int32 __CFUNC DAQmxGetExportedDividedSampClkTimebaseOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedDividedSampClkTimebaseOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedDividedSampClkTimebaseOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AdvTrig_OutputTerm ***
int32 __CFUNC DAQmxGetExportedAdvTrigOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedAdvTrigOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedAdvTrigOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AdvTrig_Pulse_Polarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedAdvTrigPulsePolarity(TaskHandle taskHandle, int32 *data);
//*** Set/Get functions for DAQmx_Exported_AdvTrig_Pulse_WidthUnits ***
// Uses value set DigitalWidthUnits3
int32 __CFUNC DAQmxGetExportedAdvTrigPulseWidthUnits(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedAdvTrigPulseWidthUnits(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedAdvTrigPulseWidthUnits(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AdvTrig_Pulse_Width ***
int32 __CFUNC DAQmxGetExportedAdvTrigPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetExportedAdvTrigPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetExportedAdvTrigPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_PauseTrig_OutputTerm ***
int32 __CFUNC DAQmxGetExportedPauseTrigOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedPauseTrigOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedPauseTrigOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_PauseTrig_Lvl_ActiveLvl ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedPauseTrigLvlActiveLvl(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedPauseTrigLvlActiveLvl(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedPauseTrigLvlActiveLvl(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_RefTrig_OutputTerm ***
int32 __CFUNC DAQmxGetExportedRefTrigOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedRefTrigOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedRefTrigOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_RefTrig_Pulse_Polarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedRefTrigPulsePolarity(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedRefTrigPulsePolarity(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedRefTrigPulsePolarity(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_StartTrig_OutputTerm ***
int32 __CFUNC DAQmxGetExportedStartTrigOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedStartTrigOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedStartTrigOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_StartTrig_Pulse_Polarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedStartTrigPulsePolarity(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedStartTrigPulsePolarity(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedStartTrigPulsePolarity(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AdvCmpltEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedAdvCmpltEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedAdvCmpltEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedAdvCmpltEventOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AdvCmpltEvent_Delay ***
int32 __CFUNC DAQmxGetExportedAdvCmpltEventDelay(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetExportedAdvCmpltEventDelay(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetExportedAdvCmpltEventDelay(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AdvCmpltEvent_Pulse_Polarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedAdvCmpltEventPulsePolarity(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedAdvCmpltEventPulsePolarity(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedAdvCmpltEventPulsePolarity(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AdvCmpltEvent_Pulse_Width ***
int32 __CFUNC DAQmxGetExportedAdvCmpltEventPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetExportedAdvCmpltEventPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetExportedAdvCmpltEventPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AIHoldCmpltEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedAIHoldCmpltEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedAIHoldCmpltEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedAIHoldCmpltEventOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_AIHoldCmpltEvent_PulsePolarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedAIHoldCmpltEventPulsePolarity(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedAIHoldCmpltEventPulsePolarity(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedAIHoldCmpltEventPulsePolarity(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_ChangeDetectEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedChangeDetectEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedChangeDetectEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedChangeDetectEventOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_ChangeDetectEvent_Pulse_Polarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedChangeDetectEventPulsePolarity(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedChangeDetectEventPulsePolarity(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedChangeDetectEventPulsePolarity(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_CtrOutEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedCtrOutEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedCtrOutEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedCtrOutEventOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_CtrOutEvent_OutputBehavior ***
// Uses value set ExportActions2
int32 __CFUNC DAQmxGetExportedCtrOutEventOutputBehavior(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedCtrOutEventOutputBehavior(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedCtrOutEventOutputBehavior(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_CtrOutEvent_Pulse_Polarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedCtrOutEventPulsePolarity(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedCtrOutEventPulsePolarity(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedCtrOutEventPulsePolarity(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_CtrOutEvent_Toggle_IdleState ***
// Uses value set Level1
int32 __CFUNC DAQmxGetExportedCtrOutEventToggleIdleState(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedCtrOutEventToggleIdleState(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedCtrOutEventToggleIdleState(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_HshkEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedHshkEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedHshkEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedHshkEventOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_HshkEvent_OutputBehavior ***
// Uses value set ExportActions5
int32 __CFUNC DAQmxGetExportedHshkEventOutputBehavior(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedHshkEventOutputBehavior(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedHshkEventOutputBehavior(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_HshkEvent_Delay ***
int32 __CFUNC DAQmxGetExportedHshkEventDelay(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetExportedHshkEventDelay(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetExportedHshkEventDelay(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_HshkEvent_Interlocked_AssertedLvl ***
// Uses value set Level1
int32 __CFUNC DAQmxGetExportedHshkEventInterlockedAssertedLvl(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedHshkEventInterlockedAssertedLvl(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedHshkEventInterlockedAssertedLvl(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_HshkEvent_Interlocked_AssertOnStart ***
int32 __CFUNC DAQmxGetExportedHshkEventInterlockedAssertOnStart(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetExportedHshkEventInterlockedAssertOnStart(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetExportedHshkEventInterlockedAssertOnStart(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_HshkEvent_Interlocked_DeassertDelay ***
int32 __CFUNC DAQmxGetExportedHshkEventInterlockedDeassertDelay(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetExportedHshkEventInterlockedDeassertDelay(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetExportedHshkEventInterlockedDeassertDelay(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_HshkEvent_Pulse_Polarity ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedHshkEventPulsePolarity(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedHshkEventPulsePolarity(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedHshkEventPulsePolarity(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_HshkEvent_Pulse_Width ***
int32 __CFUNC DAQmxGetExportedHshkEventPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetExportedHshkEventPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetExportedHshkEventPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_RdyForXferEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedRdyForXferEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedRdyForXferEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedRdyForXferEventOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_RdyForXferEvent_Lvl_ActiveLvl ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedRdyForXferEventLvlActiveLvl(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedRdyForXferEventLvlActiveLvl(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedRdyForXferEventLvlActiveLvl(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_RdyForXferEvent_DeassertCond ***
// Uses value set DeassertCondition
int32 __CFUNC DAQmxGetExportedRdyForXferEventDeassertCond(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedRdyForXferEventDeassertCond(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedRdyForXferEventDeassertCond(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_RdyForXferEvent_DeassertCondCustomThreshold ***
int32 __CFUNC DAQmxGetExportedRdyForXferEventDeassertCondCustomThreshold(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetExportedRdyForXferEventDeassertCondCustomThreshold(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetExportedRdyForXferEventDeassertCondCustomThreshold(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_DataActiveEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedDataActiveEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedDataActiveEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedDataActiveEventOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_DataActiveEvent_Lvl_ActiveLvl ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedDataActiveEventLvlActiveLvl(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedDataActiveEventLvlActiveLvl(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedDataActiveEventLvlActiveLvl(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_RdyForStartEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedRdyForStartEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedRdyForStartEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedRdyForStartEventOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_RdyForStartEvent_Lvl_ActiveLvl ***
// Uses value set Polarity2
int32 __CFUNC DAQmxGetExportedRdyForStartEventLvlActiveLvl(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetExportedRdyForStartEventLvlActiveLvl(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetExportedRdyForStartEventLvlActiveLvl(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_SyncPulseEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedSyncPulseEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedSyncPulseEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedSyncPulseEventOutputTerm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Exported_WatchdogExpiredEvent_OutputTerm ***
int32 __CFUNC DAQmxGetExportedWatchdogExpiredEventOutputTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetExportedWatchdogExpiredEventOutputTerm(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetExportedWatchdogExpiredEventOutputTerm(TaskHandle taskHandle);
//********** Persisted Channel **********
//*** Set/Get functions for DAQmx_PersistedChan_Author ***
int32 __CFUNC DAQmxGetPersistedChanAuthor(const char channel[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_PersistedChan_AllowInteractiveEditing ***
int32 __CFUNC DAQmxGetPersistedChanAllowInteractiveEditing(const char channel[], bool32 *data);
//*** Set/Get functions for DAQmx_PersistedChan_AllowInteractiveDeletion ***
int32 __CFUNC DAQmxGetPersistedChanAllowInteractiveDeletion(const char channel[], bool32 *data);
//********** Persisted Scale **********
//*** Set/Get functions for DAQmx_PersistedScale_Author ***
int32 __CFUNC DAQmxGetPersistedScaleAuthor(const char scaleName[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_PersistedScale_AllowInteractiveEditing ***
int32 __CFUNC DAQmxGetPersistedScaleAllowInteractiveEditing(const char scaleName[], bool32 *data);
//*** Set/Get functions for DAQmx_PersistedScale_AllowInteractiveDeletion ***
int32 __CFUNC DAQmxGetPersistedScaleAllowInteractiveDeletion(const char scaleName[], bool32 *data);
//********** Persisted Task **********
//*** Set/Get functions for DAQmx_PersistedTask_Author ***
int32 __CFUNC DAQmxGetPersistedTaskAuthor(const char taskName[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_PersistedTask_AllowInteractiveEditing ***
int32 __CFUNC DAQmxGetPersistedTaskAllowInteractiveEditing(const char taskName[], bool32 *data);
//*** Set/Get functions for DAQmx_PersistedTask_AllowInteractiveDeletion ***
int32 __CFUNC DAQmxGetPersistedTaskAllowInteractiveDeletion(const char taskName[], bool32 *data);
//********** Physical Channel **********
//*** Set/Get functions for DAQmx_PhysicalChan_AI_SupportedMeasTypes ***
// Uses value set AIMeasurementType
int32 __CFUNC DAQmxGetPhysicalChanAISupportedMeasTypes(const char physicalChannel[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_AI_TermCfgs ***
// Uses bits from enum TerminalConfigurationBits
int32 __CFUNC DAQmxGetPhysicalChanAITermCfgs(const char physicalChannel[], int32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_AI_InputSrcs ***
int32 __CFUNC DAQmxGetPhysicalChanAIInputSrcs(const char physicalChannel[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_PhysicalChan_AI_SensorPower_Types ***
// Uses value set SensorPowerType
int32 __CFUNC DAQmxGetPhysicalChanAISensorPowerTypes(const char physicalChannel[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_AI_SensorPower_VoltageRangeVals ***
int32 __CFUNC DAQmxGetPhysicalChanAISensorPowerVoltageRangeVals(const char physicalChannel[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_AI_PowerControl_Voltage ***
int32 __CFUNC DAQmxGetPhysicalChanAIPowerControlVoltage(const char physicalChannel[], float64 *data);
int32 __CFUNC DAQmxSetPhysicalChanAIPowerControlVoltage(const char physicalChannel[], float64 data);
int32 __CFUNC DAQmxResetPhysicalChanAIPowerControlVoltage(const char physicalChannel[]);
//*** Set/Get functions for DAQmx_PhysicalChan_AI_PowerControl_Enable ***
int32 __CFUNC DAQmxGetPhysicalChanAIPowerControlEnable(const char physicalChannel[], bool32 *data);
int32 __CFUNC DAQmxSetPhysicalChanAIPowerControlEnable(const char physicalChannel[], bool32 data);
int32 __CFUNC DAQmxResetPhysicalChanAIPowerControlEnable(const char physicalChannel[]);
//*** Set/Get functions for DAQmx_PhysicalChan_AI_PowerControl_Type ***
// Uses value set SensorPowerType
int32 __CFUNC DAQmxGetPhysicalChanAIPowerControlType(const char physicalChannel[], int32 *data);
int32 __CFUNC DAQmxSetPhysicalChanAIPowerControlType(const char physicalChannel[], int32 data);
int32 __CFUNC DAQmxResetPhysicalChanAIPowerControlType(const char physicalChannel[]);
//*** Set/Get functions for DAQmx_PhysicalChan_AI_SensorPower_OpenChan ***
int32 __CFUNC DAQmxGetPhysicalChanAISensorPowerOpenChan(const char physicalChannel[], bool32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_AI_SensorPower_Overcurrent ***
int32 __CFUNC DAQmxGetPhysicalChanAISensorPowerOvercurrent(const char physicalChannel[], bool32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_AO_SupportedOutputTypes ***
// Uses value set AOOutputChannelType
int32 __CFUNC DAQmxGetPhysicalChanAOSupportedOutputTypes(const char physicalChannel[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_AO_SupportedPowerUpOutputTypes ***
// Uses value set AOPowerUpOutputBehavior
int32 __CFUNC DAQmxGetPhysicalChanAOSupportedPowerUpOutputTypes(const char physicalChannel[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_AO_TermCfgs ***
// Uses bits from enum TerminalConfigurationBits
int32 __CFUNC DAQmxGetPhysicalChanAOTermCfgs(const char physicalChannel[], int32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_AO_ManualControlEnable ***
int32 __CFUNC DAQmxGetPhysicalChanAOManualControlEnable(const char physicalChannel[], bool32 *data);
int32 __CFUNC DAQmxSetPhysicalChanAOManualControlEnable(const char physicalChannel[], bool32 data);
int32 __CFUNC DAQmxResetPhysicalChanAOManualControlEnable(const char physicalChannel[]);
//*** Set/Get functions for DAQmx_PhysicalChan_AO_ManualControl_ShortDetected ***
int32 __CFUNC DAQmxGetPhysicalChanAOManualControlShortDetected(const char physicalChannel[], bool32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_AO_ManualControlAmplitude ***
int32 __CFUNC DAQmxGetPhysicalChanAOManualControlAmplitude(const char physicalChannel[], float64 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_AO_ManualControlFreq ***
int32 __CFUNC DAQmxGetPhysicalChanAOManualControlFreq(const char physicalChannel[], float64 *data);
//*** Set/Get functions for DAQmx_AO_PowerAmp_ChannelEnable ***
int32 __CFUNC DAQmxGetAOPowerAmpChannelEnable(const char physicalChannel[], bool32 *data);
int32 __CFUNC DAQmxSetAOPowerAmpChannelEnable(const char physicalChannel[], bool32 data);
int32 __CFUNC DAQmxResetAOPowerAmpChannelEnable(const char physicalChannel[]);
//*** Set/Get functions for DAQmx_AO_PowerAmp_ScalingCoeff ***
int32 __CFUNC DAQmxGetAOPowerAmpScalingCoeff(const char physicalChannel[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_AO_PowerAmp_Overcurrent ***
int32 __CFUNC DAQmxGetAOPowerAmpOvercurrent(const char physicalChannel[], bool32 *data);
//*** Set/Get functions for DAQmx_AO_PowerAmp_Gain ***
int32 __CFUNC DAQmxGetAOPowerAmpGain(const char physicalChannel[], float64 *data);
//*** Set/Get functions for DAQmx_AO_PowerAmp_Offset ***
int32 __CFUNC DAQmxGetAOPowerAmpOffset(const char physicalChannel[], float64 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_DI_PortWidth ***
int32 __CFUNC DAQmxGetPhysicalChanDIPortWidth(const char physicalChannel[], uInt32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_DI_SampClkSupported ***
int32 __CFUNC DAQmxGetPhysicalChanDISampClkSupported(const char physicalChannel[], bool32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_DI_SampModes ***
// Uses value set AcquisitionType
int32 __CFUNC DAQmxGetPhysicalChanDISampModes(const char physicalChannel[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_DI_ChangeDetectSupported ***
int32 __CFUNC DAQmxGetPhysicalChanDIChangeDetectSupported(const char physicalChannel[], bool32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_DO_PortWidth ***
int32 __CFUNC DAQmxGetPhysicalChanDOPortWidth(const char physicalChannel[], uInt32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_DO_SampClkSupported ***
int32 __CFUNC DAQmxGetPhysicalChanDOSampClkSupported(const char physicalChannel[], bool32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_DO_SampModes ***
// Uses value set AcquisitionType
int32 __CFUNC DAQmxGetPhysicalChanDOSampModes(const char physicalChannel[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_CI_SupportedMeasTypes ***
// Uses value set CIMeasurementType
int32 __CFUNC DAQmxGetPhysicalChanCISupportedMeasTypes(const char physicalChannel[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_CO_SupportedOutputTypes ***
// Uses value set COOutputType
int32 __CFUNC DAQmxGetPhysicalChanCOSupportedOutputTypes(const char physicalChannel[], int32 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_TEDS_MfgID ***
int32 __CFUNC DAQmxGetPhysicalChanTEDSMfgID(const char physicalChannel[], uInt32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_TEDS_ModelNum ***
int32 __CFUNC DAQmxGetPhysicalChanTEDSModelNum(const char physicalChannel[], uInt32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_TEDS_SerialNum ***
int32 __CFUNC DAQmxGetPhysicalChanTEDSSerialNum(const char physicalChannel[], uInt32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_TEDS_VersionNum ***
int32 __CFUNC DAQmxGetPhysicalChanTEDSVersionNum(const char physicalChannel[], uInt32 *data);
//*** Set/Get functions for DAQmx_PhysicalChan_TEDS_VersionLetter ***
int32 __CFUNC DAQmxGetPhysicalChanTEDSVersionLetter(const char physicalChannel[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_PhysicalChan_TEDS_BitStream ***
int32 __CFUNC DAQmxGetPhysicalChanTEDSBitStream(const char physicalChannel[], uInt8 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_PhysicalChan_TEDS_TemplateIDs ***
int32 __CFUNC DAQmxGetPhysicalChanTEDSTemplateIDs(const char physicalChannel[], uInt32 *data, uInt32 arraySizeInElements);
//********** Read **********
//*** Set/Get functions for DAQmx_Read_RelativeTo ***
// Uses value set ReadRelativeTo
int32 __CFUNC DAQmxGetReadRelativeTo(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetReadRelativeTo(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetReadRelativeTo(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Read_Offset ***
int32 __CFUNC DAQmxGetReadOffset(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetReadOffset(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetReadOffset(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Read_ChannelsToRead ***
int32 __CFUNC DAQmxGetReadChannelsToRead(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetReadChannelsToRead(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetReadChannelsToRead(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Read_ReadAllAvailSamp ***
int32 __CFUNC DAQmxGetReadReadAllAvailSamp(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetReadReadAllAvailSamp(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetReadReadAllAvailSamp(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Read_AutoStart ***
int32 __CFUNC DAQmxGetReadAutoStart(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetReadAutoStart(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetReadAutoStart(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Read_OverWrite ***
// Uses value set OverwriteMode1
int32 __CFUNC DAQmxGetReadOverWrite(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetReadOverWrite(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetReadOverWrite(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Logging_FilePath ***
int32 __CFUNC DAQmxGetLoggingFilePath(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetLoggingFilePath(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetLoggingFilePath(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Logging_Mode ***
// Uses value set LoggingMode
int32 __CFUNC DAQmxGetLoggingMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetLoggingMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetLoggingMode(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Logging_TDMS_GroupName ***
int32 __CFUNC DAQmxGetLoggingTDMSGroupName(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetLoggingTDMSGroupName(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetLoggingTDMSGroupName(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Logging_TDMS_Operation ***
// Uses value set LoggingOperation
int32 __CFUNC DAQmxGetLoggingTDMSOperation(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetLoggingTDMSOperation(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetLoggingTDMSOperation(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Logging_Pause ***
int32 __CFUNC DAQmxGetLoggingPause(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetLoggingPause(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetLoggingPause(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Logging_SampsPerFile ***
int32 __CFUNC DAQmxGetLoggingSampsPerFile(TaskHandle taskHandle, uInt64 *data);
int32 __CFUNC DAQmxSetLoggingSampsPerFile(TaskHandle taskHandle, uInt64 data);
int32 __CFUNC DAQmxResetLoggingSampsPerFile(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Logging_FileWriteSize ***
int32 __CFUNC DAQmxGetLoggingFileWriteSize(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetLoggingFileWriteSize(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetLoggingFileWriteSize(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Logging_FilePreallocationSize ***
int32 __CFUNC DAQmxGetLoggingFilePreallocationSize(TaskHandle taskHandle, uInt64 *data);
int32 __CFUNC DAQmxSetLoggingFilePreallocationSize(TaskHandle taskHandle, uInt64 data);
int32 __CFUNC DAQmxResetLoggingFilePreallocationSize(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Read_CurrReadPos ***
int32 __CFUNC DAQmxGetReadCurrReadPos(TaskHandle taskHandle, uInt64 *data);
//*** Set/Get functions for DAQmx_Read_AvailSampPerChan ***
int32 __CFUNC DAQmxGetReadAvailSampPerChan(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Read_TotalSampPerChanAcquired ***
int32 __CFUNC DAQmxGetReadTotalSampPerChanAcquired(TaskHandle taskHandle, uInt64 *data);
//*** Set/Get functions for DAQmx_Read_CommonModeRangeErrorChansExist ***
int32 __CFUNC DAQmxGetReadCommonModeRangeErrorChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_CommonModeRangeErrorChans ***
int32 __CFUNC DAQmxGetReadCommonModeRangeErrorChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_ExcitFaultChansExist ***
int32 __CFUNC DAQmxGetReadExcitFaultChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_ExcitFaultChans ***
int32 __CFUNC DAQmxGetReadExcitFaultChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_OvercurrentChansExist ***
int32 __CFUNC DAQmxGetReadOvercurrentChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_OvercurrentChans ***
int32 __CFUNC DAQmxGetReadOvercurrentChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_OvertemperatureChansExist ***
int32 __CFUNC DAQmxGetReadOvertemperatureChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_OvertemperatureChans ***
int32 __CFUNC DAQmxGetReadOvertemperatureChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_OpenChansExist ***
int32 __CFUNC DAQmxGetReadOpenChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_OpenChans ***
int32 __CFUNC DAQmxGetReadOpenChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_OpenChansDetails ***
int32 __CFUNC DAQmxGetReadOpenChansDetails(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_OpenCurrentLoopChansExist ***
int32 __CFUNC DAQmxGetReadOpenCurrentLoopChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_OpenCurrentLoopChans ***
int32 __CFUNC DAQmxGetReadOpenCurrentLoopChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_OpenThrmcplChansExist ***
int32 __CFUNC DAQmxGetReadOpenThrmcplChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_OpenThrmcplChans ***
int32 __CFUNC DAQmxGetReadOpenThrmcplChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_OverloadedChansExist ***
int32 __CFUNC DAQmxGetReadOverloadedChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_OverloadedChans ***
int32 __CFUNC DAQmxGetReadOverloadedChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_InputLimitsFaultChansExist ***
int32 __CFUNC DAQmxGetReadInputLimitsFaultChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_InputLimitsFaultChans ***
int32 __CFUNC DAQmxGetReadInputLimitsFaultChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_PLL_UnlockedChansExist ***
int32 __CFUNC DAQmxGetReadPLLUnlockedChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_PLL_UnlockedChans ***
int32 __CFUNC DAQmxGetReadPLLUnlockedChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_PowerSupplyFaultChansExist ***
int32 __CFUNC DAQmxGetReadPowerSupplyFaultChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_PowerSupplyFaultChans ***
int32 __CFUNC DAQmxGetReadPowerSupplyFaultChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_Sync_UnlockedChansExist ***
int32 __CFUNC DAQmxGetReadSyncUnlockedChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_Sync_UnlockedChans ***
int32 __CFUNC DAQmxGetReadSyncUnlockedChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_AccessoryInsertionOrRemovalDetected ***
int32 __CFUNC DAQmxGetReadAccessoryInsertionOrRemovalDetected(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_DevsWithInsertedOrRemovedAccessories ***
int32 __CFUNC DAQmxGetReadDevsWithInsertedOrRemovedAccessories(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Read_ChangeDetect_HasOverflowed ***
int32 __CFUNC DAQmxGetReadChangeDetectHasOverflowed(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Read_RawDataWidth ***
int32 __CFUNC DAQmxGetReadRawDataWidth(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Read_NumChans ***
int32 __CFUNC DAQmxGetReadNumChans(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Read_DigitalLines_BytesPerChan ***
int32 __CFUNC DAQmxGetReadDigitalLinesBytesPerChan(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Read_WaitMode ***
// Uses value set WaitMode
int32 __CFUNC DAQmxGetReadWaitMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetReadWaitMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetReadWaitMode(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Read_SleepTime ***
int32 __CFUNC DAQmxGetReadSleepTime(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetReadSleepTime(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetReadSleepTime(TaskHandle taskHandle);
//********** Real-Time **********
//*** Set/Get functions for DAQmx_RealTime_ConvLateErrorsToWarnings ***
int32 __CFUNC DAQmxGetRealTimeConvLateErrorsToWarnings(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetRealTimeConvLateErrorsToWarnings(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetRealTimeConvLateErrorsToWarnings(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RealTime_NumOfWarmupIters ***
int32 __CFUNC DAQmxGetRealTimeNumOfWarmupIters(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetRealTimeNumOfWarmupIters(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetRealTimeNumOfWarmupIters(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RealTime_WaitForNextSampClkWaitMode ***
// Uses value set WaitMode3
int32 __CFUNC DAQmxGetRealTimeWaitForNextSampClkWaitMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetRealTimeWaitForNextSampClkWaitMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetRealTimeWaitForNextSampClkWaitMode(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RealTime_ReportMissedSamp ***
int32 __CFUNC DAQmxGetRealTimeReportMissedSamp(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetRealTimeReportMissedSamp(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetRealTimeReportMissedSamp(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RealTime_WriteRecoveryMode ***
// Uses value set WaitMode4
int32 __CFUNC DAQmxGetRealTimeWriteRecoveryMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetRealTimeWriteRecoveryMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetRealTimeWriteRecoveryMode(TaskHandle taskHandle);
//********** Scale **********
//*** Set/Get functions for DAQmx_Scale_Descr ***
int32 __CFUNC DAQmxGetScaleDescr(const char scaleName[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetScaleDescr(const char scaleName[], const char *data);
//*** Set/Get functions for DAQmx_Scale_ScaledUnits ***
int32 __CFUNC DAQmxGetScaleScaledUnits(const char scaleName[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetScaleScaledUnits(const char scaleName[], const char *data);
//*** Set/Get functions for DAQmx_Scale_PreScaledUnits ***
// Uses value set UnitsPreScaled
int32 __CFUNC DAQmxGetScalePreScaledUnits(const char scaleName[], int32 *data);
int32 __CFUNC DAQmxSetScalePreScaledUnits(const char scaleName[], int32 data);
//*** Set/Get functions for DAQmx_Scale_Type ***
// Uses value set ScaleType
int32 __CFUNC DAQmxGetScaleType(const char scaleName[], int32 *data);
//*** Set/Get functions for DAQmx_Scale_Lin_Slope ***
int32 __CFUNC DAQmxGetScaleLinSlope(const char scaleName[], float64 *data);
int32 __CFUNC DAQmxSetScaleLinSlope(const char scaleName[], float64 data);
//*** Set/Get functions for DAQmx_Scale_Lin_YIntercept ***
int32 __CFUNC DAQmxGetScaleLinYIntercept(const char scaleName[], float64 *data);
int32 __CFUNC DAQmxSetScaleLinYIntercept(const char scaleName[], float64 data);
//*** Set/Get functions for DAQmx_Scale_Map_ScaledMax ***
int32 __CFUNC DAQmxGetScaleMapScaledMax(const char scaleName[], float64 *data);
int32 __CFUNC DAQmxSetScaleMapScaledMax(const char scaleName[], float64 data);
//*** Set/Get functions for DAQmx_Scale_Map_PreScaledMax ***
int32 __CFUNC DAQmxGetScaleMapPreScaledMax(const char scaleName[], float64 *data);
int32 __CFUNC DAQmxSetScaleMapPreScaledMax(const char scaleName[], float64 data);
//*** Set/Get functions for DAQmx_Scale_Map_ScaledMin ***
int32 __CFUNC DAQmxGetScaleMapScaledMin(const char scaleName[], float64 *data);
int32 __CFUNC DAQmxSetScaleMapScaledMin(const char scaleName[], float64 data);
//*** Set/Get functions for DAQmx_Scale_Map_PreScaledMin ***
int32 __CFUNC DAQmxGetScaleMapPreScaledMin(const char scaleName[], float64 *data);
int32 __CFUNC DAQmxSetScaleMapPreScaledMin(const char scaleName[], float64 data);
//*** Set/Get functions for DAQmx_Scale_Poly_ForwardCoeff ***
int32 __CFUNC DAQmxGetScalePolyForwardCoeff(const char scaleName[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetScalePolyForwardCoeff(const char scaleName[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Scale_Poly_ReverseCoeff ***
int32 __CFUNC DAQmxGetScalePolyReverseCoeff(const char scaleName[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetScalePolyReverseCoeff(const char scaleName[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Scale_Table_ScaledVals ***
int32 __CFUNC DAQmxGetScaleTableScaledVals(const char scaleName[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetScaleTableScaledVals(const char scaleName[], float64 *data, uInt32 arraySizeInElements);
//*** Set/Get functions for DAQmx_Scale_Table_PreScaledVals ***
int32 __CFUNC DAQmxGetScaleTablePreScaledVals(const char scaleName[], float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetScaleTablePreScaledVals(const char scaleName[], float64 *data, uInt32 arraySizeInElements);
//********** Switch Channel **********
//*** Set/Get functions for DAQmx_SwitchChan_Usage ***
// Uses value set SwitchUsageTypes
int32 __CFUNC DAQmxGetSwitchChanUsage(const char switchChannelName[], int32 *data);
int32 __CFUNC DAQmxSetSwitchChanUsage(const char switchChannelName[], int32 data);
//*** Set/Get functions for DAQmx_SwitchChan_AnlgBusSharingEnable ***
int32 __CFUNC DAQmxGetSwitchChanAnlgBusSharingEnable(const char switchChannelName[], bool32 *data);
int32 __CFUNC DAQmxSetSwitchChanAnlgBusSharingEnable(const char switchChannelName[], bool32 data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxACCarryCurrent ***
int32 __CFUNC DAQmxGetSwitchChanMaxACCarryCurrent(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxACSwitchCurrent ***
int32 __CFUNC DAQmxGetSwitchChanMaxACSwitchCurrent(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxACCarryPwr ***
int32 __CFUNC DAQmxGetSwitchChanMaxACCarryPwr(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxACSwitchPwr ***
int32 __CFUNC DAQmxGetSwitchChanMaxACSwitchPwr(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxDCCarryCurrent ***
int32 __CFUNC DAQmxGetSwitchChanMaxDCCarryCurrent(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxDCSwitchCurrent ***
int32 __CFUNC DAQmxGetSwitchChanMaxDCSwitchCurrent(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxDCCarryPwr ***
int32 __CFUNC DAQmxGetSwitchChanMaxDCCarryPwr(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxDCSwitchPwr ***
int32 __CFUNC DAQmxGetSwitchChanMaxDCSwitchPwr(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxACVoltage ***
int32 __CFUNC DAQmxGetSwitchChanMaxACVoltage(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_MaxDCVoltage ***
int32 __CFUNC DAQmxGetSwitchChanMaxDCVoltage(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_WireMode ***
int32 __CFUNC DAQmxGetSwitchChanWireMode(const char switchChannelName[], uInt32 *data);
//*** Set/Get functions for DAQmx_SwitchChan_Bandwidth ***
int32 __CFUNC DAQmxGetSwitchChanBandwidth(const char switchChannelName[], float64 *data);
//*** Set/Get functions for DAQmx_SwitchChan_Impedance ***
int32 __CFUNC DAQmxGetSwitchChanImpedance(const char switchChannelName[], float64 *data);
//********** Switch Device **********
//*** Set/Get functions for DAQmx_SwitchDev_SettlingTime ***
int32 __CFUNC DAQmxGetSwitchDevSettlingTime(const char deviceName[], float64 *data);
int32 __CFUNC DAQmxSetSwitchDevSettlingTime(const char deviceName[], float64 data);
//*** Set/Get functions for DAQmx_SwitchDev_AutoConnAnlgBus ***
int32 __CFUNC DAQmxGetSwitchDevAutoConnAnlgBus(const char deviceName[], bool32 *data);
int32 __CFUNC DAQmxSetSwitchDevAutoConnAnlgBus(const char deviceName[], bool32 data);
//*** Set/Get functions for DAQmx_SwitchDev_PwrDownLatchRelaysAfterSettling ***
int32 __CFUNC DAQmxGetSwitchDevPwrDownLatchRelaysAfterSettling(const char deviceName[], bool32 *data);
int32 __CFUNC DAQmxSetSwitchDevPwrDownLatchRelaysAfterSettling(const char deviceName[], bool32 data);
//*** Set/Get functions for DAQmx_SwitchDev_Settled ***
int32 __CFUNC DAQmxGetSwitchDevSettled(const char deviceName[], bool32 *data);
//*** Set/Get functions for DAQmx_SwitchDev_RelayList ***
int32 __CFUNC DAQmxGetSwitchDevRelayList(const char deviceName[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_SwitchDev_NumRelays ***
int32 __CFUNC DAQmxGetSwitchDevNumRelays(const char deviceName[], uInt32 *data);
//*** Set/Get functions for DAQmx_SwitchDev_SwitchChanList ***
int32 __CFUNC DAQmxGetSwitchDevSwitchChanList(const char deviceName[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_SwitchDev_NumSwitchChans ***
int32 __CFUNC DAQmxGetSwitchDevNumSwitchChans(const char deviceName[], uInt32 *data);
//*** Set/Get functions for DAQmx_SwitchDev_NumRows ***
int32 __CFUNC DAQmxGetSwitchDevNumRows(const char deviceName[], uInt32 *data);
//*** Set/Get functions for DAQmx_SwitchDev_NumColumns ***
int32 __CFUNC DAQmxGetSwitchDevNumColumns(const char deviceName[], uInt32 *data);
//*** Set/Get functions for DAQmx_SwitchDev_Topology ***
int32 __CFUNC DAQmxGetSwitchDevTopology(const char deviceName[], char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_SwitchDev_Temperature ***
int32 __CFUNC DAQmxGetSwitchDevTemperature(const char deviceName[], float64 *data);
//********** Switch Scan **********
//*** Set/Get functions for DAQmx_SwitchScan_BreakMode ***
// Uses value set BreakMode
int32 __CFUNC DAQmxGetSwitchScanBreakMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSwitchScanBreakMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSwitchScanBreakMode(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SwitchScan_RepeatMode ***
// Uses value set SwitchScanRepeatMode
int32 __CFUNC DAQmxGetSwitchScanRepeatMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSwitchScanRepeatMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSwitchScanRepeatMode(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SwitchScan_WaitingForAdv ***
int32 __CFUNC DAQmxGetSwitchScanWaitingForAdv(TaskHandle taskHandle, bool32 *data);
//********** System **********
//*** Set/Get functions for DAQmx_Sys_GlobalChans ***
int32 __CFUNC DAQmxGetSysGlobalChans(char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Sys_Scales ***
int32 __CFUNC DAQmxGetSysScales(char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Sys_Tasks ***
int32 __CFUNC DAQmxGetSysTasks(char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Sys_DevNames ***
int32 __CFUNC DAQmxGetSysDevNames(char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Sys_NIDAQMajorVersion ***
int32 __CFUNC DAQmxGetSysNIDAQMajorVersion(uInt32 *data);
//*** Set/Get functions for DAQmx_Sys_NIDAQMinorVersion ***
int32 __CFUNC DAQmxGetSysNIDAQMinorVersion(uInt32 *data);
//*** Set/Get functions for DAQmx_Sys_NIDAQUpdateVersion ***
int32 __CFUNC DAQmxGetSysNIDAQUpdateVersion(uInt32 *data);
//********** Task **********
//*** Set/Get functions for DAQmx_Task_Name ***
int32 __CFUNC DAQmxGetTaskName(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Task_Channels ***
int32 __CFUNC DAQmxGetTaskChannels(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Task_NumChans ***
int32 __CFUNC DAQmxGetTaskNumChans(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Task_Devices ***
int32 __CFUNC DAQmxGetTaskDevices(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Task_NumDevices ***
int32 __CFUNC DAQmxGetTaskNumDevices(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Task_Complete ***
int32 __CFUNC DAQmxGetTaskComplete(TaskHandle taskHandle, bool32 *data);
//********** Timing **********
//*** Set/Get functions for DAQmx_SampQuant_SampMode ***
// Uses value set AcquisitionType
int32 __CFUNC DAQmxGetSampQuantSampMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSampQuantSampMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSampQuantSampMode(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampQuant_SampPerChan ***
int32 __CFUNC DAQmxGetSampQuantSampPerChan(TaskHandle taskHandle, uInt64 *data);
int32 __CFUNC DAQmxSetSampQuantSampPerChan(TaskHandle taskHandle, uInt64 data);
int32 __CFUNC DAQmxResetSampQuantSampPerChan(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampTimingType ***
// Uses value set SampleTimingType
int32 __CFUNC DAQmxGetSampTimingType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSampTimingType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSampTimingType(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_Rate ***
int32 __CFUNC DAQmxGetSampClkRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetSampClkRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetSampClkRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_MaxRate ***
int32 __CFUNC DAQmxGetSampClkMaxRate(TaskHandle taskHandle, float64 *data);
//*** Set/Get functions for DAQmx_SampClk_Src ***
int32 __CFUNC DAQmxGetSampClkSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetSampClkSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetSampClkSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_ActiveEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetSampClkActiveEdge(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSampClkActiveEdge(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSampClkActiveEdge(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_OverrunBehavior ***
// Uses value set OverflowBehavior
int32 __CFUNC DAQmxGetSampClkOverrunBehavior(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSampClkOverrunBehavior(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSampClkOverrunBehavior(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_UnderflowBehavior ***
// Uses value set UnderflowBehavior
int32 __CFUNC DAQmxGetSampClkUnderflowBehavior(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSampClkUnderflowBehavior(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSampClkUnderflowBehavior(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_TimebaseDiv ***
int32 __CFUNC DAQmxGetSampClkTimebaseDiv(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetSampClkTimebaseDiv(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetSampClkTimebaseDiv(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_Term ***
int32 __CFUNC DAQmxGetSampClkTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_SampClk_Timebase_Rate ***
int32 __CFUNC DAQmxGetSampClkTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetSampClkTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetSampClkTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_Timebase_Src ***
int32 __CFUNC DAQmxGetSampClkTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetSampClkTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetSampClkTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_Timebase_ActiveEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetSampClkTimebaseActiveEdge(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSampClkTimebaseActiveEdge(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSampClkTimebaseActiveEdge(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_Timebase_MasterTimebaseDiv ***
int32 __CFUNC DAQmxGetSampClkTimebaseMasterTimebaseDiv(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetSampClkTimebaseMasterTimebaseDiv(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetSampClkTimebaseMasterTimebaseDiv(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClkTimebase_Term ***
int32 __CFUNC DAQmxGetSampClkTimebaseTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_SampClk_DigFltr_Enable ***
int32 __CFUNC DAQmxGetSampClkDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetSampClkDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetSampClkDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetSampClkDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetSampClkDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetSampClkDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetSampClkDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetSampClkDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetSampClkDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetSampClkDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetSampClkDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetSampClkDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_DigSync_Enable ***
int32 __CFUNC DAQmxGetSampClkDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetSampClkDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetSampClkDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampClk_WriteWfm_UseInitialWfmDT ***
int32 __CFUNC DAQmxGetSampClkWriteWfmUseInitialWfmDT(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetSampClkWriteWfmUseInitialWfmDT(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetSampClkWriteWfmUseInitialWfmDT(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Hshk_DelayAfterXfer ***
int32 __CFUNC DAQmxGetHshkDelayAfterXfer(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetHshkDelayAfterXfer(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetHshkDelayAfterXfer(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Hshk_StartCond ***
// Uses value set HandshakeStartCondition
int32 __CFUNC DAQmxGetHshkStartCond(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetHshkStartCond(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetHshkStartCond(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Hshk_SampleInputDataWhen ***
// Uses value set SampleInputDataWhen
int32 __CFUNC DAQmxGetHshkSampleInputDataWhen(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetHshkSampleInputDataWhen(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetHshkSampleInputDataWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ChangeDetect_DI_RisingEdgePhysicalChans ***
int32 __CFUNC DAQmxGetChangeDetectDIRisingEdgePhysicalChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetChangeDetectDIRisingEdgePhysicalChans(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetChangeDetectDIRisingEdgePhysicalChans(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ChangeDetect_DI_FallingEdgePhysicalChans ***
int32 __CFUNC DAQmxGetChangeDetectDIFallingEdgePhysicalChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetChangeDetectDIFallingEdgePhysicalChans(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetChangeDetectDIFallingEdgePhysicalChans(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ChangeDetect_DI_Tristate ***
int32 __CFUNC DAQmxGetChangeDetectDITristate(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetChangeDetectDITristate(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetChangeDetectDITristate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_OnDemand_SimultaneousAOEnable ***
int32 __CFUNC DAQmxGetOnDemandSimultaneousAOEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetOnDemandSimultaneousAOEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetOnDemandSimultaneousAOEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Implicit_UnderflowBehavior ***
// Uses value set UnderflowBehavior
int32 __CFUNC DAQmxGetImplicitUnderflowBehavior(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetImplicitUnderflowBehavior(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetImplicitUnderflowBehavior(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AIConv_Rate ***
int32 __CFUNC DAQmxGetAIConvRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAIConvRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAIConvRate(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvRateEx(TaskHandle taskHandle, const char deviceNames[], float64 *data);
int32 __CFUNC DAQmxSetAIConvRateEx(TaskHandle taskHandle, const char deviceNames[], float64 data);
int32 __CFUNC DAQmxResetAIConvRateEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_AIConv_MaxRate ***
int32 __CFUNC DAQmxGetAIConvMaxRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxGetAIConvMaxRateEx(TaskHandle taskHandle, const char deviceNames[], float64 *data);
//*** Set/Get functions for DAQmx_AIConv_Src ***
int32 __CFUNC DAQmxGetAIConvSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAIConvSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAIConvSrc(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvSrcEx(TaskHandle taskHandle, const char deviceNames[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAIConvSrcEx(TaskHandle taskHandle, const char deviceNames[], const char *data);
int32 __CFUNC DAQmxResetAIConvSrcEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_AIConv_ActiveEdge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetAIConvActiveEdge(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAIConvActiveEdge(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAIConvActiveEdge(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvActiveEdgeEx(TaskHandle taskHandle, const char deviceNames[], int32 *data);
int32 __CFUNC DAQmxSetAIConvActiveEdgeEx(TaskHandle taskHandle, const char deviceNames[], int32 data);
int32 __CFUNC DAQmxResetAIConvActiveEdgeEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_AIConv_TimebaseDiv ***
int32 __CFUNC DAQmxGetAIConvTimebaseDiv(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetAIConvTimebaseDiv(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetAIConvTimebaseDiv(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvTimebaseDivEx(TaskHandle taskHandle, const char deviceNames[], uInt32 *data);
int32 __CFUNC DAQmxSetAIConvTimebaseDivEx(TaskHandle taskHandle, const char deviceNames[], uInt32 data);
int32 __CFUNC DAQmxResetAIConvTimebaseDivEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_AIConv_Timebase_Src ***
// Uses value set MIOAIConvertTbSrc
int32 __CFUNC DAQmxGetAIConvTimebaseSrc(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAIConvTimebaseSrc(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAIConvTimebaseSrc(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvTimebaseSrcEx(TaskHandle taskHandle, const char deviceNames[], int32 *data);
int32 __CFUNC DAQmxSetAIConvTimebaseSrcEx(TaskHandle taskHandle, const char deviceNames[], int32 data);
int32 __CFUNC DAQmxResetAIConvTimebaseSrcEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_DelayFromSampClk_DelayUnits ***
// Uses value set DigitalWidthUnits2
int32 __CFUNC DAQmxGetDelayFromSampClkDelayUnits(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDelayFromSampClkDelayUnits(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDelayFromSampClkDelayUnits(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetDelayFromSampClkDelayUnitsEx(TaskHandle taskHandle, const char deviceNames[], int32 *data);
int32 __CFUNC DAQmxSetDelayFromSampClkDelayUnitsEx(TaskHandle taskHandle, const char deviceNames[], int32 data);
int32 __CFUNC DAQmxResetDelayFromSampClkDelayUnitsEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_DelayFromSampClk_Delay ***
int32 __CFUNC DAQmxGetDelayFromSampClkDelay(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetDelayFromSampClkDelay(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetDelayFromSampClkDelay(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetDelayFromSampClkDelayEx(TaskHandle taskHandle, const char deviceNames[], float64 *data);
int32 __CFUNC DAQmxSetDelayFromSampClkDelayEx(TaskHandle taskHandle, const char deviceNames[], float64 data);
int32 __CFUNC DAQmxResetDelayFromSampClkDelayEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_AIConv_DigFltr_Enable ***
int32 __CFUNC DAQmxGetAIConvDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAIConvDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAIConvDigFltrEnable(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvDigFltrEnableEx(TaskHandle taskHandle, const char deviceNames[], bool32 *data);
int32 __CFUNC DAQmxSetAIConvDigFltrEnableEx(TaskHandle taskHandle, const char deviceNames[], bool32 data);
int32 __CFUNC DAQmxResetAIConvDigFltrEnableEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_AIConv_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetAIConvDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAIConvDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAIConvDigFltrMinPulseWidth(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvDigFltrMinPulseWidthEx(TaskHandle taskHandle, const char deviceNames[], float64 *data);
int32 __CFUNC DAQmxSetAIConvDigFltrMinPulseWidthEx(TaskHandle taskHandle, const char deviceNames[], float64 data);
int32 __CFUNC DAQmxResetAIConvDigFltrMinPulseWidthEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_AIConv_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetAIConvDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAIConvDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAIConvDigFltrTimebaseSrc(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvDigFltrTimebaseSrcEx(TaskHandle taskHandle, const char deviceNames[], char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAIConvDigFltrTimebaseSrcEx(TaskHandle taskHandle, const char deviceNames[], const char *data);
int32 __CFUNC DAQmxResetAIConvDigFltrTimebaseSrcEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_AIConv_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetAIConvDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAIConvDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAIConvDigFltrTimebaseRate(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvDigFltrTimebaseRateEx(TaskHandle taskHandle, const char deviceNames[], float64 *data);
int32 __CFUNC DAQmxSetAIConvDigFltrTimebaseRateEx(TaskHandle taskHandle, const char deviceNames[], float64 data);
int32 __CFUNC DAQmxResetAIConvDigFltrTimebaseRateEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_AIConv_DigSync_Enable ***
int32 __CFUNC DAQmxGetAIConvDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAIConvDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAIConvDigSyncEnable(TaskHandle taskHandle);
int32 __CFUNC DAQmxGetAIConvDigSyncEnableEx(TaskHandle taskHandle, const char deviceNames[], bool32 *data);
int32 __CFUNC DAQmxSetAIConvDigSyncEnableEx(TaskHandle taskHandle, const char deviceNames[], bool32 data);
int32 __CFUNC DAQmxResetAIConvDigSyncEnableEx(TaskHandle taskHandle, const char deviceNames[]);
//*** Set/Get functions for DAQmx_MasterTimebase_Rate ***
int32 __CFUNC DAQmxGetMasterTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetMasterTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetMasterTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_MasterTimebase_Src ***
int32 __CFUNC DAQmxGetMasterTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetMasterTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetMasterTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefClk_Rate ***
int32 __CFUNC DAQmxGetRefClkRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetRefClkRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetRefClkRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefClk_Src ***
int32 __CFUNC DAQmxGetRefClkSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetRefClkSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetRefClkSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SyncPulse_Type ***
// Uses value set SyncPulseType
int32 __CFUNC DAQmxGetSyncPulseType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSyncPulseType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSyncPulseType(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SyncPulse_Src ***
int32 __CFUNC DAQmxGetSyncPulseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetSyncPulseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetSyncPulseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SyncPulse_Time_When ***
int32 __CFUNC DAQmxGetSyncPulseTimeWhen(TaskHandle taskHandle, CVIAbsoluteTime *data);
int32 __CFUNC DAQmxSetSyncPulseTimeWhen(TaskHandle taskHandle, CVIAbsoluteTime data);
int32 __CFUNC DAQmxResetSyncPulseTimeWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SyncPulse_Time_Timescale ***
// Uses value set Timescale2
int32 __CFUNC DAQmxGetSyncPulseTimeTimescale(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSyncPulseTimeTimescale(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSyncPulseTimeTimescale(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SyncPulse_SyncTime ***
int32 __CFUNC DAQmxGetSyncPulseSyncTime(TaskHandle taskHandle, float64 *data);
//*** Set/Get functions for DAQmx_SyncPulse_MinDelayToStart ***
int32 __CFUNC DAQmxGetSyncPulseMinDelayToStart(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetSyncPulseMinDelayToStart(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetSyncPulseMinDelayToStart(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SyncPulse_ResetTime ***
int32 __CFUNC DAQmxGetSyncPulseResetTime(TaskHandle taskHandle, float64 *data);
//*** Set/Get functions for DAQmx_SyncPulse_ResetDelay ***
int32 __CFUNC DAQmxGetSyncPulseResetDelay(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetSyncPulseResetDelay(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetSyncPulseResetDelay(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SyncPulse_Term ***
int32 __CFUNC DAQmxGetSyncPulseTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_SyncClk_Interval ***
int32 __CFUNC DAQmxGetSyncClkInterval(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetSyncClkInterval(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetSyncClkInterval(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_SampTimingEngine ***
int32 __CFUNC DAQmxGetSampTimingEngine(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetSampTimingEngine(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetSampTimingEngine(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_FirstSampTimestamp_Enable ***
int32 __CFUNC DAQmxGetFirstSampTimestampEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetFirstSampTimestampEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetFirstSampTimestampEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_FirstSampTimestamp_Timescale ***
// Uses value set Timescale2
int32 __CFUNC DAQmxGetFirstSampTimestampTimescale(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetFirstSampTimestampTimescale(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetFirstSampTimestampTimescale(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_FirstSampTimestamp_Val ***
int32 __CFUNC DAQmxGetFirstSampTimestampVal(TaskHandle taskHandle, CVIAbsoluteTime *data);
//*** Set/Get functions for DAQmx_FirstSampClk_When ***
int32 __CFUNC DAQmxGetFirstSampClkWhen(TaskHandle taskHandle, CVIAbsoluteTime *data);
int32 __CFUNC DAQmxSetFirstSampClkWhen(TaskHandle taskHandle, CVIAbsoluteTime data);
int32 __CFUNC DAQmxResetFirstSampClkWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_FirstSampClk_Timescale ***
// Uses value set Timescale2
int32 __CFUNC DAQmxGetFirstSampClkTimescale(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetFirstSampClkTimescale(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetFirstSampClkTimescale(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_FirstSampClk_Offset ***
int32 __CFUNC DAQmxGetFirstSampClkOffset(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetFirstSampClkOffset(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetFirstSampClkOffset(TaskHandle taskHandle);
//********** Trigger **********
//*** Set/Get functions for DAQmx_StartTrig_Type ***
// Uses value set TriggerType10
int32 __CFUNC DAQmxGetStartTrigType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetStartTrigType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetStartTrigType(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_Term ***
int32 __CFUNC DAQmxGetStartTrigTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_DigEdge_StartTrig_Src ***
int32 __CFUNC DAQmxGetDigEdgeStartTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigEdgeStartTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigEdgeStartTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_StartTrig_Edge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetDigEdgeStartTrigEdge(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDigEdgeStartTrigEdge(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDigEdgeStartTrigEdge(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_StartTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetDigEdgeStartTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetDigEdgeStartTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetDigEdgeStartTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_StartTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetDigEdgeStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetDigEdgeStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetDigEdgeStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_StartTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetDigEdgeStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigEdgeStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigEdgeStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_StartTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetDigEdgeStartTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetDigEdgeStartTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetDigEdgeStartTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_StartTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetDigEdgeStartTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetDigEdgeStartTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetDigEdgeStartTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigPattern_StartTrig_Src ***
int32 __CFUNC DAQmxGetDigPatternStartTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigPatternStartTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigPatternStartTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigPattern_StartTrig_Pattern ***
int32 __CFUNC DAQmxGetDigPatternStartTrigPattern(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigPatternStartTrigPattern(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigPatternStartTrigPattern(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigPattern_StartTrig_When ***
// Uses value set DigitalPatternCondition1
int32 __CFUNC DAQmxGetDigPatternStartTrigWhen(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDigPatternStartTrigWhen(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDigPatternStartTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_Src ***
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_Slope ***
// Uses value set Slope1
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigSlope(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigSlope(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigSlope(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_Lvl ***
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigLvl(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigLvl(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigLvl(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_Hyst ***
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigHyst(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigHyst(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigHyst(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_Coupling ***
// Uses value set Coupling2
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigCoupling(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigCoupling(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigCoupling(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_StartTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetAnlgEdgeStartTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgEdgeStartTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgEdgeStartTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_StartTrig_Srcs ***
int32 __CFUNC DAQmxGetAnlgMultiEdgeStartTrigSrcs(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgMultiEdgeStartTrigSrcs(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgMultiEdgeStartTrigSrcs(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_StartTrig_Slopes ***
// Uses value set Slope1
int32 __CFUNC DAQmxGetAnlgMultiEdgeStartTrigSlopes(TaskHandle taskHandle, int32 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAnlgMultiEdgeStartTrigSlopes(TaskHandle taskHandle, int32 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAnlgMultiEdgeStartTrigSlopes(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_StartTrig_Lvls ***
int32 __CFUNC DAQmxGetAnlgMultiEdgeStartTrigLvls(TaskHandle taskHandle, float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAnlgMultiEdgeStartTrigLvls(TaskHandle taskHandle, float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAnlgMultiEdgeStartTrigLvls(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_StartTrig_Hysts ***
int32 __CFUNC DAQmxGetAnlgMultiEdgeStartTrigHysts(TaskHandle taskHandle, float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAnlgMultiEdgeStartTrigHysts(TaskHandle taskHandle, float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAnlgMultiEdgeStartTrigHysts(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_StartTrig_Couplings ***
// Uses value set Coupling2
int32 __CFUNC DAQmxGetAnlgMultiEdgeStartTrigCouplings(TaskHandle taskHandle, int32 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAnlgMultiEdgeStartTrigCouplings(TaskHandle taskHandle, int32 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAnlgMultiEdgeStartTrigCouplings(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_Src ***
int32 __CFUNC DAQmxGetAnlgWinStartTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgWinStartTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_When ***
// Uses value set WindowTriggerCondition1
int32 __CFUNC DAQmxGetAnlgWinStartTrigWhen(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgWinStartTrigWhen(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_Top ***
int32 __CFUNC DAQmxGetAnlgWinStartTrigTop(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinStartTrigTop(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigTop(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_Btm ***
int32 __CFUNC DAQmxGetAnlgWinStartTrigBtm(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinStartTrigBtm(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigBtm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_Coupling ***
// Uses value set Coupling2
int32 __CFUNC DAQmxGetAnlgWinStartTrigCoupling(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgWinStartTrigCoupling(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigCoupling(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetAnlgWinStartTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgWinStartTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetAnlgWinStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetAnlgWinStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgWinStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetAnlgWinStartTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinStartTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_StartTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetAnlgWinStartTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgWinStartTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgWinStartTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_TrigWhen ***
int32 __CFUNC DAQmxGetStartTrigTrigWhen(TaskHandle taskHandle, CVIAbsoluteTime *data);
int32 __CFUNC DAQmxSetStartTrigTrigWhen(TaskHandle taskHandle, CVIAbsoluteTime data);
int32 __CFUNC DAQmxResetStartTrigTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_Timescale ***
// Uses value set Timescale2
int32 __CFUNC DAQmxGetStartTrigTimescale(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetStartTrigTimescale(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetStartTrigTimescale(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_TimestampEnable ***
int32 __CFUNC DAQmxGetStartTrigTimestampEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetStartTrigTimestampEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetStartTrigTimestampEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_TimestampTimescale ***
// Uses value set Timescale2
int32 __CFUNC DAQmxGetStartTrigTimestampTimescale(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetStartTrigTimestampTimescale(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetStartTrigTimestampTimescale(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_TimestampVal ***
int32 __CFUNC DAQmxGetStartTrigTimestampVal(TaskHandle taskHandle, CVIAbsoluteTime *data);
//*** Set/Get functions for DAQmx_StartTrig_Delay ***
int32 __CFUNC DAQmxGetStartTrigDelay(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetStartTrigDelay(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetStartTrigDelay(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_DelayUnits ***
// Uses value set DigitalWidthUnits1
int32 __CFUNC DAQmxGetStartTrigDelayUnits(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetStartTrigDelayUnits(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetStartTrigDelayUnits(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_Retriggerable ***
int32 __CFUNC DAQmxGetStartTrigRetriggerable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetStartTrigRetriggerable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetStartTrigRetriggerable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_TrigWin ***
int32 __CFUNC DAQmxGetStartTrigTrigWin(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetStartTrigTrigWin(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetStartTrigTrigWin(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_RetriggerWin ***
int32 __CFUNC DAQmxGetStartTrigRetriggerWin(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetStartTrigRetriggerWin(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetStartTrigRetriggerWin(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_StartTrig_MaxNumTrigsToDetect ***
int32 __CFUNC DAQmxGetStartTrigMaxNumTrigsToDetect(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetStartTrigMaxNumTrigsToDetect(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetStartTrigMaxNumTrigsToDetect(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_Type ***
// Uses value set TriggerType8
int32 __CFUNC DAQmxGetRefTrigType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetRefTrigType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetRefTrigType(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_PretrigSamples ***
int32 __CFUNC DAQmxGetRefTrigPretrigSamples(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetRefTrigPretrigSamples(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetRefTrigPretrigSamples(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_Term ***
int32 __CFUNC DAQmxGetRefTrigTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_DigEdge_RefTrig_Src ***
int32 __CFUNC DAQmxGetDigEdgeRefTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigEdgeRefTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigEdgeRefTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_RefTrig_Edge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetDigEdgeRefTrigEdge(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDigEdgeRefTrigEdge(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDigEdgeRefTrigEdge(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_RefTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetDigEdgeRefTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetDigEdgeRefTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetDigEdgeRefTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_RefTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetDigEdgeRefTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetDigEdgeRefTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetDigEdgeRefTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_RefTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetDigEdgeRefTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigEdgeRefTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigEdgeRefTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_RefTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetDigEdgeRefTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetDigEdgeRefTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetDigEdgeRefTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_RefTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetDigEdgeRefTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetDigEdgeRefTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetDigEdgeRefTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigPattern_RefTrig_Src ***
int32 __CFUNC DAQmxGetDigPatternRefTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigPatternRefTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigPatternRefTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigPattern_RefTrig_Pattern ***
int32 __CFUNC DAQmxGetDigPatternRefTrigPattern(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigPatternRefTrigPattern(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigPatternRefTrigPattern(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigPattern_RefTrig_When ***
// Uses value set DigitalPatternCondition1
int32 __CFUNC DAQmxGetDigPatternRefTrigWhen(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDigPatternRefTrigWhen(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDigPatternRefTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_Src ***
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_Slope ***
// Uses value set Slope1
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigSlope(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigSlope(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigSlope(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_Lvl ***
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigLvl(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigLvl(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigLvl(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_Hyst ***
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigHyst(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigHyst(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigHyst(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_Coupling ***
// Uses value set Coupling2
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigCoupling(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigCoupling(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigCoupling(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgEdge_RefTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetAnlgEdgeRefTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgEdgeRefTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgEdgeRefTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_RefTrig_Srcs ***
int32 __CFUNC DAQmxGetAnlgMultiEdgeRefTrigSrcs(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgMultiEdgeRefTrigSrcs(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgMultiEdgeRefTrigSrcs(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_RefTrig_Slopes ***
// Uses value set Slope1
int32 __CFUNC DAQmxGetAnlgMultiEdgeRefTrigSlopes(TaskHandle taskHandle, int32 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAnlgMultiEdgeRefTrigSlopes(TaskHandle taskHandle, int32 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAnlgMultiEdgeRefTrigSlopes(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_RefTrig_Lvls ***
int32 __CFUNC DAQmxGetAnlgMultiEdgeRefTrigLvls(TaskHandle taskHandle, float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAnlgMultiEdgeRefTrigLvls(TaskHandle taskHandle, float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAnlgMultiEdgeRefTrigLvls(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_RefTrig_Hysts ***
int32 __CFUNC DAQmxGetAnlgMultiEdgeRefTrigHysts(TaskHandle taskHandle, float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAnlgMultiEdgeRefTrigHysts(TaskHandle taskHandle, float64 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAnlgMultiEdgeRefTrigHysts(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgMultiEdge_RefTrig_Couplings ***
// Uses value set Coupling2
int32 __CFUNC DAQmxGetAnlgMultiEdgeRefTrigCouplings(TaskHandle taskHandle, int32 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxSetAnlgMultiEdgeRefTrigCouplings(TaskHandle taskHandle, int32 *data, uInt32 arraySizeInElements);
int32 __CFUNC DAQmxResetAnlgMultiEdgeRefTrigCouplings(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_Src ***
int32 __CFUNC DAQmxGetAnlgWinRefTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgWinRefTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_When ***
// Uses value set WindowTriggerCondition1
int32 __CFUNC DAQmxGetAnlgWinRefTrigWhen(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgWinRefTrigWhen(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_Top ***
int32 __CFUNC DAQmxGetAnlgWinRefTrigTop(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinRefTrigTop(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigTop(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_Btm ***
int32 __CFUNC DAQmxGetAnlgWinRefTrigBtm(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinRefTrigBtm(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigBtm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_Coupling ***
// Uses value set Coupling2
int32 __CFUNC DAQmxGetAnlgWinRefTrigCoupling(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgWinRefTrigCoupling(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigCoupling(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetAnlgWinRefTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgWinRefTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetAnlgWinRefTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinRefTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetAnlgWinRefTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgWinRefTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetAnlgWinRefTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinRefTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_RefTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetAnlgWinRefTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgWinRefTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgWinRefTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_AutoTrigEnable ***
int32 __CFUNC DAQmxGetRefTrigAutoTrigEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetRefTrigAutoTrigEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetRefTrigAutoTrigEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_AutoTriggered ***
int32 __CFUNC DAQmxGetRefTrigAutoTriggered(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_RefTrig_TimestampEnable ***
int32 __CFUNC DAQmxGetRefTrigTimestampEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetRefTrigTimestampEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetRefTrigTimestampEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_TimestampTimescale ***
// Uses value set Timescale2
int32 __CFUNC DAQmxGetRefTrigTimestampTimescale(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetRefTrigTimestampTimescale(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetRefTrigTimestampTimescale(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_TimestampVal ***
int32 __CFUNC DAQmxGetRefTrigTimestampVal(TaskHandle taskHandle, CVIAbsoluteTime *data);
//*** Set/Get functions for DAQmx_RefTrig_Delay ***
int32 __CFUNC DAQmxGetRefTrigDelay(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetRefTrigDelay(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetRefTrigDelay(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_Retriggerable ***
int32 __CFUNC DAQmxGetRefTrigRetriggerable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetRefTrigRetriggerable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetRefTrigRetriggerable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_TrigWin ***
int32 __CFUNC DAQmxGetRefTrigTrigWin(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetRefTrigTrigWin(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetRefTrigTrigWin(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_RetriggerWin ***
int32 __CFUNC DAQmxGetRefTrigRetriggerWin(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetRefTrigRetriggerWin(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetRefTrigRetriggerWin(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_RefTrig_MaxNumTrigsToDetect ***
int32 __CFUNC DAQmxGetRefTrigMaxNumTrigsToDetect(TaskHandle taskHandle, uInt32 *data);
int32 __CFUNC DAQmxSetRefTrigMaxNumTrigsToDetect(TaskHandle taskHandle, uInt32 data);
int32 __CFUNC DAQmxResetRefTrigMaxNumTrigsToDetect(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AdvTrig_Type ***
// Uses value set TriggerType5
int32 __CFUNC DAQmxGetAdvTrigType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAdvTrigType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAdvTrigType(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_AdvTrig_Src ***
int32 __CFUNC DAQmxGetDigEdgeAdvTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigEdgeAdvTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigEdgeAdvTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_AdvTrig_Edge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetDigEdgeAdvTrigEdge(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDigEdgeAdvTrigEdge(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDigEdgeAdvTrigEdge(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_AdvTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetDigEdgeAdvTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetDigEdgeAdvTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetDigEdgeAdvTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_HshkTrig_Type ***
// Uses value set TriggerType9
int32 __CFUNC DAQmxGetHshkTrigType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetHshkTrigType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetHshkTrigType(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Interlocked_HshkTrig_Src ***
int32 __CFUNC DAQmxGetInterlockedHshkTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetInterlockedHshkTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetInterlockedHshkTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Interlocked_HshkTrig_AssertedLvl ***
// Uses value set Level1
int32 __CFUNC DAQmxGetInterlockedHshkTrigAssertedLvl(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetInterlockedHshkTrigAssertedLvl(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetInterlockedHshkTrigAssertedLvl(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_PauseTrig_Type ***
// Uses value set TriggerType6
int32 __CFUNC DAQmxGetPauseTrigType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetPauseTrigType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetPauseTrigType(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_PauseTrig_Term ***
int32 __CFUNC DAQmxGetPauseTrigTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_Src ***
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_When ***
// Uses value set ActiveLevel
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigWhen(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigWhen(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_Lvl ***
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigLvl(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigLvl(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigLvl(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_Hyst ***
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigHyst(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigHyst(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigHyst(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_Coupling ***
// Uses value set Coupling2
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigCoupling(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigCoupling(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigCoupling(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgLvl_PauseTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetAnlgLvlPauseTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgLvlPauseTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgLvlPauseTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_Src ***
int32 __CFUNC DAQmxGetAnlgWinPauseTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_When ***
// Uses value set WindowTriggerCondition2
int32 __CFUNC DAQmxGetAnlgWinPauseTrigWhen(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigWhen(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_Top ***
int32 __CFUNC DAQmxGetAnlgWinPauseTrigTop(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigTop(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigTop(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_Btm ***
int32 __CFUNC DAQmxGetAnlgWinPauseTrigBtm(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigBtm(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigBtm(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_Coupling ***
// Uses value set Coupling2
int32 __CFUNC DAQmxGetAnlgWinPauseTrigCoupling(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigCoupling(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigCoupling(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetAnlgWinPauseTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetAnlgWinPauseTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetAnlgWinPauseTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetAnlgWinPauseTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_AnlgWin_PauseTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetAnlgWinPauseTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetAnlgWinPauseTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetAnlgWinPauseTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigLvl_PauseTrig_Src ***
int32 __CFUNC DAQmxGetDigLvlPauseTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigLvlPauseTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigLvlPauseTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigLvl_PauseTrig_When ***
// Uses value set Level1
int32 __CFUNC DAQmxGetDigLvlPauseTrigWhen(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDigLvlPauseTrigWhen(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDigLvlPauseTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigLvl_PauseTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetDigLvlPauseTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetDigLvlPauseTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetDigLvlPauseTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigLvl_PauseTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetDigLvlPauseTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetDigLvlPauseTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetDigLvlPauseTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigLvl_PauseTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetDigLvlPauseTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigLvlPauseTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigLvlPauseTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigLvl_PauseTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetDigLvlPauseTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetDigLvlPauseTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetDigLvlPauseTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigLvl_PauseTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetDigLvlPauseTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetDigLvlPauseTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetDigLvlPauseTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigPattern_PauseTrig_Src ***
int32 __CFUNC DAQmxGetDigPatternPauseTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigPatternPauseTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigPatternPauseTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigPattern_PauseTrig_Pattern ***
int32 __CFUNC DAQmxGetDigPatternPauseTrigPattern(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigPatternPauseTrigPattern(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigPatternPauseTrigPattern(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigPattern_PauseTrig_When ***
// Uses value set DigitalPatternCondition1
int32 __CFUNC DAQmxGetDigPatternPauseTrigWhen(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDigPatternPauseTrigWhen(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDigPatternPauseTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ArmStartTrig_Type ***
// Uses value set TriggerType4
int32 __CFUNC DAQmxGetArmStartTrigType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetArmStartTrigType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetArmStartTrigType(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ArmStart_Term ***
int32 __CFUNC DAQmxGetArmStartTerm(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_DigEdge_ArmStartTrig_Src ***
int32 __CFUNC DAQmxGetDigEdgeArmStartTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigEdgeArmStartTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigEdgeArmStartTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_ArmStartTrig_Edge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetDigEdgeArmStartTrigEdge(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDigEdgeArmStartTrigEdge(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDigEdgeArmStartTrigEdge(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_ArmStartTrig_DigFltr_Enable ***
int32 __CFUNC DAQmxGetDigEdgeArmStartTrigDigFltrEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetDigEdgeArmStartTrigDigFltrEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetDigEdgeArmStartTrigDigFltrEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_ArmStartTrig_DigFltr_MinPulseWidth ***
int32 __CFUNC DAQmxGetDigEdgeArmStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetDigEdgeArmStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetDigEdgeArmStartTrigDigFltrMinPulseWidth(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_ArmStartTrig_DigFltr_TimebaseSrc ***
int32 __CFUNC DAQmxGetDigEdgeArmStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigEdgeArmStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigEdgeArmStartTrigDigFltrTimebaseSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_ArmStartTrig_DigFltr_TimebaseRate ***
int32 __CFUNC DAQmxGetDigEdgeArmStartTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetDigEdgeArmStartTrigDigFltrTimebaseRate(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetDigEdgeArmStartTrigDigFltrTimebaseRate(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_ArmStartTrig_DigSync_Enable ***
int32 __CFUNC DAQmxGetDigEdgeArmStartTrigDigSyncEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetDigEdgeArmStartTrigDigSyncEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetDigEdgeArmStartTrigDigSyncEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ArmStartTrig_TrigWhen ***
int32 __CFUNC DAQmxGetArmStartTrigTrigWhen(TaskHandle taskHandle, CVIAbsoluteTime *data);
int32 __CFUNC DAQmxSetArmStartTrigTrigWhen(TaskHandle taskHandle, CVIAbsoluteTime data);
int32 __CFUNC DAQmxResetArmStartTrigTrigWhen(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ArmStartTrig_Timescale ***
// Uses value set Timescale2
int32 __CFUNC DAQmxGetArmStartTrigTimescale(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetArmStartTrigTimescale(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetArmStartTrigTimescale(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ArmStartTrig_TimestampEnable ***
int32 __CFUNC DAQmxGetArmStartTrigTimestampEnable(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetArmStartTrigTimestampEnable(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetArmStartTrigTimestampEnable(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ArmStartTrig_TimestampTimescale ***
// Uses value set Timescale2
int32 __CFUNC DAQmxGetArmStartTrigTimestampTimescale(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetArmStartTrigTimestampTimescale(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetArmStartTrigTimestampTimescale(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_ArmStartTrig_TimestampVal ***
int32 __CFUNC DAQmxGetArmStartTrigTimestampVal(TaskHandle taskHandle, CVIAbsoluteTime *data);
//*** Set/Get functions for DAQmx_Trigger_SyncType ***
// Uses value set SyncType
int32 __CFUNC DAQmxGetTriggerSyncType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetTriggerSyncType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetTriggerSyncType(TaskHandle taskHandle);
//********** Watchdog **********
//*** Set/Get functions for DAQmx_Watchdog_Timeout ***
int32 __CFUNC DAQmxGetWatchdogTimeout(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetWatchdogTimeout(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetWatchdogTimeout(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_WatchdogExpirTrig_Type ***
// Uses value set TriggerType4
int32 __CFUNC DAQmxGetWatchdogExpirTrigType(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetWatchdogExpirTrigType(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetWatchdogExpirTrigType(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_WatchdogExpirTrig_TrigOnNetworkConnLoss ***
int32 __CFUNC DAQmxGetWatchdogExpirTrigTrigOnNetworkConnLoss(TaskHandle taskHandle, bool32 *data);
int32 __CFUNC DAQmxSetWatchdogExpirTrigTrigOnNetworkConnLoss(TaskHandle taskHandle, bool32 data);
int32 __CFUNC DAQmxResetWatchdogExpirTrigTrigOnNetworkConnLoss(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_WatchdogExpirTrig_Src ***
int32 __CFUNC DAQmxGetDigEdgeWatchdogExpirTrigSrc(TaskHandle taskHandle, char *data, uInt32 bufferSize);
int32 __CFUNC DAQmxSetDigEdgeWatchdogExpirTrigSrc(TaskHandle taskHandle, const char *data);
int32 __CFUNC DAQmxResetDigEdgeWatchdogExpirTrigSrc(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_DigEdge_WatchdogExpirTrig_Edge ***
// Uses value set Edge1
int32 __CFUNC DAQmxGetDigEdgeWatchdogExpirTrigEdge(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetDigEdgeWatchdogExpirTrigEdge(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetDigEdgeWatchdogExpirTrigEdge(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Watchdog_DO_ExpirState ***
// Uses value set DigitalLineState
int32 __CFUNC DAQmxGetWatchdogDOExpirState(TaskHandle taskHandle, const char lines[], int32 *data);
int32 __CFUNC DAQmxSetWatchdogDOExpirState(TaskHandle taskHandle, const char lines[], int32 data);
int32 __CFUNC DAQmxResetWatchdogDOExpirState(TaskHandle taskHandle, const char lines[]);
//*** Set/Get functions for DAQmx_Watchdog_AO_OutputType ***
// Uses value set WatchdogAOExpirState
int32 __CFUNC DAQmxGetWatchdogAOOutputType(TaskHandle taskHandle, const char lines[], int32 *data);
int32 __CFUNC DAQmxSetWatchdogAOOutputType(TaskHandle taskHandle, const char lines[], int32 data);
int32 __CFUNC DAQmxResetWatchdogAOOutputType(TaskHandle taskHandle, const char lines[]);
//*** Set/Get functions for DAQmx_Watchdog_AO_ExpirState ***
int32 __CFUNC DAQmxGetWatchdogAOExpirState(TaskHandle taskHandle, const char lines[], float64 *data);
int32 __CFUNC DAQmxSetWatchdogAOExpirState(TaskHandle taskHandle, const char lines[], float64 data);
int32 __CFUNC DAQmxResetWatchdogAOExpirState(TaskHandle taskHandle, const char lines[]);
//*** Set/Get functions for DAQmx_Watchdog_CO_ExpirState ***
// Uses value set WatchdogCOExpirState
int32 __CFUNC DAQmxGetWatchdogCOExpirState(TaskHandle taskHandle, const char lines[], int32 *data);
int32 __CFUNC DAQmxSetWatchdogCOExpirState(TaskHandle taskHandle, const char lines[], int32 data);
int32 __CFUNC DAQmxResetWatchdogCOExpirState(TaskHandle taskHandle, const char lines[]);
//*** Set/Get functions for DAQmx_Watchdog_HasExpired ***
int32 __CFUNC DAQmxGetWatchdogHasExpired(TaskHandle taskHandle, bool32 *data);
//********** Write **********
//*** Set/Get functions for DAQmx_Write_RelativeTo ***
// Uses value set WriteRelativeTo
int32 __CFUNC DAQmxGetWriteRelativeTo(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetWriteRelativeTo(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetWriteRelativeTo(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Write_Offset ***
int32 __CFUNC DAQmxGetWriteOffset(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetWriteOffset(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetWriteOffset(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Write_RegenMode ***
// Uses value set RegenerationMode1
int32 __CFUNC DAQmxGetWriteRegenMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetWriteRegenMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetWriteRegenMode(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Write_CurrWritePos ***
int32 __CFUNC DAQmxGetWriteCurrWritePos(TaskHandle taskHandle, uInt64 *data);
//*** Set/Get functions for DAQmx_Write_OvercurrentChansExist ***
int32 __CFUNC DAQmxGetWriteOvercurrentChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Write_OvercurrentChans ***
int32 __CFUNC DAQmxGetWriteOvercurrentChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Write_OvertemperatureChansExist ***
int32 __CFUNC DAQmxGetWriteOvertemperatureChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Write_OvertemperatureChans ***
int32 __CFUNC DAQmxGetWriteOvertemperatureChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Write_ExternalOvervoltageChansExist ***
int32 __CFUNC DAQmxGetWriteExternalOvervoltageChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Write_ExternalOvervoltageChans ***
int32 __CFUNC DAQmxGetWriteExternalOvervoltageChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Write_OverloadedChansExist ***
int32 __CFUNC DAQmxGetWriteOverloadedChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Write_OverloadedChans ***
int32 __CFUNC DAQmxGetWriteOverloadedChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Write_OpenCurrentLoopChansExist ***
int32 __CFUNC DAQmxGetWriteOpenCurrentLoopChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Write_OpenCurrentLoopChans ***
int32 __CFUNC DAQmxGetWriteOpenCurrentLoopChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Write_PowerSupplyFaultChansExist ***
int32 __CFUNC DAQmxGetWritePowerSupplyFaultChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Write_PowerSupplyFaultChans ***
int32 __CFUNC DAQmxGetWritePowerSupplyFaultChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Write_Sync_UnlockedChansExist ***
int32 __CFUNC DAQmxGetWriteSyncUnlockedChansExist(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Write_Sync_UnlockedChans ***
int32 __CFUNC DAQmxGetWriteSyncUnlockedChans(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Write_SpaceAvail ***
int32 __CFUNC DAQmxGetWriteSpaceAvail(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Write_TotalSampPerChanGenerated ***
int32 __CFUNC DAQmxGetWriteTotalSampPerChanGenerated(TaskHandle taskHandle, uInt64 *data);
//*** Set/Get functions for DAQmx_Write_AccessoryInsertionOrRemovalDetected ***
int32 __CFUNC DAQmxGetWriteAccessoryInsertionOrRemovalDetected(TaskHandle taskHandle, bool32 *data);
//*** Set/Get functions for DAQmx_Write_DevsWithInsertedOrRemovedAccessories ***
int32 __CFUNC DAQmxGetWriteDevsWithInsertedOrRemovedAccessories(TaskHandle taskHandle, char *data, uInt32 bufferSize);
//*** Set/Get functions for DAQmx_Write_RawDataWidth ***
int32 __CFUNC DAQmxGetWriteRawDataWidth(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Write_NumChans ***
int32 __CFUNC DAQmxGetWriteNumChans(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_Write_WaitMode ***
// Uses value set WaitMode2
int32 __CFUNC DAQmxGetWriteWaitMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetWriteWaitMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetWriteWaitMode(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Write_SleepTime ***
int32 __CFUNC DAQmxGetWriteSleepTime(TaskHandle taskHandle, float64 *data);
int32 __CFUNC DAQmxSetWriteSleepTime(TaskHandle taskHandle, float64 data);
int32 __CFUNC DAQmxResetWriteSleepTime(TaskHandle taskHandle);
//*** Set/Get functions for DAQmx_Write_DigitalLines_BytesPerChan ***
int32 __CFUNC DAQmxGetWriteDigitalLinesBytesPerChan(TaskHandle taskHandle, uInt32 *data);
//*** Set/Get functions for DAQmx_SampClk_TimingResponseMode ***
// Uses value set TimingResponseMode
// Obsolete - always returns 0
int32 __CFUNC DAQmxGetSampClkTimingResponseMode(TaskHandle taskHandle, int32 *data);
int32 __CFUNC DAQmxSetSampClkTimingResponseMode(TaskHandle taskHandle, int32 data);
int32 __CFUNC DAQmxResetSampClkTimingResponseMode(TaskHandle taskHandle);
/******************************************************************************
*** NI-DAQmx Error Codes *****************************************************
******************************************************************************/
#define DAQmxSuccess (0)
#define DAQmxFailed(error) ((error)<0)
// Error and Warning Codes
#define DAQmxErrorDebugSessionNotAllowedTimingSourceRegistered (-209880)
#define DAQmxErrorDebugSessionNotAllowedWhenLogging (-209879)
#define DAQmxErrorDebugSessionNotAllowedEventRegistered (-209878)
#define DAQmxErrorInvalidTargetTaskForDebugSession (-209877)
#define DAQmxErrorFunctionNotSupportedForDevice (-209876)
#define DAQmxErrorMultipleTargetTasksFoundForDebugSession (-209875)
#define DAQmxErrorTargetTaskNotFoundForDebugSession (-209874)
#define DAQmxErrorOperationNotSupportedInDebugSession (-209873)
#define DAQmxErrorOperationNotPermittedInMonitorModeForDebugSession (-209872)
#define DAQmxErrorGetActiveDevPrptyFailedDueToDifftVals (-209871)
#define DAQmxErrorTaskAlreadyRegisteredATimingSource (-209870)
#define DAQmxErrorFilterNotSupportedOnHWRev (-209869)
#define DAQmxErrorSensorPowerSupplyVoltageLevel (-209868)
#define DAQmxErrorSensorPowerSupply (-209867)
#define DAQmxErrorInvalidScanlist (-209866)
#define DAQmxErrorTimeResourceCannotBeRouted (-209865)
#define DAQmxErrorInvalidResetDelayRequested (-209864)
#define DAQmxErrorExceededTotalTimetriggersAvailable (-209863)
#define DAQmxErrorExceededTotalTimestampsAvailable (-209862)
#define DAQmxErrorNoSynchronizationProtocolRunning (-209861)
#define DAQmxErrorConflictingCoherencyRequirements (-209860)
#define DAQmxErrorNoSharedTimescale (-209859)
#define DAQmxErrorInvalidFieldDAQBankName (-209858)
#define DAQmxErrorDeviceDoesNotSupportHWTSP (-209857)
#define DAQmxErrorBankTypeDoesNotMatchBankTypeInDestination (-209856)
#define DAQmxErrorInvalidFieldDAQBankNumberSpecd (-209855)
#define DAQmxErrorUnsupportedSimulatedBankForSimulatedFieldDAQ (-209854)
#define DAQmxErrorFieldDAQBankSimMustMatchFieldDAQSim (-209853)
#define DAQmxErrorDevNoLongerSupportedWithinDAQmxAPI (-209852)
#define DAQmxErrorTimingEngineDoesNotSupportOnBoardMemory (-209851)
#define DAQmxErrorDuplicateTaskCrossProject (-209850)
#define DAQmxErrorTimeStartTriggerBeforeArmStartTrigger (-209849)
#define DAQmxErrorTimeTriggerCannotBeSet (-209848)
#define DAQmxErrorInvalidTriggerWindowValue (-209847)
#define DAQmxErrorCannotQueryPropertyBeforeOrDuringAcquisition (-209846)
#define DAQmxErrorSampleClockTimebaseNotSupported (-209845)
#define DAQmxErrorTimestampNotYetReceived (-209844)
#define DAQmxErrorTimeTriggerNotSupported (-209843)
#define DAQmxErrorTimestampNotEnabled (-209842)
#define DAQmxErrorTimeTriggersInconsistent (-209841)
#define DAQmxErrorTriggerConfiguredIsInThePast (-209840)
#define DAQmxErrorTriggerConfiguredIsTooFarFromCurrentTime (-209839)
#define DAQmxErrorSynchronizationLockLost (-209838)
#define DAQmxErrorInconsistentTimescales (-209837)
#define DAQmxErrorCannotSynchronizeDevices (-209836)
#define DAQmxErrorAssociatedChansHaveAttributeConflictWithMultipleMaxMinRanges (-209835)
#define DAQmxErrorSampleRateNumChansOrAttributeValues (-209834)
#define DAQmxErrorWaitForValidTimestampNotSupported (-209833)
#define DAQmxErrorTrigWinTimeoutExpired (-209832)
#define DAQmxErrorInvalidTriggerCfgForDevice (-209831)
#define DAQmxErrorInvalidDataTransferMechanismForDevice (-209830)
#define DAQmxErrorInputFIFOOverflow3 (-209829)
#define DAQmxErrorTooManyDevicesForAnalogMultiEdgeTrigCDAQ (-209828)
#define DAQmxErrorTooManyTriggersTypesSpecifiedInTask (-209827)
#define DAQmxErrorMismatchedMultiTriggerConfigValues (-209826)
#define DAQmxErrorInconsistentAODACRangeAcrossTasks (-209825)
#define DAQmxErrorInconsistentDTToWrite (-209824)
#define DAQmxErrorFunctionObsolete (-209823)
#define DAQmxErrorNegativeDurationNotSupported (-209822)
#define DAQmxErrorDurationTooSmall (-209821)
#define DAQmxErrorDurationTooLong (-209820)
#define DAQmxErrorDurationBasedNotSupportedForSpecifiedTimingMode (-209819)
#define DAQmxErrorInvalidLEDState (-209818)
#define DAQmxErrorWatchdogStatesNotUniform (-209817)
#define DAQmxErrorSelfTestFailedPowerSupplyOutOfTolerance (-209816)
#define DAQmxErrorHWTSPMultiSampleWrite (-209815)
#define DAQmxErrorOnboardRegenExceedsChannelLimit (-209814)
#define DAQmxErrorWatchdogChannelExpirationStateNotSpecified (-209813)
#define DAQmxErrorInvalidShuntSourceForCalibration (-209812)
#define DAQmxErrorInvalidShuntSelectForCalibration (-209811)
#define DAQmxErrorInvalidShuntCalibrationConfiguration (-209810)
#define DAQmxErrorBufferedOperationsNotSupportedOnChannelStandalone (-209809)
#define DAQmxErrorFeatureNotAvailableOnAccessory (-209808)
#define DAQmxErrorInconsistentThreshVoltageAcrossTerminals (-209807)
#define DAQmxErrorDAQmxIsNotInstalledOnTarget (-209806)
#define DAQmxErrorCOCannotKeepUpInHWTimedSinglePoint (-209805)
#define DAQmxErrorWaitForNextSampClkDetected3OrMoreSampClks (-209803)
#define DAQmxErrorWaitForNextSampClkDetectedMissedSampClk (-209802)
#define DAQmxErrorWriteNotCompleteBeforeSampClk (-209801)
#define DAQmxErrorReadNotCompleteBeforeSampClk (-209800)
#define DAQmxErrorInconsistentDigitalFilteringAcrossTerminals (-201510)
#define DAQmxErrorInconsistentPullUpCfgAcrossTerminals (-201509)
#define DAQmxErrorInconsistentTermCfgAcrossTerminals (-201508)
#define DAQmxErrorVCXODCMBecameUnlocked (-201507)
#define DAQmxErrorPLLDACUpdateFailed (-201506)
#define DAQmxErrorNoCabledDevice (-201505)
#define DAQmxErrorLostRefClk (-201504)
#define DAQmxErrorCantUseAITimingEngineWithCounters (-201503)
#define DAQmxErrorDACOffsetValNotSet (-201502)
#define DAQmxErrorCalAdjustRefValOutOfRange (-201501)
#define DAQmxErrorChansForCalAdjustMustPerformSetContext (-201500)
#define DAQmxErrorGetCalDataInvalidForCalMode (-201499)
#define DAQmxErrorNoIEPEWithACNotAllowed (-201498)
#define DAQmxErrorSetupCalNeededBeforeGetCalDataPoints (-201497)
#define DAQmxErrorVoltageNotCalibrated (-201496)
#define DAQmxErrorMissingRangeForCalibration (-201495)
#define DAQmxErrorMultipleChansNotSupportedDuringCalAdjust (-201494)
#define DAQmxErrorShuntCalFailedOutOfRange (-201493)
#define DAQmxErrorOperationNotSupportedOnSimulatedDevice (-201492)
#define DAQmxErrorFirmwareVersionSameAsInstalledVersion (-201491)
#define DAQmxErrorFirmwareVersionOlderThanInstalledVersion (-201490)
#define DAQmxErrorFirmwareUpdateInvalidState (-201489)
#define DAQmxErrorFirmwareUpdateInvalidID (-201488)
#define DAQmxErrorFirmwareUpdateAutomaticManagementEnabled (-201487)
#define DAQmxErrorSetupCalibrationNotCalled (-201486)
#define DAQmxErrorCalMeasuredDataSizeVsActualDataSizeMismatch (-201485)
#define DAQmxErrorCDAQMissingDSAMasterForChanExpansion (-201484)
#define DAQmxErrorCDAQMasterNotFoundForChanExpansion (-201483)
#define DAQmxErrorAllChansShouldBeProvidedForCalibration (-201482)
#define DAQmxErrorMustSpecifyExpirationStateForAllLinesInRange (-201481)
#define DAQmxErrorOpenSessionExists (-201480)
#define DAQmxErrorCannotQueryTerminalForSWArmStart (-201479)
#define DAQmxErrorChassisWatchdogTimerExpired (-201478)
#define DAQmxErrorCantReserveWatchdogTaskWhileOtherTasksReserved (-201477)
#define DAQmxErrorCantReserveTaskWhileWatchdogTaskReserving (-201476)
#define DAQmxErrorAuxPowerSourceRequired (-201475)
#define DAQmxErrorDeviceNotSupportedOnLocalSystem (-201474)
#define DAQmxErrorOneTimestampChannelRequiredForCombinedNavigationRead (-201472)
#define DAQmxErrorMultDevsMultPhysChans (-201471)
#define DAQmxErrorInvalidCalAdjustmentPointValues (-201470)
#define DAQmxErrorDifferentDigitizerFromCommunicator (-201469)
#define DAQmxErrorCDAQSyncMasterClockNotPresent (-201468)
#define DAQmxErrorAssociatedChansHaveConflictingProps (-201467)
#define DAQmxErrorAutoConfigBetweenMultipleDeviceStatesInvalid (-201466)
#define DAQmxErrorAutoConfigOfOfflineDevicesInvalid (-201465)
#define DAQmxErrorExternalFIFOFault (-201464)
#define DAQmxErrorConnectionsNotReciprocal (-201463)
#define DAQmxErrorInvalidOutputToInputCDAQSyncConnection (-201462)
#define DAQmxErrorReferenceClockNotPresent (-201461)
#define DAQmxErrorBlankStringExpansionFoundNoSupportedCDAQSyncConnectionDevices (-201460)
#define DAQmxErrorNoDevicesSupportCDAQSyncConnections (-201459)
#define DAQmxErrorInvalidCDAQSyncTimeoutValue (-201458)
#define DAQmxErrorCDAQSyncConnectionToSamePort (-201457)
#define DAQmxErrorDevsWithoutCommonSyncConnectionStrategy (-201456)
#define DAQmxErrorNoCDAQSyncBetweenPhysAndSimulatedDevs (-201455)
#define DAQmxErrorUnableToContainCards (-201454)
#define DAQmxErrorFindDisconnectedBetweenPhysAndSimDeviceStatesInvalid (-201453)
#define DAQmxErrorOperationAborted (-201452)
#define DAQmxErrorTwoPortsRequired (-201451)
#define DAQmxErrorDeviceDoesNotSupportCDAQSyncConnections (-201450)
#define DAQmxErrorInvalidcDAQSyncPortConnectionFormat (-201449)
#define DAQmxErrorRosetteMeasurementsNotSpecified (-201448)
#define DAQmxErrorInvalidNumOfPhysChansForDeltaRosette (-201447)
#define DAQmxErrorInvalidNumOfPhysChansForTeeRosette (-201446)
#define DAQmxErrorRosetteStrainChanNamesNeeded (-201445)
#define DAQmxErrorMultideviceWithOnDemandTiming (-201444)
#define DAQmxErrorFREQOUTCannotProduceDesiredFrequency3 (-201443)
#define DAQmxErrorTwoEdgeSeparationSameTerminalSameEdge (-201442)
#define DAQmxErrorDontMixSyncPulseAndSampClkTimebaseOn449x (-201441)
#define DAQmxErrorNeitherRefClkNorSampClkTimebaseConfiguredForDSASync (-201440)
#define DAQmxErrorRetriggeringFiniteCONotAllowed (-201439)
#define DAQmxErrorDeviceRebootedFromWDTTimeout (-201438)
#define DAQmxErrorTimeoutValueExceedsMaximum (-201437)
#define DAQmxErrorSharingDifferentWireModes (-201436)
#define DAQmxErrorCantPrimeWithEmptyBuffer (-201435)
#define DAQmxErrorConfigFailedBecauseWatchdogExpired (-201434)
#define DAQmxErrorWriteFailedBecauseWatchdogChangedLineDirection (-201433)
#define DAQmxErrorMultipleSubsytemCalibration (-201432)
#define DAQmxErrorIncorrectChannelForOffsetAdjustment (-201431)
#define DAQmxErrorInvalidNumRefVoltagesToWrite (-201430)
#define DAQmxErrorStartTrigDelayWithDSAModule (-201429)
#define DAQmxErrorMoreThanOneSyncPulseDetected (-201428)
#define DAQmxErrorDevNotSupportedWithinDAQmxAPI (-201427)
#define DAQmxErrorDevsWithoutSyncStrategies (-201426)
#define DAQmxErrorDevsWithoutCommonSyncStrategy (-201425)
#define DAQmxErrorSyncStrategiesCannotSync (-201424)
#define DAQmxErrorChassisCommunicationInterrupted (-201423)
#define DAQmxErrorUnknownCardPowerProfileInCarrier (-201422)
#define DAQmxErrorAttrNotSupportedOnAccessory (-201421)
#define DAQmxErrorNetworkDeviceReservedByAnotherHost (-201420)
#define DAQmxErrorIncorrectFirmwareFileUploaded (-201419)
#define DAQmxErrorInvalidFirmwareFileUploaded (-201418)
#define DAQmxErrorInTimerTimeoutOnArm (-201417)
#define DAQmxErrorCantExceedSlotRelayDriveLimit (-201416)
#define DAQmxErrorModuleUnsupportedFor9163 (-201415)
#define DAQmxErrorConnectionsNotSupported (-201414)
#define DAQmxErrorAccessoryNotPresent (-201413)
#define DAQmxErrorSpecifiedAccessoryChannelsNotPresentOnDevice (-201412)
#define DAQmxErrorConnectionsNotSupportedOnAccessory (-201411)
#define DAQmxErrorRateTooFastForHWTSP (-201410)
#define DAQmxErrorDelayFromSampleClockOutOfRangeForHWTSP (-201409)
#define DAQmxErrorAveragingWhenNotInternalHWTSP (-201408)
#define DAQmxErrorAttributeNotSupportedUnlessHWTSP (-201407)
#define DAQmxErrorFiveVoltDetectFailed (-201406)
#define DAQmxErrorAnalogBusStateInconsistent (-201405)
#define DAQmxErrorCardDetectedDoesNotMatchExpectedCard (-201404)
#define DAQmxErrorLoggingStartNewFileNotCalled (-201403)
#define DAQmxErrorLoggingSampsPerFileNotDivisible (-201402)
#define DAQmxErrorRetrievingNetworkDeviceProperties (-201401)
#define DAQmxErrorFilePreallocationFailed (-201400)
#define DAQmxErrorModuleMismatchInSameTimedTask (-201399)
#define DAQmxErrorInvalidAttributeValuePossiblyDueToOtherAttributeValues (-201398)
#define DAQmxErrorChangeDetectionStoppedToPreventDeviceHang (-201397)
#define DAQmxErrorFilterDelayRemovalNotPosssibleWithAnalogTrigger (-201396)
#define DAQmxErrorNonbufferedOrNoChannels (-201395)
#define DAQmxErrorTristateLogicLevelNotSpecdForEntirePort (-201394)
#define DAQmxErrorTristateLogicLevelNotSupportedOnDigOutChan (-201393)
#define DAQmxErrorTristateLogicLevelNotSupported (-201392)
#define DAQmxErrorIncompleteGainAndCouplingCalAdjustment (-201391)
#define DAQmxErrorNetworkStatusConnectionLost (-201390)
#define DAQmxErrorModuleChangeDuringConnectionLoss (-201389)
#define DAQmxErrorNetworkDeviceNotReservedByHost (-201388)
#define DAQmxErrorDuplicateCalibrationAdjustmentInput (-201387)
#define DAQmxErrorSelfCalFailedContactTechSupport (-201386)
#define DAQmxErrorSelfCalFailedToConverge (-201385)
#define DAQmxErrorUnsupportedSimulatedModuleForSimulatedChassis (-201384)
#define DAQmxErrorLoggingWriteSizeTooBig (-201383)
#define DAQmxErrorLoggingWriteSizeNotDivisible (-201382)
#define DAQmxErrorMyDAQPowerRailFault (-201381)
#define DAQmxErrorDeviceDoesNotSupportThisOperation (-201380)
#define DAQmxErrorNetworkDevicesNotSupportedOnThisPlatform (-201379)
#define DAQmxErrorUnknownFirmwareVersion (-201378)
#define DAQmxErrorFirmwareIsUpdating (-201377)
#define DAQmxErrorAccessoryEEPROMIsCorrupt (-201376)
#define DAQmxErrorThrmcplLeadOffsetNullingCalNotSupported (-201375)
#define DAQmxErrorSelfCalFailedTryExtCal (-201374)
#define DAQmxErrorOutputP2PNotSupportedWithMultithreadedScripts (-201373)
#define DAQmxErrorThrmcplCalibrationChannelsOpen (-201372)
#define DAQmxErrorMDNSServiceInstanceAlreadyInUse (-201371)
#define DAQmxErrorIPAddressAlreadyInUse (-201370)
#define DAQmxErrorHostnameAlreadyInUse (-201369)
#define DAQmxErrorInvalidNumberOfCalAdjustmentPoints (-201368)
#define DAQmxErrorFilterOrDigitalSyncInternalSignal (-201367)
#define DAQmxErrorBadDDSSource (-201366)
#define DAQmxErrorOnboardRegenWithMoreThan16Channels (-201365)
#define DAQmxErrorTriggerTooFast (-201364)
#define DAQmxErrorMinMaxOutsideTableRange (-201363)
#define DAQmxErrorChannelExpansionWithInvalidAnalogTriggerDevice (-201362)
#define DAQmxErrorSyncPulseSrcInvalidForTask (-201361)
#define DAQmxErrorInvalidCarrierSlotNumberSpecd (-201360)
#define DAQmxErrorCardsMustBeInSameCarrier (-201359)
#define DAQmxErrorCardDevCarrierSimMustMatch (-201358)
#define DAQmxErrorDevMustHaveAtLeastOneCard (-201357)
#define DAQmxErrorCardTopologyError (-201356)
#define DAQmxErrorExceededCarrierPowerLimit (-201355)
#define DAQmxErrorCardsIncompatible (-201354)
#define DAQmxErrorAnalogBusNotValid (-201353)
#define DAQmxErrorReservationConflict (-201352)
#define DAQmxErrorMemMappedOnDemandNotSupported (-201351)
#define DAQmxErrorSlaveWithNoStartTriggerConfigured (-201350)
#define DAQmxErrorChannelExpansionWithDifferentTriggerDevices (-201349)
#define DAQmxErrorCounterSyncAndRetriggered (-201348)
#define DAQmxErrorNoExternalSyncPulseDetected (-201347)
#define DAQmxErrorSlaveAndNoExternalSyncPulse (-201346)
#define DAQmxErrorCustomTimingRequiredForAttribute (-201345)
#define DAQmxErrorCustomTimingModeNotSet (-201344)
#define DAQmxErrorAccessoryPowerTripped (-201343)
#define DAQmxErrorUnsupportedAccessory (-201342)
#define DAQmxErrorInvalidAccessoryChange (-201341)
#define DAQmxErrorFirmwareRequiresUpgrade (-201340)
#define DAQmxErrorFastExternalTimebaseNotSupportedForDevice (-201339)
#define DAQmxErrorInvalidShuntLocationForCalibration (-201338)
#define DAQmxErrorDeviceNameTooLong (-201337)
#define DAQmxErrorBridgeScalesUnsupported (-201336)
#define DAQmxErrorMismatchedElecPhysValues (-201335)
#define DAQmxErrorLinearRequiresUniquePoints (-201334)
#define DAQmxErrorMissingRequiredScalingParameter (-201333)
#define DAQmxErrorLoggingNotSupportOnOutputTasks (-201332)
#define DAQmxErrorMemoryMappedHardwareTimedNonBufferedUnsupported (-201331)
#define DAQmxErrorCannotUpdatePulseTrainWithAutoIncrementEnabled (-201330)
#define DAQmxErrorHWTimedSinglePointAndDataXferNotDMA (-201329)
#define DAQmxErrorSCCSecondStageEmpty (-201328)
#define DAQmxErrorSCCInvalidDualStageCombo (-201327)
#define DAQmxErrorSCCInvalidSecondStage (-201326)
#define DAQmxErrorSCCInvalidFirstStage (-201325)
#define DAQmxErrorCounterMultipleSampleClockedChannels (-201324)
#define DAQmxError2CounterMeasurementModeAndSampleClocked (-201323)
#define DAQmxErrorCantHaveBothMemMappedAndNonMemMappedTasks (-201322)
#define DAQmxErrorMemMappedDataReadByAnotherProcess (-201321)
#define DAQmxErrorRetriggeringInvalidForGivenSettings (-201320)
#define DAQmxErrorAIOverrun (-201319)
#define DAQmxErrorCOOverrun (-201318)
#define DAQmxErrorCounterMultipleBufferedChannels (-201317)
#define DAQmxErrorInvalidTimebaseForCOHWTSP (-201316)
#define DAQmxErrorWriteBeforeEvent (-201315)
#define DAQmxErrorCIOverrun (-201314)
#define DAQmxErrorCounterNonResponsiveAndReset (-201313)
#define DAQmxErrorMeasTypeOrChannelNotSupportedForLogging (-201312)
#define DAQmxErrorFileAlreadyOpenedForWrite (-201311)
#define DAQmxErrorTdmsNotFound (-201310)
#define DAQmxErrorGenericFileIO (-201309)
#define DAQmxErrorFiniteSTCCounterNotSupportedForLogging (-201308)
#define DAQmxErrorMeasurementTypeNotSupportedForLogging (-201307)
#define DAQmxErrorFileAlreadyOpened (-201306)
#define DAQmxErrorDiskFull (-201305)
#define DAQmxErrorFilePathInvalid (-201304)
#define DAQmxErrorFileVersionMismatch (-201303)
#define DAQmxErrorFileWriteProtected (-201302)
#define DAQmxErrorReadNotSupportedForLoggingMode (-201301)
#define DAQmxErrorAttributeNotSupportedWhenLogging (-201300)
#define DAQmxErrorLoggingModeNotSupportedNonBuffered (-201299)
#define DAQmxErrorPropertyNotSupportedWithConflictingProperty (-201298)
#define DAQmxErrorParallelSSHOnConnector1 (-201297)
#define DAQmxErrorCOOnlyImplicitSampleTimingTypeSupported (-201296)
#define DAQmxErrorCalibrationFailedAOOutOfRange (-201295)
#define DAQmxErrorCalibrationFailedAIOutOfRange (-201294)
#define DAQmxErrorCalPWMLinearityFailed (-201293)
#define DAQmxErrorOverrunUnderflowConfigurationCombo (-201292)
#define DAQmxErrorCannotWriteToFiniteCOTask (-201291)
#define DAQmxErrorNetworkDAQInvalidWEPKeyLength (-201290)
#define DAQmxErrorCalInputsShortedNotSupported (-201289)
#define DAQmxErrorCannotSetPropertyWhenTaskIsReserved (-201288)
#define DAQmxErrorMinus12VFuseBlown (-201287)
#define DAQmxErrorPlus12VFuseBlown (-201286)
#define DAQmxErrorPlus5VFuseBlown (-201285)
#define DAQmxErrorPlus3VFuseBlown (-201284)
#define DAQmxErrorDeviceSerialPortError (-201283)
#define DAQmxErrorPowerUpStateMachineNotDone (-201282)
#define DAQmxErrorTooManyTriggersSpecifiedInTask (-201281)
#define DAQmxErrorVerticalOffsetNotSupportedOnDevice (-201280)
#define DAQmxErrorInvalidCouplingForMeasurementType (-201279)
#define DAQmxErrorDigitalLineUpdateTooFastForDevice (-201278)
#define DAQmxErrorCertificateIsTooBigToTransfer (-201277)
#define DAQmxErrorOnlyPEMOrDERCertiticatesAccepted (-201276)
#define DAQmxErrorCalCouplingNotSupported (-201275)
#define DAQmxErrorDeviceNotSupportedIn64Bit (-201274)
#define DAQmxErrorNetworkDeviceInUse (-201273)
#define DAQmxErrorInvalidIPv4AddressFormat (-201272)
#define DAQmxErrorNetworkProductTypeMismatch (-201271)
#define DAQmxErrorOnlyPEMCertificatesAccepted (-201270)
#define DAQmxErrorCalibrationRequiresPrototypingBoardEnabled (-201269)
#define DAQmxErrorAllCurrentLimitingResourcesAlreadyTaken (-201268)
#define DAQmxErrorUserDefInfoStringBadLength (-201267)
#define DAQmxErrorPropertyNotFound (-201266)
#define DAQmxErrorOverVoltageProtectionActivated (-201265)
#define DAQmxErrorScaledIQWaveformTooLarge (-201264)
#define DAQmxErrorFirmwareFailedToDownload (-201263)
#define DAQmxErrorPropertyNotSupportedForBusType (-201262)
#define DAQmxErrorChangeRateWhileRunningCouldNotBeCompleted (-201261)
#define DAQmxErrorCannotQueryManualControlAttribute (-201260)
#define DAQmxErrorInvalidNetworkConfiguration (-201259)
#define DAQmxErrorInvalidWirelessConfiguration (-201258)
#define DAQmxErrorInvalidWirelessCountryCode (-201257)
#define DAQmxErrorInvalidWirelessChannel (-201256)
#define DAQmxErrorNetworkEEPROMHasChanged (-201255)
#define DAQmxErrorNetworkSerialNumberMismatch (-201254)
#define DAQmxErrorNetworkStatusDown (-201253)
#define DAQmxErrorNetworkTargetUnreachable (-201252)
#define DAQmxErrorNetworkTargetNotFound (-201251)
#define DAQmxErrorNetworkStatusTimedOut (-201250)
#define DAQmxErrorInvalidWirelessSecuritySelection (-201249)
#define DAQmxErrorNetworkDeviceConfigurationLocked (-201248)
#define DAQmxErrorNetworkDAQDeviceNotSupported (-201247)
#define DAQmxErrorNetworkDAQCannotCreateEmptySleeve (-201246)
#define DAQmxErrorUserDefInfoStringTooLong (-201245)
#define DAQmxErrorModuleTypeDoesNotMatchModuleTypeInDestination (-201244)
#define DAQmxErrorInvalidTEDSInterfaceAddress (-201243)
#define DAQmxErrorDevDoesNotSupportSCXIComm (-201242)
#define DAQmxErrorSCXICommDevConnector0MustBeCabledToModule (-201241)
#define DAQmxErrorSCXIModuleDoesNotSupportDigitizationMode (-201240)
#define DAQmxErrorDevDoesNotSupportMultiplexedSCXIDigitizationMode (-201239)
#define DAQmxErrorDevOrDevPhysChanDoesNotSupportSCXIDigitization (-201238)
#define DAQmxErrorInvalidPhysChanName (-201237)
#define DAQmxErrorSCXIChassisCommModeInvalid (-201236)
#define DAQmxErrorRequiredDependencyNotFound (-201235)
#define DAQmxErrorInvalidStorage (-201234)
#define DAQmxErrorInvalidObject (-201233)
#define DAQmxErrorStorageAlteredPriorToSave (-201232)
#define DAQmxErrorTaskDoesNotReferenceLocalChannel (-201231)
#define DAQmxErrorReferencedDevSimMustMatchTarget (-201230)
#define DAQmxErrorProgrammedIOFailsBecauseOfWatchdogTimer (-201229)
#define DAQmxErrorWatchdogTimerFailsBecauseOfProgrammedIO (-201228)
#define DAQmxErrorCantUseThisTimingEngineWithAPort (-201227)
#define DAQmxErrorProgrammedIOConflict (-201226)
#define DAQmxErrorChangeDetectionIncompatibleWithProgrammedIO (-201225)
#define DAQmxErrorTristateNotEnoughLines (-201224)
#define DAQmxErrorTristateConflict (-201223)
#define DAQmxErrorGenerateOrFiniteWaitExpectedBeforeBreakBlock (-201222)
#define DAQmxErrorBreakBlockNotAllowedInLoop (-201221)
#define DAQmxErrorClearTriggerNotAllowedInBreakBlock (-201220)
#define DAQmxErrorNestingNotAllowedInBreakBlock (-201219)
#define DAQmxErrorIfElseBlockNotAllowedInBreakBlock (-201218)
#define DAQmxErrorRepeatUntilTriggerLoopNotAllowedInBreakBlock (-201217)
#define DAQmxErrorWaitUntilTriggerNotAllowedInBreakBlock (-201216)
#define DAQmxErrorMarkerPosInvalidInBreakBlock (-201215)
#define DAQmxErrorInvalidWaitDurationInBreakBlock (-201214)
#define DAQmxErrorInvalidSubsetLengthInBreakBlock (-201213)
#define DAQmxErrorInvalidWaveformLengthInBreakBlock (-201212)
#define DAQmxErrorInvalidWaitDurationBeforeBreakBlock (-201211)
#define DAQmxErrorInvalidSubsetLengthBeforeBreakBlock (-201210)
#define DAQmxErrorInvalidWaveformLengthBeforeBreakBlock (-201209)
#define DAQmxErrorSampleRateTooHighForADCTimingMode (-201208)
#define DAQmxErrorActiveDevNotSupportedWithMultiDevTask (-201207)
#define DAQmxErrorRealDevAndSimDevNotSupportedInSameTask (-201206)
#define DAQmxErrorRTSISimMustMatchDevSim (-201205)
#define DAQmxErrorBridgeShuntCaNotSupported (-201204)
#define DAQmxErrorStrainShuntCaNotSupported (-201203)
#define DAQmxErrorGainTooLargeForGainCalConst (-201202)
#define DAQmxErrorOffsetTooLargeForOffsetCalConst (-201201)
#define DAQmxErrorElvisPrototypingBoardRemoved (-201200)
#define DAQmxErrorElvis2PowerRailFault (-201199)
#define DAQmxErrorElvis2PhysicalChansFault (-201198)
#define DAQmxErrorElvis2PhysicalChansThermalEvent (-201197)
#define DAQmxErrorRXBitErrorRateLimitExceeded (-201196)
#define DAQmxErrorPHYBitErrorRateLimitExceeded (-201195)
#define DAQmxErrorTwoPartAttributeCalledOutOfOrder (-201194)
#define DAQmxErrorInvalidSCXIChassisAddress (-201193)
#define DAQmxErrorCouldNotConnectToRemoteMXS (-201192)
#define DAQmxErrorExcitationStateRequiredForAttributes (-201191)
#define DAQmxErrorDeviceNotUsableUntilUSBReplug (-201190)
#define DAQmxErrorInputFIFOOverflowDuringCalibrationOnFullSpeedUSB (-201189)
#define DAQmxErrorInputFIFOOverflowDuringCalibration (-201188)
#define DAQmxErrorCJCChanConflictsWithNonThermocoupleChan (-201187)
#define DAQmxErrorCommDeviceForPXIBackplaneNotInRightmostSlot (-201186)
#define DAQmxErrorCommDeviceForPXIBackplaneNotInSameChassis (-201185)
#define DAQmxErrorCommDeviceForPXIBackplaneNotPXI (-201184)
#define DAQmxErrorInvalidCalExcitFrequency (-201183)
#define DAQmxErrorInvalidCalExcitVoltage (-201182)
#define DAQmxErrorInvalidAIInputSrc (-201181)
#define DAQmxErrorInvalidCalInputRef (-201180)
#define DAQmxErrordBReferenceValueNotGreaterThanZero (-201179)
#define DAQmxErrorSampleClockRateIsTooFastForSampleClockTiming (-201178)
#define DAQmxErrorDeviceNotUsableUntilColdStart (-201177)
#define DAQmxErrorSampleClockRateIsTooFastForBurstTiming (-201176)
#define DAQmxErrorDevImportFailedAssociatedResourceIDsNotSupported (-201175)
#define DAQmxErrorSCXI1600ImportNotSupported (-201174)
#define DAQmxErrorPowerSupplyConfigurationFailed (-201173)
#define DAQmxErrorIEPEWithDCNotAllowed (-201172)
#define DAQmxErrorMinTempForThermocoupleTypeOutsideAccuracyForPolyScaling (-201171)
#define DAQmxErrorDevImportFailedNoDeviceToOverwriteAndSimulationNotSupported (-201170)
#define DAQmxErrorDevImportFailedDeviceNotSupportedOnDestination (-201169)
#define DAQmxErrorFirmwareIsTooOld (-201168)
#define DAQmxErrorFirmwareCouldntUpdate (-201167)
#define DAQmxErrorFirmwareIsCorrupt (-201166)
#define DAQmxErrorFirmwareTooNew (-201165)
#define DAQmxErrorSampClockCannotBeExportedFromExternalSampClockSrc (-201164)
#define DAQmxErrorPhysChanReservedForInputWhenDesiredForOutput (-201163)
#define DAQmxErrorPhysChanReservedForOutputWhenDesiredForInput (-201162)
#define DAQmxErrorSpecifiedCDAQSlotNotEmpty (-201161)
#define DAQmxErrorDeviceDoesNotSupportSimulation (-201160)
#define DAQmxErrorInvalidCDAQSlotNumberSpecd (-201159)
#define DAQmxErrorCSeriesModSimMustMatchCDAQChassisSim (-201158)
#define DAQmxErrorSCCCabledDevMustNotBeSimWhenSCCCarrierIsNotSim (-201157)
#define DAQmxErrorSCCModSimMustMatchSCCCarrierSim (-201156)
#define DAQmxErrorSCXIModuleDoesNotSupportSimulation (-201155)
#define DAQmxErrorSCXICableDevMustNotBeSimWhenModIsNotSim (-201154)
#define DAQmxErrorSCXIDigitizerSimMustNotBeSimWhenModIsNotSim (-201153)
#define DAQmxErrorSCXIModSimMustMatchSCXIChassisSim (-201152)
#define DAQmxErrorSimPXIDevReqSlotAndChassisSpecd (-201151)
#define DAQmxErrorSimDevConflictWithRealDev (-201150)
#define DAQmxErrorInsufficientDataForCalibration (-201149)
#define DAQmxErrorTriggerChannelMustBeEnabled (-201148)
#define DAQmxErrorCalibrationDataConflictCouldNotBeResolved (-201147)
#define DAQmxErrorSoftwareTooNewForSelfCalibrationData (-201146)
#define DAQmxErrorSoftwareTooNewForExtCalibrationData (-201145)
#define DAQmxErrorSelfCalibrationDataTooNewForSoftware (-201144)
#define DAQmxErrorExtCalibrationDataTooNewForSoftware (-201143)
#define DAQmxErrorSoftwareTooNewForEEPROM (-201142)
#define DAQmxErrorEEPROMTooNewForSoftware (-201141)
#define DAQmxErrorSoftwareTooNewForHardware (-201140)
#define DAQmxErrorHardwareTooNewForSoftware (-201139)
#define DAQmxErrorTaskCannotRestartFirstSampNotAvailToGenerate (-201138)
#define DAQmxErrorOnlyUseStartTrigSrcPrptyWithDevDataLines (-201137)
#define DAQmxErrorOnlyUsePauseTrigSrcPrptyWithDevDataLines (-201136)
#define DAQmxErrorOnlyUseRefTrigSrcPrptyWithDevDataLines (-201135)
#define DAQmxErrorPauseTrigDigPatternSizeDoesNotMatchSrcSize (-201134)
#define DAQmxErrorLineConflictCDAQ (-201133)
#define DAQmxErrorCannotWriteBeyondFinalFiniteSample (-201132)
#define DAQmxErrorRefAndStartTriggerSrcCantBeSame (-201131)
#define DAQmxErrorMemMappingIncompatibleWithPhysChansInTask (-201130)
#define DAQmxErrorOutputDriveTypeMemMappingConflict (-201129)
#define DAQmxErrorCAPIDeviceIndexInvalid (-201128)
#define DAQmxErrorRatiometricDevicesMustUseExcitationForScaling (-201127)
#define DAQmxErrorPropertyRequiresPerDeviceCfg (-201126)
#define DAQmxErrorAICouplingAndAIInputSourceConflict (-201125)
#define DAQmxErrorOnlyOneTaskCanPerformDOMemoryMappingAtATime (-201124)
#define DAQmxErrorTooManyChansForAnalogRefTrigCDAQ (-201123)
#define DAQmxErrorSpecdPropertyValueIsIncompatibleWithSampleTimingType (-201122)
#define DAQmxErrorCPUNotSupportedRequireSSE (-201121)
#define DAQmxErrorSpecdPropertyValueIsIncompatibleWithSampleTimingResponseMode (-201120)
#define DAQmxErrorConflictingNextWriteIsLastAndRegenModeProperties (-201119)
#define DAQmxErrorMStudioOperationDoesNotSupportDeviceContext (-201118)
#define DAQmxErrorPropertyValueInChannelExpansionContextInvalid (-201117)
#define DAQmxErrorHWTimedNonBufferedAONotSupported (-201116)
#define DAQmxErrorWaveformLengthNotMultOfQuantum (-201115)
#define DAQmxErrorDSAExpansionMixedBoardsWrongOrderInPXIChassis (-201114)
#define DAQmxErrorPowerLevelTooLowForOOK (-201113)
#define DAQmxErrorDeviceComponentTestFailure (-201112)
#define DAQmxErrorUserDefinedWfmWithOOKUnsupported (-201111)
#define DAQmxErrorInvalidDigitalModulationUserDefinedWaveform (-201110)
#define DAQmxErrorBothRefInAndRefOutEnabled (-201109)
#define DAQmxErrorBothAnalogAndDigitalModulationEnabled (-201108)
#define DAQmxErrorBufferedOpsNotSupportedInSpecdSlotForCDAQ (-201107)
#define DAQmxErrorPhysChanNotSupportedInSpecdSlotForCDAQ (-201106)
#define DAQmxErrorResourceReservedWithConflictingSettings (-201105)
#define DAQmxErrorInconsistentAnalogTrigSettingsCDAQ (-201104)
#define DAQmxErrorTooManyChansForAnalogPauseTrigCDAQ (-201103)
#define DAQmxErrorAnalogTrigNotFirstInScanListCDAQ (-201102)
#define DAQmxErrorTooManyChansGivenTimingType (-201101)
#define DAQmxErrorSampClkTimebaseDivWithExtSampClk (-201100)
#define DAQmxErrorCantSaveTaskWithPerDeviceTimingProperties (-201099)
#define DAQmxErrorConflictingAutoZeroMode (-201098)
#define DAQmxErrorSampClkRateNotSupportedWithEAREnabled (-201097)
#define DAQmxErrorSampClkTimebaseRateNotSpecd (-201096)
#define DAQmxErrorSessionCorruptedByDLLReload (-201095)
#define DAQmxErrorActiveDevNotSupportedWithChanExpansion (-201094)
#define DAQmxErrorSampClkRateInvalid (-201093)
#define DAQmxErrorExtSyncPulseSrcCannotBeExported (-201092)
#define DAQmxErrorSyncPulseMinDelayToStartNeededForExtSyncPulseSrc (-201091)
#define DAQmxErrorSyncPulseSrcInvalid (-201090)
#define DAQmxErrorSampClkTimebaseRateInvalid (-201089)
#define DAQmxErrorSampClkTimebaseSrcInvalid (-201088)
#define DAQmxErrorSampClkRateMustBeSpecd (-201087)
#define DAQmxErrorInvalidAttributeName (-201086)
#define DAQmxErrorCJCChanNameMustBeSetWhenCJCSrcIsScannableChan (-201085)
#define DAQmxErrorHiddenChanMissingInChansPropertyInCfgFile (-201084)
#define DAQmxErrorChanNamesNotSpecdInCfgFile (-201083)
#define DAQmxErrorDuplicateHiddenChanNamesInCfgFile (-201082)
#define DAQmxErrorDuplicateChanNameInCfgFile (-201081)
#define DAQmxErrorInvalidSCCModuleForSlotSpecd (-201080)
#define DAQmxErrorInvalidSCCSlotNumberSpecd (-201079)
#define DAQmxErrorInvalidSectionIdentifier (-201078)
#define DAQmxErrorInvalidSectionName (-201077)
#define DAQmxErrorDAQmxVersionNotSupported (-201076)
#define DAQmxErrorSWObjectsFoundInFile (-201075)
#define DAQmxErrorHWObjectsFoundInFile (-201074)
#define DAQmxErrorLocalChannelSpecdWithNoParentTask (-201073)
#define DAQmxErrorTaskReferencesMissingLocalChannel (-201072)
#define DAQmxErrorTaskReferencesLocalChannelFromOtherTask (-201071)
#define DAQmxErrorTaskMissingChannelProperty (-201070)
#define DAQmxErrorInvalidLocalChanName (-201069)
#define DAQmxErrorInvalidEscapeCharacterInString (-201068)
#define DAQmxErrorInvalidTableIdentifier (-201067)
#define DAQmxErrorValueFoundInInvalidColumn (-201066)
#define DAQmxErrorMissingStartOfTable (-201065)
#define DAQmxErrorFileMissingRequiredDAQmxHeader (-201064)
#define DAQmxErrorDeviceIDDoesNotMatch (-201063)
#define DAQmxErrorBufferedOperationsNotSupportedOnSelectedLines (-201062)
#define DAQmxErrorPropertyConflictsWithScale (-201061)
#define DAQmxErrorInvalidINIFileSyntax (-201060)
#define DAQmxErrorDeviceInfoFailedPXIChassisNotIdentified (-201059)
#define DAQmxErrorInvalidHWProductNumber (-201058)
#define DAQmxErrorInvalidHWProductType (-201057)
#define DAQmxErrorInvalidNumericFormatSpecd (-201056)
#define DAQmxErrorDuplicatePropertyInObject (-201055)
#define DAQmxErrorInvalidEnumValueSpecd (-201054)
#define DAQmxErrorTEDSSensorPhysicalChannelConflict (-201053)
#define DAQmxErrorTooManyPhysicalChansForTEDSInterfaceSpecd (-201052)
#define DAQmxErrorIncapableTEDSInterfaceControllingDeviceSpecd (-201051)
#define DAQmxErrorSCCCarrierSpecdIsMissing (-201050)
#define DAQmxErrorIncapableSCCDigitizingDeviceSpecd (-201049)
#define DAQmxErrorAccessorySettingNotApplicable (-201048)
#define DAQmxErrorDeviceAndConnectorSpecdAlreadyOccupied (-201047)
#define DAQmxErrorIllegalAccessoryTypeForDeviceSpecd (-201046)
#define DAQmxErrorInvalidDeviceConnectorNumberSpecd (-201045)
#define DAQmxErrorInvalidAccessoryName (-201044)
#define DAQmxErrorMoreThanOneMatchForSpecdDevice (-201043)
#define DAQmxErrorNoMatchForSpecdDevice (-201042)
#define DAQmxErrorProductTypeAndProductNumberConflict (-201041)
#define DAQmxErrorExtraPropertyDetectedInSpecdObject (-201040)
#define DAQmxErrorRequiredPropertyMissing (-201039)
#define DAQmxErrorCantSetAuthorForLocalChan (-201038)
#define DAQmxErrorInvalidTimeValue (-201037)
#define DAQmxErrorInvalidTimeFormat (-201036)
#define DAQmxErrorDigDevChansSpecdInModeOtherThanParallel (-201035)
#define DAQmxErrorCascadeDigitizationModeNotSupported (-201034)
#define DAQmxErrorSpecdSlotAlreadyOccupied (-201033)
#define DAQmxErrorInvalidSCXISlotNumberSpecd (-201032)
#define DAQmxErrorAddressAlreadyInUse (-201031)
#define DAQmxErrorSpecdDeviceDoesNotSupportRTSI (-201030)
#define DAQmxErrorSpecdDeviceIsAlreadyOnRTSIBus (-201029)
#define DAQmxErrorIdentifierInUse (-201028)
#define DAQmxErrorWaitForNextSampleClockOrReadDetected3OrMoreMissedSampClks (-201027)
#define DAQmxErrorHWTimedAndDataXferPIO (-201026)
#define DAQmxErrorNonBufferedAndHWTimed (-201025)
#define DAQmxErrorCTROutSampClkPeriodShorterThanGenPulseTrainPeriodPolled (-201024)
#define DAQmxErrorCTROutSampClkPeriodShorterThanGenPulseTrainPeriod2 (-201023)
#define DAQmxErrorCOCannotKeepUpInHWTimedSinglePointPolled (-201022)
#define DAQmxErrorWriteRecoveryCannotKeepUpInHWTimedSinglePoint (-201021)
#define DAQmxErrorNoChangeDetectionOnSelectedLineForDevice (-201020)
#define DAQmxErrorSMIOPauseTriggersNotSupportedWithChannelExpansion (-201019)
#define DAQmxErrorClockMasterForExternalClockNotLongestPipeline (-201018)
#define DAQmxErrorUnsupportedUnicodeByteOrderMarker (-201017)
#define DAQmxErrorTooManyInstructionsInLoopInScript (-201016)
#define DAQmxErrorPLLNotLocked (-201015)
#define DAQmxErrorIfElseBlockNotAllowedInFiniteRepeatLoopInScript (-201014)
#define DAQmxErrorIfElseBlockNotAllowedInConditionalRepeatLoopInScript (-201013)
#define DAQmxErrorClearIsLastInstructionInIfElseBlockInScript (-201012)
#define DAQmxErrorInvalidWaitDurationBeforeIfElseBlockInScript (-201011)
#define DAQmxErrorMarkerPosInvalidBeforeIfElseBlockInScript (-201010)
#define DAQmxErrorInvalidSubsetLengthBeforeIfElseBlockInScript (-201009)
#define DAQmxErrorInvalidWaveformLengthBeforeIfElseBlockInScript (-201008)
#define DAQmxErrorGenerateOrFiniteWaitInstructionExpectedBeforeIfElseBlockInScript (-201007)
#define DAQmxErrorCalPasswordNotSupported (-201006)
#define DAQmxErrorSetupCalNeededBeforeAdjustCal (-201005)
#define DAQmxErrorMultipleChansNotSupportedDuringCalSetup (-201004)
#define DAQmxErrorDevCannotBeAccessed (-201003)
#define DAQmxErrorSampClkRateDoesntMatchSampClkSrc (-201002)
#define DAQmxErrorSampClkRateNotSupportedWithEARDisabled (-201001)
#define DAQmxErrorLabVIEWVersionDoesntSupportDAQmxEvents (-201000)
#define DAQmxErrorCOReadyForNewValNotSupportedWithOnDemand (-200999)
#define DAQmxErrorCIHWTimedSinglePointNotSupportedForMeasType (-200998)
#define DAQmxErrorOnDemandNotSupportedWithHWTimedSinglePoint (-200997)
#define DAQmxErrorHWTimedSinglePointAndDataXferNotProgIO (-200996)
#define DAQmxErrorMemMapAndHWTimedSinglePoint (-200995)
#define DAQmxErrorCannotSetPropertyWhenHWTimedSinglePointTaskIsRunning (-200994)
#define DAQmxErrorCTROutSampClkPeriodShorterThanGenPulseTrainPeriod (-200993)
#define DAQmxErrorTooManyEventsGenerated (-200992)
#define DAQmxErrorMStudioCppRemoveEventsBeforeStop (-200991)
#define DAQmxErrorCAPICannotRegisterSyncEventsFromMultipleThreads (-200990)
#define DAQmxErrorReadWaitNextSampClkWaitMismatchTwo (-200989)
#define DAQmxErrorReadWaitNextSampClkWaitMismatchOne (-200988)
#define DAQmxErrorDAQmxSignalEventTypeNotSupportedByChanTypesOrDevicesInTask (-200987)
#define DAQmxErrorCannotUnregisterDAQmxSoftwareEventWhileTaskIsRunning (-200986)
#define DAQmxErrorAutoStartWriteNotAllowedEventRegistered (-200985)
#define DAQmxErrorAutoStartReadNotAllowedEventRegistered (-200984)
#define DAQmxErrorCannotGetPropertyWhenTaskNotReservedCommittedOrRunning (-200983)
#define DAQmxErrorSignalEventsNotSupportedByDevice (-200982)
#define DAQmxErrorEveryNSamplesAcqIntoBufferEventNotSupportedByDevice (-200981)
#define DAQmxErrorEveryNSampsTransferredFromBufferEventNotSupportedByDevice (-200980)
#define DAQmxErrorCAPISyncEventsTaskStateChangeNotAllowedFromDifferentThread (-200979)
#define DAQmxErrorDAQmxSWEventsWithDifferentCallMechanisms (-200978)
#define DAQmxErrorCantSaveChanWithPolyCalScaleAndAllowInteractiveEdit (-200977)
#define DAQmxErrorChanDoesNotSupportCJC (-200976)
#define DAQmxErrorCOReadyForNewValNotSupportedWithHWTimedSinglePoint (-200975)
#define DAQmxErrorDACAllowConnToGndNotSupportedByDevWhenRefSrcExt (-200974)
#define DAQmxErrorCantGetPropertyTaskNotRunning (-200973)
#define DAQmxErrorCantSetPropertyTaskNotRunning (-200972)
#define DAQmxErrorCantSetPropertyTaskNotRunningCommitted (-200971)
#define DAQmxErrorAIEveryNSampsEventIntervalNotMultipleOf2 (-200970)
#define DAQmxErrorInvalidTEDSPhysChanNotAI (-200969)
#define DAQmxErrorCAPICannotPerformTaskOperationInAsyncCallback (-200968)
#define DAQmxErrorEveryNSampsTransferredFromBufferEventAlreadyRegistered (-200967)
#define DAQmxErrorEveryNSampsAcqIntoBufferEventAlreadyRegistered (-200966)
#define DAQmxErrorEveryNSampsTransferredFromBufferNotForInput (-200965)
#define DAQmxErrorEveryNSampsAcqIntoBufferNotForOutput (-200964)
#define DAQmxErrorAOSampTimingTypeDifferentIn2Tasks (-200963)
#define DAQmxErrorCouldNotDownloadFirmwareHWDamaged (-200962)
#define DAQmxErrorCouldNotDownloadFirmwareFileMissingOrDamaged (-200961)
#define DAQmxErrorCannotRegisterDAQmxSoftwareEventWhileTaskIsRunning (-200960)
#define DAQmxErrorDifferentRawDataCompression (-200959)
#define DAQmxErrorConfiguredTEDSInterfaceDevNotDetected (-200958)
#define DAQmxErrorCompressedSampSizeExceedsResolution (-200957)
#define DAQmxErrorChanDoesNotSupportCompression (-200956)
#define DAQmxErrorDifferentRawDataFormats (-200955)
#define DAQmxErrorSampClkOutputTermIncludesStartTrigSrc (-200954)
#define DAQmxErrorStartTrigSrcEqualToSampClkSrc (-200953)
#define DAQmxErrorEventOutputTermIncludesTrigSrc (-200952)
#define DAQmxErrorCOMultipleWritesBetweenSampClks (-200951)
#define DAQmxErrorDoneEventAlreadyRegistered (-200950)
#define DAQmxErrorSignalEventAlreadyRegistered (-200949)
#define DAQmxErrorCannotHaveTimedLoopAndDAQmxSignalEventsInSameTask (-200948)
#define DAQmxErrorNeedLabVIEW711PatchToUseDAQmxEvents (-200947)
#define DAQmxErrorStartFailedDueToWriteFailure (-200946)
#define DAQmxErrorDataXferCustomThresholdNotDMAXferMethodSpecifiedForDev (-200945)
#define DAQmxErrorDataXferRequestConditionNotSpecifiedForCustomThreshold (-200944)
#define DAQmxErrorDataXferCustomThresholdNotSpecified (-200943)
#define DAQmxErrorCAPISyncCallbackNotSupportedOnThisPlatform (-200942)
#define DAQmxErrorCalChanReversePolyCoefNotSpecd (-200941)
#define DAQmxErrorCalChanForwardPolyCoefNotSpecd (-200940)
#define DAQmxErrorChanCalRepeatedNumberInPreScaledVals (-200939)
#define DAQmxErrorChanCalTableNumScaledNotEqualNumPrescaledVals (-200938)
#define DAQmxErrorChanCalTableScaledValsNotSpecd (-200937)
#define DAQmxErrorChanCalTablePreScaledValsNotSpecd (-200936)
#define DAQmxErrorChanCalScaleTypeNotSet (-200935)
#define DAQmxErrorChanCalExpired (-200934)
#define DAQmxErrorChanCalExpirationDateNotSet (-200933)
#define DAQmxError3OutputPortCombinationGivenSampTimingType653x (-200932)
#define DAQmxError3InputPortCombinationGivenSampTimingType653x (-200931)
#define DAQmxError2OutputPortCombinationGivenSampTimingType653x (-200930)
#define DAQmxError2InputPortCombinationGivenSampTimingType653x (-200929)
#define DAQmxErrorPatternMatcherMayBeUsedByOneTrigOnly (-200928)
#define DAQmxErrorNoChansSpecdForPatternSource (-200927)
#define DAQmxErrorChangeDetectionChanNotInTask (-200926)
#define DAQmxErrorChangeDetectionChanNotTristated (-200925)
#define DAQmxErrorWaitModeValueNotSupportedNonBuffered (-200924)
#define DAQmxErrorWaitModePropertyNotSupportedNonBuffered (-200923)
#define DAQmxErrorCantSavePerLineConfigDigChanSoInteractiveEditsAllowed (-200922)
#define DAQmxErrorCantSaveNonPortMultiLineDigChanSoInteractiveEditsAllowed (-200921)
#define DAQmxErrorBufferSizeNotMultipleOfEveryNSampsEventIntervalNoIrqOnDev (-200920)
#define DAQmxErrorGlobalTaskNameAlreadyChanName (-200919)
#define DAQmxErrorGlobalChanNameAlreadyTaskName (-200918)
#define DAQmxErrorAOEveryNSampsEventIntervalNotMultipleOf2 (-200917)
#define DAQmxErrorSampleTimebaseDivisorNotSupportedGivenTimingType (-200916)
#define DAQmxErrorHandshakeEventOutputTermNotSupportedGivenTimingType (-200915)
#define DAQmxErrorChangeDetectionOutputTermNotSupportedGivenTimingType (-200914)
#define DAQmxErrorReadyForTransferOutputTermNotSupportedGivenTimingType (-200913)
#define DAQmxErrorRefTrigOutputTermNotSupportedGivenTimingType (-200912)
#define DAQmxErrorStartTrigOutputTermNotSupportedGivenTimingType (-200911)
#define DAQmxErrorSampClockOutputTermNotSupportedGivenTimingType (-200910)
#define DAQmxError20MhzTimebaseNotSupportedGivenTimingType (-200909)
#define DAQmxErrorSampClockSourceNotSupportedGivenTimingType (-200908)
#define DAQmxErrorRefTrigTypeNotSupportedGivenTimingType (-200907)
#define DAQmxErrorPauseTrigTypeNotSupportedGivenTimingType (-200906)
#define DAQmxErrorHandshakeTrigTypeNotSupportedGivenTimingType (-200905)
#define DAQmxErrorStartTrigTypeNotSupportedGivenTimingType (-200904)
#define DAQmxErrorRefClkSrcNotSupported (-200903)
#define DAQmxErrorDataVoltageLowAndHighIncompatible (-200902)
#define DAQmxErrorInvalidCharInDigPatternString (-200901)
#define DAQmxErrorCantUsePort3AloneGivenSampTimingTypeOn653x (-200900)
#define DAQmxErrorCantUsePort1AloneGivenSampTimingTypeOn653x (-200899)
#define DAQmxErrorPartialUseOfPhysicalLinesWithinPortNotSupported653x (-200898)
#define DAQmxErrorPhysicalChanNotSupportedGivenSampTimingType653x (-200897)
#define DAQmxErrorCanExportOnlyDigEdgeTrigs (-200896)
#define DAQmxErrorRefTrigDigPatternSizeDoesNotMatchSourceSize (-200895)
#define DAQmxErrorStartTrigDigPatternSizeDoesNotMatchSourceSize (-200894)
#define DAQmxErrorChangeDetectionRisingAndFallingEdgeChanDontMatch (-200893)
#define DAQmxErrorPhysicalChansForChangeDetectionAndPatternMatch653x (-200892)
#define DAQmxErrorCanExportOnlyOnboardSampClk (-200891)
#define DAQmxErrorInternalSampClkNotRisingEdge (-200890)
#define DAQmxErrorRefTrigDigPatternChanNotInTask (-200889)
#define DAQmxErrorRefTrigDigPatternChanNotTristated (-200888)
#define DAQmxErrorStartTrigDigPatternChanNotInTask (-200887)
#define DAQmxErrorStartTrigDigPatternChanNotTristated (-200886)
#define DAQmxErrorPXIStarAndClock10Sync (-200885)
#define DAQmxErrorGlobalChanCannotBeSavedSoInteractiveEditsAllowed (-200884)
#define DAQmxErrorTaskCannotBeSavedSoInteractiveEditsAllowed (-200883)
#define DAQmxErrorInvalidGlobalChan (-200882)
#define DAQmxErrorEveryNSampsEventAlreadyRegistered (-200881)
#define DAQmxErrorEveryNSampsEventIntervalZeroNotSupported (-200880)
#define DAQmxErrorChanSizeTooBigForU16PortWrite (-200879)
#define DAQmxErrorChanSizeTooBigForU16PortRead (-200878)
#define DAQmxErrorBufferSizeNotMultipleOfEveryNSampsEventIntervalWhenDMA (-200877)
#define DAQmxErrorWriteWhenTaskNotRunningCOTicks (-200876)
#define DAQmxErrorWriteWhenTaskNotRunningCOFreq (-200875)
#define DAQmxErrorWriteWhenTaskNotRunningCOTime (-200874)
#define DAQmxErrorAOMinMaxNotSupportedDACRangeTooSmall (-200873)
#define DAQmxErrorAOMinMaxNotSupportedGivenDACRange (-200872)
#define DAQmxErrorAOMinMaxNotSupportedGivenDACRangeAndOffsetVal (-200871)
#define DAQmxErrorAOMinMaxNotSupportedDACOffsetValInappropriate (-200870)
#define DAQmxErrorAOMinMaxNotSupportedGivenDACOffsetVal (-200869)
#define DAQmxErrorAOMinMaxNotSupportedDACRefValTooSmall (-200868)
#define DAQmxErrorAOMinMaxNotSupportedGivenDACRefVal (-200867)
#define DAQmxErrorAOMinMaxNotSupportedGivenDACRefAndOffsetVal (-200866)
#define DAQmxErrorWhenAcqCompAndNumSampsPerChanExceedsOnBrdBufSize (-200865)
#define DAQmxErrorWhenAcqCompAndNoRefTrig (-200864)
#define DAQmxErrorWaitForNextSampClkNotSupported (-200863)
#define DAQmxErrorDevInUnidentifiedPXIChassis (-200862)
#define DAQmxErrorMaxSoundPressureMicSensitivitRelatedAIPropertiesNotSupportedByDev (-200861)
#define DAQmxErrorMaxSoundPressureAndMicSensitivityNotSupportedByDev (-200860)
#define DAQmxErrorAOBufferSizeZeroForSampClkTimingType (-200859)
#define DAQmxErrorAOCallWriteBeforeStartForSampClkTimingType (-200858)
#define DAQmxErrorInvalidCalLowPassCutoffFreq (-200857)
#define DAQmxErrorSimulationCannotBeDisabledForDevCreatedAsSimulatedDev (-200856)
#define DAQmxErrorCannotAddNewDevsAfterTaskConfiguration (-200855)
#define DAQmxErrorDifftSyncPulseSrcAndSampClkTimebaseSrcDevMultiDevTask (-200854)
#define DAQmxErrorTermWithoutDevInMultiDevTask (-200853)
#define DAQmxErrorSyncNoDevSampClkTimebaseOrSyncPulseInPXISlot2 (-200852)
#define DAQmxErrorPhysicalChanNotOnThisConnector (-200851)
#define DAQmxErrorNumSampsToWaitNotGreaterThanZeroInScript (-200850)
#define DAQmxErrorNumSampsToWaitNotMultipleOfAlignmentQuantumInScript (-200849)
#define DAQmxErrorEveryNSamplesEventNotSupportedForNonBufferedTasks (-200848)
#define DAQmxErrorBufferedAndDataXferPIO (-200847)
#define DAQmxErrorCannotWriteWhenAutoStartFalseAndTaskNotRunning (-200846)
#define DAQmxErrorNonBufferedAndDataXferInterrupts (-200845)
#define DAQmxErrorWriteFailedMultipleCtrsWithFREQOUT (-200844)
#define DAQmxErrorReadNotCompleteBefore3SampClkEdges (-200843)
#define DAQmxErrorCtrHWTimedSinglePointAndDataXferNotProgIO (-200842)
#define DAQmxErrorPrescalerNot1ForInputTerminal (-200841)
#define DAQmxErrorPrescalerNot1ForTimebaseSrc (-200840)
#define DAQmxErrorSampClkTimingTypeWhenTristateIsFalse (-200839)
#define DAQmxErrorOutputBufferSizeNotMultOfXferSize (-200838)
#define DAQmxErrorSampPerChanNotMultOfXferSize (-200837)
#define DAQmxErrorWriteToTEDSFailed (-200836)
#define DAQmxErrorSCXIDevNotUsablePowerTurnedOff (-200835)
#define DAQmxErrorCannotReadWhenAutoStartFalseBufSizeZeroAndTaskNotRunning (-200834)
#define DAQmxErrorCannotReadWhenAutoStartFalseHWTimedSinglePtAndTaskNotRunning (-200833)
#define DAQmxErrorCannotReadWhenAutoStartFalseOnDemandAndTaskNotRunning (-200832)
#define DAQmxErrorSimultaneousAOWhenNotOnDemandTiming (-200831)
#define DAQmxErrorMemMapAndSimultaneousAO (-200830)
#define DAQmxErrorWriteFailedMultipleCOOutputTypes (-200829)
#define DAQmxErrorWriteToTEDSNotSupportedOnRT (-200828)
#define DAQmxErrorVirtualTEDSDataFileError (-200827)
#define DAQmxErrorTEDSSensorDataError (-200826)
#define DAQmxErrorDataSizeMoreThanSizeOfEEPROMOnTEDS (-200825)
#define DAQmxErrorPROMOnTEDSContainsBasicTEDSData (-200824)
#define DAQmxErrorPROMOnTEDSAlreadyWritten (-200823)
#define DAQmxErrorTEDSDoesNotContainPROM (-200822)
#define DAQmxErrorHWTimedSinglePointNotSupportedAI (-200821)
#define DAQmxErrorHWTimedSinglePointOddNumChansInAITask (-200820)
#define DAQmxErrorCantUseOnlyOnBoardMemWithProgrammedIO (-200819)
#define DAQmxErrorSwitchDevShutDownDueToHighTemp (-200818)
#define DAQmxErrorExcitationNotSupportedWhenTermCfgDiff (-200817)
#define DAQmxErrorTEDSMinElecValGEMaxElecVal (-200816)
#define DAQmxErrorTEDSMinPhysValGEMaxPhysVal (-200815)
#define DAQmxErrorCIOnboardClockNotSupportedAsInputTerm (-200814)
#define DAQmxErrorInvalidSampModeForPositionMeas (-200813)
#define DAQmxErrorTrigWhenAOHWTimedSinglePtSampMode (-200812)
#define DAQmxErrorDAQmxCantUseStringDueToUnknownChar (-200811)
#define DAQmxErrorDAQmxCantRetrieveStringDueToUnknownChar (-200810)
#define DAQmxErrorClearTEDSNotSupportedOnRT (-200809)
#define DAQmxErrorCfgTEDSNotSupportedOnRT (-200808)
#define DAQmxErrorProgFilterClkCfgdToDifferentMinPulseWidthBySameTask1PerDev (-200807)
#define DAQmxErrorProgFilterClkCfgdToDifferentMinPulseWidthByAnotherTask1PerDev (-200806)
#define DAQmxErrorNoLastExtCalDateTimeLastExtCalNotDAQmx (-200804)
#define DAQmxErrorCannotWriteNotStartedAutoStartFalseNotOnDemandHWTimedSglPt (-200803)
#define DAQmxErrorCannotWriteNotStartedAutoStartFalseNotOnDemandBufSizeZero (-200802)
#define DAQmxErrorCOInvalidTimingSrcDueToSignal (-200801)
#define DAQmxErrorCIInvalidTimingSrcForSampClkDueToSampTimingType (-200800)
#define DAQmxErrorCIInvalidTimingSrcForEventCntDueToSampMode (-200799)
#define DAQmxErrorNoChangeDetectOnNonInputDigLineForDev (-200798)
#define DAQmxErrorEmptyStringTermNameNotSupported (-200797)
#define DAQmxErrorMemMapEnabledForHWTimedNonBufferedAO (-200796)
#define DAQmxErrorDevOnboardMemOverflowDuringHWTimedNonBufferedGen (-200795)
#define DAQmxErrorCODAQmxWriteMultipleChans (-200794)
#define DAQmxErrorCantMaintainExistingValueAOSync (-200793)
#define DAQmxErrorMStudioMultiplePhysChansNotSupported (-200792)
#define DAQmxErrorCantConfigureTEDSForChan (-200791)
#define DAQmxErrorWriteDataTypeTooSmall (-200790)
#define DAQmxErrorReadDataTypeTooSmall (-200789)
#define DAQmxErrorMeasuredBridgeOffsetTooHigh (-200788)
#define DAQmxErrorStartTrigConflictWithCOHWTimedSinglePt (-200787)
#define DAQmxErrorSampClkRateExtSampClkTimebaseRateMismatch (-200786)
#define DAQmxErrorInvalidTimingSrcDueToSampTimingType (-200785)
#define DAQmxErrorVirtualTEDSFileNotFound (-200784)
#define DAQmxErrorMStudioNoForwardPolyScaleCoeffs (-200783)
#define DAQmxErrorMStudioNoReversePolyScaleCoeffs (-200782)
#define DAQmxErrorMStudioNoPolyScaleCoeffsUseCalc (-200781)
#define DAQmxErrorMStudioNoForwardPolyScaleCoeffsUseCalc (-200780)
#define DAQmxErrorMStudioNoReversePolyScaleCoeffsUseCalc (-200779)
#define DAQmxErrorCOSampModeSampTimingTypeSampClkConflict (-200778)
#define DAQmxErrorDevCannotProduceMinPulseWidth (-200777)
#define DAQmxErrorCannotProduceMinPulseWidthGivenPropertyValues (-200776)
#define DAQmxErrorTermCfgdToDifferentMinPulseWidthByAnotherTask (-200775)
#define DAQmxErrorTermCfgdToDifferentMinPulseWidthByAnotherProperty (-200774)
#define DAQmxErrorDigSyncNotAvailableOnTerm (-200773)
#define DAQmxErrorDigFilterNotAvailableOnTerm (-200772)
#define DAQmxErrorDigFilterEnabledMinPulseWidthNotCfg (-200771)
#define DAQmxErrorDigFilterAndSyncBothEnabled (-200770)
#define DAQmxErrorHWTimedSinglePointAOAndDataXferNotProgIO (-200769)
#define DAQmxErrorNonBufferedAOAndDataXferNotProgIO (-200768)
#define DAQmxErrorProgIODataXferForBufferedAO (-200767)
#define DAQmxErrorTEDSLegacyTemplateIDInvalidOrUnsupported (-200766)
#define DAQmxErrorTEDSMappingMethodInvalidOrUnsupported (-200765)
#define DAQmxErrorTEDSLinearMappingSlopeZero (-200764)
#define DAQmxErrorAIInputBufferSizeNotMultOfXferSize (-200763)
#define DAQmxErrorNoSyncPulseExtSampClkTimebase (-200762)
#define DAQmxErrorNoSyncPulseAnotherTaskRunning (-200761)
#define DAQmxErrorAOMinMaxNotInGainRange (-200760)
#define DAQmxErrorAOMinMaxNotInDACRange (-200759)
#define DAQmxErrorDevOnlySupportsSampClkTimingAO (-200758)
#define DAQmxErrorDevOnlySupportsSampClkTimingAI (-200757)
#define DAQmxErrorTEDSIncompatibleSensorAndMeasType (-200756)
#define DAQmxErrorTEDSMultipleCalTemplatesNotSupported (-200755)
#define DAQmxErrorTEDSTemplateParametersNotSupported (-200754)
#define DAQmxErrorParsingTEDSData (-200753)
#define DAQmxErrorMultipleActivePhysChansNotSupported (-200752)
#define DAQmxErrorNoChansSpecdForChangeDetect (-200751)
#define DAQmxErrorInvalidCalVoltageForGivenGain (-200750)
#define DAQmxErrorInvalidCalGain (-200749)
#define DAQmxErrorMultipleWritesBetweenSampClks (-200748)
#define DAQmxErrorInvalidAcqTypeForFREQOUT (-200747)
#define DAQmxErrorSuitableTimebaseNotFoundTimeCombo2 (-200746)
#define DAQmxErrorSuitableTimebaseNotFoundFrequencyCombo2 (-200745)
#define DAQmxErrorRefClkRateRefClkSrcMismatch (-200744)
#define DAQmxErrorNoTEDSTerminalBlock (-200743)
#define DAQmxErrorCorruptedTEDSMemory (-200742)
#define DAQmxErrorTEDSNotSupported (-200741)
#define DAQmxErrorTimingSrcTaskStartedBeforeTimedLoop (-200740)
#define DAQmxErrorPropertyNotSupportedForTimingSrc (-200739)
#define DAQmxErrorTimingSrcDoesNotExist (-200738)
#define DAQmxErrorInputBufferSizeNotEqualSampsPerChanForFiniteSampMode (-200737)
#define DAQmxErrorFREQOUTCannotProduceDesiredFrequency2 (-200736)
#define DAQmxErrorExtRefClkRateNotSpecified (-200735)
#define DAQmxErrorDeviceDoesNotSupportDMADataXferForNonBufferedAcq (-200734)
#define DAQmxErrorDigFilterMinPulseWidthSetWhenTristateIsFalse (-200733)
#define DAQmxErrorDigFilterEnableSetWhenTristateIsFalse (-200732)
#define DAQmxErrorNoHWTimingWithOnDemand (-200731)
#define DAQmxErrorCannotDetectChangesWhenTristateIsFalse (-200730)
#define DAQmxErrorCannotHandshakeWhenTristateIsFalse (-200729)
#define DAQmxErrorLinesUsedForStaticInputNotForHandshakingControl (-200728)
#define DAQmxErrorLinesUsedForHandshakingControlNotForStaticInput (-200727)
#define DAQmxErrorLinesUsedForStaticInputNotForHandshakingInput (-200726)
#define DAQmxErrorLinesUsedForHandshakingInputNotForStaticInput (-200725)
#define DAQmxErrorDifferentDITristateValsForChansInTask (-200724)
#define DAQmxErrorTimebaseCalFreqVarianceTooLarge (-200723)
#define DAQmxErrorTimebaseCalFailedToConverge (-200722)
#define DAQmxErrorInadequateResolutionForTimebaseCal (-200721)
#define DAQmxErrorInvalidAOGainCalConst (-200720)
#define DAQmxErrorInvalidAOOffsetCalConst (-200719)
#define DAQmxErrorInvalidAIGainCalConst (-200718)
#define DAQmxErrorInvalidAIOffsetCalConst (-200717)
#define DAQmxErrorDigOutputOverrun (-200716)
#define DAQmxErrorDigInputOverrun (-200715)
#define DAQmxErrorAcqStoppedDriverCantXferDataFastEnough (-200714)
#define DAQmxErrorChansCantAppearInSameTask (-200713)
#define DAQmxErrorInputCfgFailedBecauseWatchdogExpired (-200712)
#define DAQmxErrorAnalogTrigChanNotExternal (-200711)
#define DAQmxErrorTooManyChansForInternalAIInputSrc (-200710)
#define DAQmxErrorTEDSSensorNotDetected (-200709)
#define DAQmxErrorPrptyGetSpecdActiveItemFailedDueToDifftValues (-200708)
#define DAQmxErrorRoutingDestTermPXIClk10InNotInSlot2 (-200706)
#define DAQmxErrorRoutingDestTermPXIStarXNotInSlot2 (-200705)
#define DAQmxErrorRoutingSrcTermPXIStarXNotInSlot2 (-200704)
#define DAQmxErrorRoutingSrcTermPXIStarInSlot16AndAbove (-200703)
#define DAQmxErrorRoutingDestTermPXIStarInSlot16AndAbove (-200702)
#define DAQmxErrorRoutingDestTermPXIStarInSlot2 (-200701)
#define DAQmxErrorRoutingSrcTermPXIStarInSlot2 (-200700)
#define DAQmxErrorRoutingDestTermPXIChassisNotIdentified (-200699)
#define DAQmxErrorRoutingSrcTermPXIChassisNotIdentified (-200698)
#define DAQmxErrorFailedToAcquireCalData (-200697)
#define DAQmxErrorBridgeOffsetNullingCalNotSupported (-200696)
#define DAQmxErrorAIMaxNotSpecified (-200695)
#define DAQmxErrorAIMinNotSpecified (-200694)
#define DAQmxErrorOddTotalBufferSizeToWrite (-200693)
#define DAQmxErrorOddTotalNumSampsToWrite (-200692)
#define DAQmxErrorBufferWithWaitMode (-200691)
#define DAQmxErrorBufferWithHWTimedSinglePointSampMode (-200690)
#define DAQmxErrorCOWritePulseLowTicksNotSupported (-200689)
#define DAQmxErrorCOWritePulseHighTicksNotSupported (-200688)
#define DAQmxErrorCOWritePulseLowTimeOutOfRange (-200687)
#define DAQmxErrorCOWritePulseHighTimeOutOfRange (-200686)
#define DAQmxErrorCOWriteFreqOutOfRange (-200685)
#define DAQmxErrorCOWriteDutyCycleOutOfRange (-200684)
#define DAQmxErrorInvalidInstallation (-200683)
#define DAQmxErrorRefTrigMasterSessionUnavailable (-200682)
#define DAQmxErrorRouteFailedBecauseWatchdogExpired (-200681)
#define DAQmxErrorDeviceShutDownDueToHighTemp (-200680)
#define DAQmxErrorNoMemMapWhenHWTimedSinglePoint (-200679)
#define DAQmxErrorWriteFailedBecauseWatchdogExpired (-200678)
#define DAQmxErrorDifftInternalAIInputSrcs (-200677)
#define DAQmxErrorDifftAIInputSrcInOneChanGroup (-200676)
#define DAQmxErrorInternalAIInputSrcInMultChanGroups (-200675)
#define DAQmxErrorSwitchOpFailedDueToPrevError (-200674)
#define DAQmxErrorWroteMultiSampsUsingSingleSampWrite (-200673)
#define DAQmxErrorMismatchedInputArraySizes (-200672)
#define DAQmxErrorCantExceedRelayDriveLimit (-200671)
#define DAQmxErrorDACRngLowNotEqualToMinusRefVal (-200670)
#define DAQmxErrorCantAllowConnectDACToGnd (-200669)
#define DAQmxErrorWatchdogTimeoutOutOfRangeAndNotSpecialVal (-200668)
#define DAQmxErrorNoWatchdogOutputOnPortReservedForInput (-200667)
#define DAQmxErrorNoInputOnPortCfgdForWatchdogOutput (-200666)
#define DAQmxErrorWatchdogExpirationStateNotEqualForLinesInPort (-200665)
#define DAQmxErrorCannotPerformOpWhenTaskNotReserved (-200664)
#define DAQmxErrorPowerupStateNotSupported (-200663)
#define DAQmxErrorWatchdogTimerNotSupported (-200662)
#define DAQmxErrorOpNotSupportedWhenRefClkSrcNone (-200661)
#define DAQmxErrorSampClkRateUnavailable (-200660)
#define DAQmxErrorPrptyGetSpecdSingleActiveChanFailedDueToDifftVals (-200659)
#define DAQmxErrorPrptyGetImpliedActiveChanFailedDueToDifftVals (-200658)
#define DAQmxErrorPrptyGetSpecdActiveChanFailedDueToDifftVals (-200657)
#define DAQmxErrorNoRegenWhenUsingBrdMem (-200656)
#define DAQmxErrorNonbufferedReadMoreThanSampsPerChan (-200655)
#define DAQmxErrorWatchdogExpirationTristateNotSpecdForEntirePort (-200654)
#define DAQmxErrorPowerupTristateNotSpecdForEntirePort (-200653)
#define DAQmxErrorPowerupStateNotSpecdForEntirePort (-200652)
#define DAQmxErrorCantSetWatchdogExpirationOnDigInChan (-200651)
#define DAQmxErrorCantSetPowerupStateOnDigInChan (-200650)
#define DAQmxErrorPhysChanNotInTask (-200649)
#define DAQmxErrorPhysChanDevNotInTask (-200648)
#define DAQmxErrorDigInputNotSupported (-200647)
#define DAQmxErrorDigFilterIntervalNotEqualForLines (-200646)
#define DAQmxErrorDigFilterIntervalAlreadyCfgd (-200645)
#define DAQmxErrorCantResetExpiredWatchdog (-200644)
#define DAQmxErrorActiveChanTooManyLinesSpecdWhenGettingPrpty (-200643)
#define DAQmxErrorActiveChanNotSpecdWhenGetting1LinePrpty (-200642)
#define DAQmxErrorDigPrptyCannotBeSetPerLine (-200641)
#define DAQmxErrorSendAdvCmpltAfterWaitForTrigInScanlist (-200640)
#define DAQmxErrorDisconnectionRequiredInScanlist (-200639)
#define DAQmxErrorTwoWaitForTrigsAfterConnectionInScanlist (-200638)
#define DAQmxErrorActionSeparatorRequiredAfterBreakingConnectionInScanlist (-200637)
#define DAQmxErrorConnectionInScanlistMustWaitForTrig (-200636)
#define DAQmxErrorActionNotSupportedTaskNotWatchdog (-200635)
#define DAQmxErrorWfmNameSameAsScriptName (-200634)
#define DAQmxErrorScriptNameSameAsWfmName (-200633)
#define DAQmxErrorDSFStopClock (-200632)
#define DAQmxErrorDSFReadyForStartClock (-200631)
#define DAQmxErrorWriteOffsetNotMultOfIncr (-200630)
#define DAQmxErrorDifferentPrptyValsNotSupportedOnDev (-200629)
#define DAQmxErrorRefAndPauseTrigConfigured (-200628)
#define DAQmxErrorFailedToEnableHighSpeedInputClock (-200627)
#define DAQmxErrorEmptyPhysChanInPowerUpStatesArray (-200626)
#define DAQmxErrorActivePhysChanTooManyLinesSpecdWhenGettingPrpty (-200625)
#define DAQmxErrorActivePhysChanNotSpecdWhenGetting1LinePrpty (-200624)
#define DAQmxErrorPXIDevTempCausedShutDown (-200623)
#define DAQmxErrorInvalidNumSampsToWrite (-200622)
#define DAQmxErrorOutputFIFOUnderflow2 (-200621)
#define DAQmxErrorRepeatedAIPhysicalChan (-200620)
#define DAQmxErrorMultScanOpsInOneChassis (-200619)
#define DAQmxErrorInvalidAIChanOrder (-200618)
#define DAQmxErrorReversePowerProtectionActivated (-200617)
#define DAQmxErrorInvalidAsynOpHandle (-200616)
#define DAQmxErrorFailedToEnableHighSpeedOutput (-200615)
#define DAQmxErrorCannotReadPastEndOfRecord (-200614)
#define DAQmxErrorAcqStoppedToPreventInputBufferOverwriteOneDataXferMech (-200613)
#define DAQmxErrorZeroBasedChanIndexInvalid (-200612)
#define DAQmxErrorNoChansOfGivenTypeInTask (-200611)
#define DAQmxErrorSampClkSrcInvalidForOutputValidForInput (-200610)
#define DAQmxErrorOutputBufSizeTooSmallToStartGen (-200609)
#define DAQmxErrorInputBufSizeTooSmallToStartAcq (-200608)
#define DAQmxErrorExportTwoSignalsOnSameTerminal (-200607)
#define DAQmxErrorChanIndexInvalid (-200606)
#define DAQmxErrorRangeSyntaxNumberTooBig (-200605)
#define DAQmxErrorNULLPtr (-200604)
#define DAQmxErrorScaledMinEqualMax (-200603)
#define DAQmxErrorPreScaledMinEqualMax (-200602)
#define DAQmxErrorPropertyNotSupportedForScaleType (-200601)
#define DAQmxErrorChannelNameGenerationNumberTooBig (-200600)
#define DAQmxErrorRepeatedNumberInScaledValues (-200599)
#define DAQmxErrorRepeatedNumberInPreScaledValues (-200598)
#define DAQmxErrorLinesAlreadyReservedForOutput (-200597)
#define DAQmxErrorSwitchOperationChansSpanMultipleDevsInList (-200596)
#define DAQmxErrorInvalidIDInListAtBeginningOfSwitchOperation (-200595)
#define DAQmxErrorMStudioInvalidPolyDirection (-200594)
#define DAQmxErrorMStudioPropertyGetWhileTaskNotVerified (-200593)
#define DAQmxErrorRangeWithTooManyObjects (-200592)
#define DAQmxErrorCppDotNetAPINegativeBufferSize (-200591)
#define DAQmxErrorCppCantRemoveInvalidEventHandler (-200590)
#define DAQmxErrorCppCantRemoveEventHandlerTwice (-200589)
#define DAQmxErrorCppCantRemoveOtherObjectsEventHandler (-200588)
#define DAQmxErrorDigLinesReservedOrUnavailable (-200587)
#define DAQmxErrorDSFFailedToResetStream (-200586)
#define DAQmxErrorDSFReadyForOutputNotAsserted (-200585)
#define DAQmxErrorSampToWritePerChanNotMultipleOfIncr (-200584)
#define DAQmxErrorAOPropertiesCauseVoltageBelowMin (-200583)
#define DAQmxErrorAOPropertiesCauseVoltageOverMax (-200582)
#define DAQmxErrorPropertyNotSupportedWhenRefClkSrcNone (-200581)
#define DAQmxErrorAIMaxTooSmall (-200580)
#define DAQmxErrorAIMaxTooLarge (-200579)
#define DAQmxErrorAIMinTooSmall (-200578)
#define DAQmxErrorAIMinTooLarge (-200577)
#define DAQmxErrorBuiltInCJCSrcNotSupported (-200576)
#define DAQmxErrorTooManyPostTrigSampsPerChan (-200575)
#define DAQmxErrorTrigLineNotFoundSingleDevRoute (-200574)
#define DAQmxErrorDifferentInternalAIInputSources (-200573)
#define DAQmxErrorDifferentAIInputSrcInOneChanGroup (-200572)
#define DAQmxErrorInternalAIInputSrcInMultipleChanGroups (-200571)
#define DAQmxErrorCAPIChanIndexInvalid (-200570)
#define DAQmxErrorCollectionDoesNotMatchChanType (-200569)
#define DAQmxErrorOutputCantStartChangedRegenerationMode (-200568)
#define DAQmxErrorOutputCantStartChangedBufferSize (-200567)
#define DAQmxErrorChanSizeTooBigForU32PortWrite (-200566)
#define DAQmxErrorChanSizeTooBigForU8PortWrite (-200565)
#define DAQmxErrorChanSizeTooBigForU32PortRead (-200564)
#define DAQmxErrorChanSizeTooBigForU8PortRead (-200563)
#define DAQmxErrorInvalidDigDataWrite (-200562)
#define DAQmxErrorInvalidAODataWrite (-200561)
#define DAQmxErrorWaitUntilDoneDoesNotIndicateDone (-200560)
#define DAQmxErrorMultiChanTypesInTask (-200559)
#define DAQmxErrorMultiDevsInTask (-200558)
#define DAQmxErrorCannotSetPropertyWhenTaskRunning (-200557)
#define DAQmxErrorCannotGetPropertyWhenTaskNotCommittedOrRunning (-200556)
#define DAQmxErrorLeadingUnderscoreInString (-200555)
#define DAQmxErrorTrailingSpaceInString (-200554)
#define DAQmxErrorLeadingSpaceInString (-200553)
#define DAQmxErrorInvalidCharInString (-200552)
#define DAQmxErrorDLLBecameUnlocked (-200551)
#define DAQmxErrorDLLLock (-200550)
#define DAQmxErrorSelfCalConstsInvalid (-200549)
#define DAQmxErrorInvalidTrigCouplingExceptForExtTrigChan (-200548)
#define DAQmxErrorWriteFailsBufferSizeAutoConfigured (-200547)
#define DAQmxErrorExtCalAdjustExtRefVoltageFailed (-200546)
#define DAQmxErrorSelfCalFailedExtNoiseOrRefVoltageOutOfCal (-200545)
#define DAQmxErrorExtCalTemperatureNotDAQmx (-200544)
#define DAQmxErrorExtCalDateTimeNotDAQmx (-200543)
#define DAQmxErrorSelfCalTemperatureNotDAQmx (-200542)
#define DAQmxErrorSelfCalDateTimeNotDAQmx (-200541)
#define DAQmxErrorDACRefValNotSet (-200540)
#define DAQmxErrorAnalogMultiSampWriteNotSupported (-200539)
#define DAQmxErrorInvalidActionInControlTask (-200538)
#define DAQmxErrorPolyCoeffsInconsistent (-200537)
#define DAQmxErrorSensorValTooLow (-200536)
#define DAQmxErrorSensorValTooHigh (-200535)
#define DAQmxErrorWaveformNameTooLong (-200534)
#define DAQmxErrorIdentifierTooLongInScript (-200533)
#define DAQmxErrorUnexpectedIDFollowingSwitchChanName (-200532)
#define DAQmxErrorRelayNameNotSpecifiedInList (-200531)
#define DAQmxErrorUnexpectedIDFollowingRelayNameInList (-200530)
#define DAQmxErrorUnexpectedIDFollowingSwitchOpInList (-200529)
#define DAQmxErrorInvalidLineGrouping (-200528)
#define DAQmxErrorCtrMinMax (-200527)
#define DAQmxErrorWriteChanTypeMismatch (-200526)
#define DAQmxErrorReadChanTypeMismatch (-200525)
#define DAQmxErrorWriteNumChansMismatch (-200524)
#define DAQmxErrorOneChanReadForMultiChanTask (-200523)
#define DAQmxErrorCannotSelfCalDuringExtCal (-200522)
#define DAQmxErrorMeasCalAdjustOscillatorPhaseDAC (-200521)
#define DAQmxErrorInvalidCalConstCalADCAdjustment (-200520)
#define DAQmxErrorInvalidCalConstOscillatorFreqDACValue (-200519)
#define DAQmxErrorInvalidCalConstOscillatorPhaseDACValue (-200518)
#define DAQmxErrorInvalidCalConstOffsetDACValue (-200517)
#define DAQmxErrorInvalidCalConstGainDACValue (-200516)
#define DAQmxErrorInvalidNumCalADCReadsToAverage (-200515)
#define DAQmxErrorInvalidCfgCalAdjustDirectPathOutputImpedance (-200514)
#define DAQmxErrorInvalidCfgCalAdjustMainPathOutputImpedance (-200513)
#define DAQmxErrorInvalidCfgCalAdjustMainPathPostAmpGainAndOffset (-200512)
#define DAQmxErrorInvalidCfgCalAdjustMainPathPreAmpGain (-200511)
#define DAQmxErrorInvalidCfgCalAdjustMainPreAmpOffset (-200510)
#define DAQmxErrorMeasCalAdjustCalADC (-200509)
#define DAQmxErrorMeasCalAdjustOscillatorFrequency (-200508)
#define DAQmxErrorMeasCalAdjustDirectPathOutputImpedance (-200507)
#define DAQmxErrorMeasCalAdjustMainPathOutputImpedance (-200506)
#define DAQmxErrorMeasCalAdjustDirectPathGain (-200505)
#define DAQmxErrorMeasCalAdjustMainPathPostAmpGainAndOffset (-200504)
#define DAQmxErrorMeasCalAdjustMainPathPreAmpGain (-200503)
#define DAQmxErrorMeasCalAdjustMainPathPreAmpOffset (-200502)
#define DAQmxErrorInvalidDateTimeInEEPROM (-200501)
#define DAQmxErrorUnableToLocateErrorResources (-200500)
#define DAQmxErrorDotNetAPINotUnsigned32BitNumber (-200499)
#define DAQmxErrorInvalidRangeOfObjectsSyntaxInString (-200498)
#define DAQmxErrorAttemptToEnableLineNotPreviouslyDisabled (-200497)
#define DAQmxErrorInvalidCharInPattern (-200496)
#define DAQmxErrorIntermediateBufferFull (-200495)
#define DAQmxErrorLoadTaskFailsBecauseNoTimingOnDev (-200494)
#define DAQmxErrorCAPIReservedParamNotNULLNorEmpty (-200493)
#define DAQmxErrorCAPIReservedParamNotNULL (-200492)
#define DAQmxErrorCAPIReservedParamNotZero (-200491)
#define DAQmxErrorSampleValueOutOfRange (-200490)
#define DAQmxErrorChanAlreadyInTask (-200489)
#define DAQmxErrorVirtualChanDoesNotExist (-200488)
#define DAQmxErrorChanNotInTask (-200486)
#define DAQmxErrorTaskNotInDataNeighborhood (-200485)
#define DAQmxErrorCantSaveTaskWithoutReplace (-200484)
#define DAQmxErrorCantSaveChanWithoutReplace (-200483)
#define DAQmxErrorDevNotInTask (-200482)
#define DAQmxErrorDevAlreadyInTask (-200481)
#define DAQmxErrorCanNotPerformOpWhileTaskRunning (-200479)
#define DAQmxErrorCanNotPerformOpWhenNoChansInTask (-200478)
#define DAQmxErrorCanNotPerformOpWhenNoDevInTask (-200477)
#define DAQmxErrorCannotPerformOpWhenTaskNotRunning (-200475)
#define DAQmxErrorOperationTimedOut (-200474)
#define DAQmxErrorCannotReadWhenAutoStartFalseAndTaskNotRunningOrCommitted (-200473)
#define DAQmxErrorCannotWriteWhenAutoStartFalseAndTaskNotRunningOrCommitted (-200472)
#define DAQmxErrorTaskVersionNew (-200470)
#define DAQmxErrorChanVersionNew (-200469)
#define DAQmxErrorEmptyString (-200467)
#define DAQmxErrorChannelSizeTooBigForPortReadType (-200466)
#define DAQmxErrorChannelSizeTooBigForPortWriteType (-200465)
#define DAQmxErrorExpectedNumberOfChannelsVerificationFailed (-200464)
#define DAQmxErrorNumLinesMismatchInReadOrWrite (-200463)
#define DAQmxErrorOutputBufferEmpty (-200462)
#define DAQmxErrorInvalidChanName (-200461)
#define DAQmxErrorReadNoInputChansInTask (-200460)
#define DAQmxErrorWriteNoOutputChansInTask (-200459)
#define DAQmxErrorPropertyNotSupportedNotInputTask (-200457)
#define DAQmxErrorPropertyNotSupportedNotOutputTask (-200456)
#define DAQmxErrorGetPropertyNotInputBufferedTask (-200455)
#define DAQmxErrorGetPropertyNotOutputBufferedTask (-200454)
#define DAQmxErrorInvalidTimeoutVal (-200453)
#define DAQmxErrorAttributeNotSupportedInTaskContext (-200452)
#define DAQmxErrorAttributeNotQueryableUnlessTaskIsCommitted (-200451)
#define DAQmxErrorAttributeNotSettableWhenTaskIsRunning (-200450)
#define DAQmxErrorDACRngLowNotMinusRefValNorZero (-200449)
#define DAQmxErrorDACRngHighNotEqualRefVal (-200448)
#define DAQmxErrorUnitsNotFromCustomScale (-200447)
#define DAQmxErrorInvalidVoltageReadingDuringExtCal (-200446)
#define DAQmxErrorCalFunctionNotSupported (-200445)
#define DAQmxErrorInvalidPhysicalChanForCal (-200444)
#define DAQmxErrorExtCalNotComplete (-200443)
#define DAQmxErrorCantSyncToExtStimulusFreqDuringCal (-200442)
#define DAQmxErrorUnableToDetectExtStimulusFreqDuringCal (-200441)
#define DAQmxErrorInvalidCloseAction (-200440)
#define DAQmxErrorExtCalFunctionOutsideExtCalSession (-200439)
#define DAQmxErrorInvalidCalArea (-200438)
#define DAQmxErrorExtCalConstsInvalid (-200437)
#define DAQmxErrorStartTrigDelayWithExtSampClk (-200436)
#define DAQmxErrorDelayFromSampClkWithExtConv (-200435)
#define DAQmxErrorFewerThan2PreScaledVals (-200434)
#define DAQmxErrorFewerThan2ScaledValues (-200433)
#define DAQmxErrorPhysChanOutputType (-200432)
#define DAQmxErrorPhysChanMeasType (-200431)
#define DAQmxErrorInvalidPhysChanType (-200430)
#define DAQmxErrorLabVIEWEmptyTaskOrChans (-200429)
#define DAQmxErrorLabVIEWInvalidTaskOrChans (-200428)
#define DAQmxErrorInvalidRefClkRate (-200427)
#define DAQmxErrorInvalidExtTrigImpedance (-200426)
#define DAQmxErrorHystTrigLevelAIMax (-200425)
#define DAQmxErrorLineNumIncompatibleWithVideoSignalFormat (-200424)
#define DAQmxErrorTrigWindowAIMinAIMaxCombo (-200423)
#define DAQmxErrorTrigAIMinAIMax (-200422)
#define DAQmxErrorHystTrigLevelAIMin (-200421)
#define DAQmxErrorInvalidSampRateConsiderRIS (-200420)
#define DAQmxErrorInvalidReadPosDuringRIS (-200419)
#define DAQmxErrorImmedTrigDuringRISMode (-200418)
#define DAQmxErrorTDCNotEnabledDuringRISMode (-200417)
#define DAQmxErrorMultiRecWithRIS (-200416)
#define DAQmxErrorInvalidRefClkSrc (-200415)
#define DAQmxErrorInvalidSampClkSrc (-200414)
#define DAQmxErrorInsufficientOnBoardMemForNumRecsAndSamps (-200413)
#define DAQmxErrorInvalidAIAttenuation (-200412)
#define DAQmxErrorACCouplingNotAllowedWith50OhmImpedance (-200411)
#define DAQmxErrorInvalidRecordNum (-200410)
#define DAQmxErrorZeroSlopeLinearScale (-200409)
#define DAQmxErrorZeroReversePolyScaleCoeffs (-200408)
#define DAQmxErrorZeroForwardPolyScaleCoeffs (-200407)
#define DAQmxErrorNoReversePolyScaleCoeffs (-200406)
#define DAQmxErrorNoForwardPolyScaleCoeffs (-200405)
#define DAQmxErrorNoPolyScaleCoeffs (-200404)
#define DAQmxErrorReversePolyOrderLessThanNumPtsToCompute (-200403)
#define DAQmxErrorReversePolyOrderNotPositive (-200402)
#define DAQmxErrorNumPtsToComputeNotPositive (-200401)
#define DAQmxErrorWaveformLengthNotMultipleOfIncr (-200400)
#define DAQmxErrorCAPINoExtendedErrorInfoAvailable (-200399)
#define DAQmxErrorCVIFunctionNotFoundInDAQmxDLL (-200398)
#define DAQmxErrorCVIFailedToLoadDAQmxDLL (-200397)
#define DAQmxErrorNoCommonTrigLineForImmedRoute (-200396)
#define DAQmxErrorNoCommonTrigLineForTaskRoute (-200395)
#define DAQmxErrorF64PrptyValNotUnsignedInt (-200394)
#define DAQmxErrorRegisterNotWritable (-200393)
#define DAQmxErrorInvalidOutputVoltageAtSampClkRate (-200392)
#define DAQmxErrorStrobePhaseShiftDCMBecameUnlocked (-200391)
#define DAQmxErrorDrivePhaseShiftDCMBecameUnlocked (-200390)
#define DAQmxErrorClkOutPhaseShiftDCMBecameUnlocked (-200389)
#define DAQmxErrorOutputBoardClkDCMBecameUnlocked (-200388)
#define DAQmxErrorInputBoardClkDCMBecameUnlocked (-200387)
#define DAQmxErrorInternalClkDCMBecameUnlocked (-200386)
#define DAQmxErrorDCMLock (-200385)
#define DAQmxErrorDataLineReservedForDynamicOutput (-200384)
#define DAQmxErrorInvalidRefClkSrcGivenSampClkSrc (-200383)
#define DAQmxErrorNoPatternMatcherAvailable (-200382)
#define DAQmxErrorInvalidDelaySampRateBelowPhaseShiftDCMThresh (-200381)
#define DAQmxErrorStrainGageCalibration (-200380)
#define DAQmxErrorInvalidExtClockFreqAndDivCombo (-200379)
#define DAQmxErrorCustomScaleDoesNotExist (-200378)
#define DAQmxErrorOnlyFrontEndChanOpsDuringScan (-200377)
#define DAQmxErrorInvalidOptionForDigitalPortChannel (-200376)
#define DAQmxErrorUnsupportedSignalTypeExportSignal (-200375)
#define DAQmxErrorInvalidSignalTypeExportSignal (-200374)
#define DAQmxErrorUnsupportedTrigTypeSendsSWTrig (-200373)
#define DAQmxErrorInvalidTrigTypeSendsSWTrig (-200372)
#define DAQmxErrorRepeatedPhysicalChan (-200371)
#define DAQmxErrorResourcesInUseForRouteInTask (-200370)
#define DAQmxErrorResourcesInUseForRoute (-200369)
#define DAQmxErrorRouteNotSupportedByHW (-200368)
#define DAQmxErrorResourcesInUseForExportSignalPolarity (-200367)
#define DAQmxErrorResourcesInUseForInversionInTask (-200366)
#define DAQmxErrorResourcesInUseForInversion (-200365)
#define DAQmxErrorExportSignalPolarityNotSupportedByHW (-200364)
#define DAQmxErrorInversionNotSupportedByHW (-200363)
#define DAQmxErrorOverloadedChansExistNotRead (-200362)
#define DAQmxErrorInputFIFOOverflow2 (-200361)
#define DAQmxErrorCJCChanNotSpecd (-200360)
#define DAQmxErrorCtrExportSignalNotPossible (-200359)
#define DAQmxErrorRefTrigWhenContinuous (-200358)
#define DAQmxErrorIncompatibleSensorOutputAndDeviceInputRanges (-200357)
#define DAQmxErrorCustomScaleNameUsed (-200356)
#define DAQmxErrorPropertyValNotSupportedByHW (-200355)
#define DAQmxErrorPropertyValNotValidTermName (-200354)
#define DAQmxErrorResourcesInUseForProperty (-200353)
#define DAQmxErrorCJCChanAlreadyUsed (-200352)
#define DAQmxErrorForwardPolynomialCoefNotSpecd (-200351)
#define DAQmxErrorTableScaleNumPreScaledAndScaledValsNotEqual (-200350)
#define DAQmxErrorTableScalePreScaledValsNotSpecd (-200349)
#define DAQmxErrorTableScaleScaledValsNotSpecd (-200348)
#define DAQmxErrorIntermediateBufferSizeNotMultipleOfIncr (-200347)
#define DAQmxErrorEventPulseWidthOutOfRange (-200346)
#define DAQmxErrorEventDelayOutOfRange (-200345)
#define DAQmxErrorSampPerChanNotMultipleOfIncr (-200344)
#define DAQmxErrorCannotCalculateNumSampsTaskNotStarted (-200343)
#define DAQmxErrorScriptNotInMem (-200342)
#define DAQmxErrorOnboardMemTooSmall (-200341)
#define DAQmxErrorReadAllAvailableDataWithoutBuffer (-200340)
#define DAQmxErrorPulseActiveAtStart (-200339)
#define DAQmxErrorCalTempNotSupported (-200338)
#define DAQmxErrorDelayFromSampClkTooLong (-200337)
#define DAQmxErrorDelayFromSampClkTooShort (-200336)
#define DAQmxErrorAIConvRateTooHigh (-200335)
#define DAQmxErrorDelayFromStartTrigTooLong (-200334)
#define DAQmxErrorDelayFromStartTrigTooShort (-200333)
#define DAQmxErrorSampRateTooHigh (-200332)
#define DAQmxErrorSampRateTooLow (-200331)
#define DAQmxErrorPFI0UsedForAnalogAndDigitalSrc (-200330)
#define DAQmxErrorPrimingCfgFIFO (-200329)
#define DAQmxErrorCannotOpenTopologyCfgFile (-200328)
#define DAQmxErrorInvalidDTInsideWfmDataType (-200327)
#define DAQmxErrorRouteSrcAndDestSame (-200326)
#define DAQmxErrorReversePolynomialCoefNotSpecd (-200325)
#define DAQmxErrorDevAbsentOrUnavailable (-200324)
#define DAQmxErrorNoAdvTrigForMultiDevScan (-200323)
#define DAQmxErrorInterruptsInsufficientDataXferMech (-200322)
#define DAQmxErrorInvalidAttentuationBasedOnMinMax (-200321)
#define DAQmxErrorCabledModuleCannotRouteSSH (-200320)
#define DAQmxErrorCabledModuleCannotRouteConvClk (-200319)
#define DAQmxErrorInvalidExcitValForScaling (-200318)
#define DAQmxErrorNoDevMemForScript (-200317)
#define DAQmxErrorScriptDataUnderflow (-200316)
#define DAQmxErrorNoDevMemForWaveform (-200315)
#define DAQmxErrorStreamDCMBecameUnlocked (-200314)
#define DAQmxErrorStreamDCMLock (-200313)
#define DAQmxErrorWaveformNotInMem (-200312)
#define DAQmxErrorWaveformWriteOutOfBounds (-200311)
#define DAQmxErrorWaveformPreviouslyAllocated (-200310)
#define DAQmxErrorSampClkTbMasterTbDivNotAppropriateForSampTbSrc (-200309)
#define DAQmxErrorSampTbRateSampTbSrcMismatch (-200308)
#define DAQmxErrorMasterTbRateMasterTbSrcMismatch (-200307)
#define DAQmxErrorSampsPerChanTooBig (-200306)
#define DAQmxErrorFinitePulseTrainNotPossible (-200305)
#define DAQmxErrorExtMasterTimebaseRateNotSpecified (-200304)
#define DAQmxErrorExtSampClkSrcNotSpecified (-200303)
#define DAQmxErrorInputSignalSlowerThanMeasTime (-200302)
#define DAQmxErrorCannotUpdatePulseGenProperty (-200301)
#define DAQmxErrorInvalidTimingType (-200300)
#define DAQmxErrorPropertyUnavailWhenUsingOnboardMemory (-200297)
#define DAQmxErrorCannotWriteAfterStartWithOnboardMemory (-200295)
#define DAQmxErrorNotEnoughSampsWrittenForInitialXferRqstCondition (-200294)
#define DAQmxErrorNoMoreSpace (-200293)
#define DAQmxErrorSamplesCanNotYetBeWritten (-200292)
#define DAQmxErrorGenStoppedToPreventIntermediateBufferRegenOfOldSamples (-200291)
#define DAQmxErrorGenStoppedToPreventRegenOfOldSamples (-200290)
#define DAQmxErrorSamplesNoLongerWriteable (-200289)
#define DAQmxErrorSamplesWillNeverBeGenerated (-200288)
#define DAQmxErrorNegativeWriteSampleNumber (-200287)
#define DAQmxErrorNoAcqStarted (-200286)
#define DAQmxErrorSamplesNotYetAvailable (-200284)
#define DAQmxErrorAcqStoppedToPreventIntermediateBufferOverflow (-200283)
#define DAQmxErrorNoRefTrigConfigured (-200282)
#define DAQmxErrorCannotReadRelativeToRefTrigUntilDone (-200281)
#define DAQmxErrorSamplesNoLongerAvailable (-200279)
#define DAQmxErrorSamplesWillNeverBeAvailable (-200278)
#define DAQmxErrorNegativeReadSampleNumber (-200277)
#define DAQmxErrorExternalSampClkAndRefClkThruSameTerm (-200276)
#define DAQmxErrorExtSampClkRateTooLowForClkIn (-200275)
#define DAQmxErrorExtSampClkRateTooHighForBackplane (-200274)
#define DAQmxErrorSampClkRateAndDivCombo (-200273)
#define DAQmxErrorSampClkRateTooLowForDivDown (-200272)
#define DAQmxErrorProductOfAOMinAndGainTooSmall (-200271)
#define DAQmxErrorInterpolationRateNotPossible (-200270)
#define DAQmxErrorOffsetTooLarge (-200269)
#define DAQmxErrorOffsetTooSmall (-200268)
#define DAQmxErrorProductOfAOMaxAndGainTooLarge (-200267)
#define DAQmxErrorMinAndMaxNotSymmetric (-200266)
#define DAQmxErrorInvalidAnalogTrigSrc (-200265)
#define DAQmxErrorTooManyChansForAnalogRefTrig (-200264)
#define DAQmxErrorTooManyChansForAnalogPauseTrig (-200263)
#define DAQmxErrorTrigWhenOnDemandSampTiming (-200262)
#define DAQmxErrorInconsistentAnalogTrigSettings (-200261)
#define DAQmxErrorMemMapDataXferModeSampTimingCombo (-200260)
#define DAQmxErrorInvalidJumperedAttr (-200259)
#define DAQmxErrorInvalidGainBasedOnMinMax (-200258)
#define DAQmxErrorInconsistentExcit (-200257)
#define DAQmxErrorTopologyNotSupportedByCfgTermBlock (-200256)
#define DAQmxErrorBuiltInTempSensorNotSupported (-200255)
#define DAQmxErrorInvalidTerm (-200254)
#define DAQmxErrorCannotTristateTerm (-200253)
#define DAQmxErrorCannotTristateBusyTerm (-200252)
#define DAQmxErrorNoDMAChansAvailable (-200251)
#define DAQmxErrorInvalidWaveformLengthWithinLoopInScript (-200250)
#define DAQmxErrorInvalidSubsetLengthWithinLoopInScript (-200249)
#define DAQmxErrorMarkerPosInvalidForLoopInScript (-200248)
#define DAQmxErrorIntegerExpectedInScript (-200247)
#define DAQmxErrorPLLBecameUnlocked (-200246)
#define DAQmxErrorPLLLock (-200245)
#define DAQmxErrorDDCClkOutDCMBecameUnlocked (-200244)
#define DAQmxErrorDDCClkOutDCMLock (-200243)
#define DAQmxErrorClkDoublerDCMBecameUnlocked (-200242)
#define DAQmxErrorClkDoublerDCMLock (-200241)
#define DAQmxErrorSampClkDCMBecameUnlocked (-200240)
#define DAQmxErrorSampClkDCMLock (-200239)
#define DAQmxErrorSampClkTimebaseDCMBecameUnlocked (-200238)
#define DAQmxErrorSampClkTimebaseDCMLock (-200237)
#define DAQmxErrorAttrCannotBeReset (-200236)
#define DAQmxErrorExplanationNotFound (-200235)
#define DAQmxErrorWriteBufferTooSmall (-200234)
#define DAQmxErrorSpecifiedAttrNotValid (-200233)
#define DAQmxErrorAttrCannotBeRead (-200232)
#define DAQmxErrorAttrCannotBeSet (-200231)
#define DAQmxErrorNULLPtrForC_Api (-200230)
#define DAQmxErrorReadBufferTooSmall (-200229)
#define DAQmxErrorBufferTooSmallForString (-200228)
#define DAQmxErrorNoAvailTrigLinesOnDevice (-200227)
#define DAQmxErrorTrigBusLineNotAvail (-200226)
#define DAQmxErrorCouldNotReserveRequestedTrigLine (-200225)
#define DAQmxErrorTrigLineNotFound (-200224)
#define DAQmxErrorSCXI1126ThreshHystCombination (-200223)
#define DAQmxErrorAcqStoppedToPreventInputBufferOverwrite (-200222)
#define DAQmxErrorTimeoutExceeded (-200221)
#define DAQmxErrorInvalidDeviceID (-200220)
#define DAQmxErrorInvalidAOChanOrder (-200219)
#define DAQmxErrorSampleTimingTypeAndDataXferMode (-200218)
#define DAQmxErrorBufferWithOnDemandSampTiming (-200217)
#define DAQmxErrorBufferAndDataXferMode (-200216)
#define DAQmxErrorMemMapAndBuffer (-200215)
#define DAQmxErrorNoAnalogTrigHW (-200214)
#define DAQmxErrorTooManyPretrigPlusMinPostTrigSamps (-200213)
#define DAQmxErrorInconsistentUnitsSpecified (-200212)
#define DAQmxErrorMultipleRelaysForSingleRelayOp (-200211)
#define DAQmxErrorMultipleDevIDsPerChassisSpecifiedInList (-200210)
#define DAQmxErrorDuplicateDevIDInList (-200209)
#define DAQmxErrorInvalidRangeStatementCharInList (-200208)
#define DAQmxErrorInvalidDeviceIDInList (-200207)
#define DAQmxErrorTriggerPolarityConflict (-200206)
#define DAQmxErrorCannotScanWithCurrentTopology (-200205)
#define DAQmxErrorUnexpectedIdentifierInFullySpecifiedPathInList (-200204)
#define DAQmxErrorSwitchCannotDriveMultipleTrigLines (-200203)
#define DAQmxErrorInvalidRelayName (-200202)
#define DAQmxErrorSwitchScanlistTooBig (-200201)
#define DAQmxErrorSwitchChanInUse (-200200)
#define DAQmxErrorSwitchNotResetBeforeScan (-200199)
#define DAQmxErrorInvalidTopology (-200198)
#define DAQmxErrorAttrNotSupported (-200197)
#define DAQmxErrorUnexpectedEndOfActionsInList (-200196)
#define DAQmxErrorPowerLimitExceeded (-200195)
#define DAQmxErrorHWUnexpectedlyPoweredOffAndOn (-200194)
#define DAQmxErrorSwitchOperationNotSupported (-200193)
#define DAQmxErrorOnlyContinuousScanSupported (-200192)
#define DAQmxErrorSwitchDifferentTopologyWhenScanning (-200191)
#define DAQmxErrorDisconnectPathNotSameAsExistingPath (-200190)
#define DAQmxErrorConnectionNotPermittedOnChanReservedForRouting (-200189)
#define DAQmxErrorCannotConnectSrcChans (-200188)
#define DAQmxErrorCannotConnectChannelToItself (-200187)
#define DAQmxErrorChannelNotReservedForRouting (-200186)
#define DAQmxErrorCannotConnectChansDirectly (-200185)
#define DAQmxErrorChansAlreadyConnected (-200184)
#define DAQmxErrorChanDuplicatedInPath (-200183)
#define DAQmxErrorNoPathToDisconnect (-200182)
#define DAQmxErrorInvalidSwitchChan (-200181)
#define DAQmxErrorNoPathAvailableBetween2SwitchChans (-200180)
#define DAQmxErrorExplicitConnectionExists (-200179)
#define DAQmxErrorSwitchDifferentSettlingTimeWhenScanning (-200178)
#define DAQmxErrorOperationOnlyPermittedWhileScanning (-200177)
#define DAQmxErrorOperationNotPermittedWhileScanning (-200176)
#define DAQmxErrorHardwareNotResponding (-200175)
#define DAQmxErrorInvalidSampAndMasterTimebaseRateCombo (-200173)
#define DAQmxErrorNonZeroBufferSizeInProgIOXfer (-200172)
#define DAQmxErrorVirtualChanNameUsed (-200171)
#define DAQmxErrorPhysicalChanDoesNotExist (-200170)
#define DAQmxErrorMemMapOnlyForProgIOXfer (-200169)
#define DAQmxErrorTooManyChans (-200168)
#define DAQmxErrorCannotHaveCJTempWithOtherChans (-200167)
#define DAQmxErrorOutputBufferUnderwrite (-200166)
#define DAQmxErrorSensorInvalidCompletionResistance (-200163)
#define DAQmxErrorVoltageExcitIncompatibleWith2WireCfg (-200162)
#define DAQmxErrorIntExcitSrcNotAvailable (-200161)
#define DAQmxErrorCannotCreateChannelAfterTaskVerified (-200160)
#define DAQmxErrorLinesReservedForSCXIControl (-200159)
#define DAQmxErrorCouldNotReserveLinesForSCXIControl (-200158)
#define DAQmxErrorCalibrationFailed (-200157)
#define DAQmxErrorReferenceFrequencyInvalid (-200156)
#define DAQmxErrorReferenceResistanceInvalid (-200155)
#define DAQmxErrorReferenceCurrentInvalid (-200154)
#define DAQmxErrorReferenceVoltageInvalid (-200153)
#define DAQmxErrorEEPROMDataInvalid (-200152)
#define DAQmxErrorCabledModuleNotCapableOfRoutingAI (-200151)
#define DAQmxErrorChannelNotAvailableInParallelMode (-200150)
#define DAQmxErrorExternalTimebaseRateNotKnownForDelay (-200149)
#define DAQmxErrorFREQOUTCannotProduceDesiredFrequency (-200148)
#define DAQmxErrorMultipleCounterInputTask (-200147)
#define DAQmxErrorCounterStartPauseTriggerConflict (-200146)
#define DAQmxErrorCounterInputPauseTriggerAndSampleClockInvalid (-200145)
#define DAQmxErrorCounterOutputPauseTriggerInvalid (-200144)
#define DAQmxErrorCounterTimebaseRateNotSpecified (-200143)
#define DAQmxErrorCounterTimebaseRateNotFound (-200142)
#define DAQmxErrorCounterOverflow (-200141)
#define DAQmxErrorCounterNoTimebaseEdgesBetweenGates (-200140)
#define DAQmxErrorCounterMaxMinRangeFreq (-200139)
#define DAQmxErrorCounterMaxMinRangeTime (-200138)
#define DAQmxErrorSuitableTimebaseNotFoundTimeCombo (-200137)
#define DAQmxErrorSuitableTimebaseNotFoundFrequencyCombo (-200136)
#define DAQmxErrorInternalTimebaseSourceDivisorCombo (-200135)
#define DAQmxErrorInternalTimebaseSourceRateCombo (-200134)
#define DAQmxErrorInternalTimebaseRateDivisorSourceCombo (-200133)
#define DAQmxErrorExternalTimebaseRateNotknownForRate (-200132)
#define DAQmxErrorAnalogTrigChanNotFirstInScanList (-200131)
#define DAQmxErrorNoDivisorForExternalSignal (-200130)
#define DAQmxErrorAttributeInconsistentAcrossRepeatedPhysicalChannels (-200128)
#define DAQmxErrorCannotHandshakeWithPort0 (-200127)
#define DAQmxErrorControlLineConflictOnPortC (-200126)
#define DAQmxErrorLines4To7ConfiguredForOutput (-200125)
#define DAQmxErrorLines4To7ConfiguredForInput (-200124)
#define DAQmxErrorLines0To3ConfiguredForOutput (-200123)
#define DAQmxErrorLines0To3ConfiguredForInput (-200122)
#define DAQmxErrorPortConfiguredForOutput (-200121)
#define DAQmxErrorPortConfiguredForInput (-200120)
#define DAQmxErrorPortConfiguredForStaticDigitalOps (-200119)
#define DAQmxErrorPortReservedForHandshaking (-200118)
#define DAQmxErrorPortDoesNotSupportHandshakingDataIO (-200117)
#define DAQmxErrorCannotTristate8255OutputLines (-200116)
#define DAQmxErrorTemperatureOutOfRangeForCalibration (-200113)
#define DAQmxErrorCalibrationHandleInvalid (-200112)
#define DAQmxErrorPasswordRequired (-200111)
#define DAQmx
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