shirish47/EPD_Demo.ino

## EPD_Demo.ino
/**
* Copyright (c) Pervasive Displays Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
*    this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
*    this list of conditions and the following disclaimer in the documentation
*    and/or other materials provided with the distribution.
*
* 3. The name of Atmel may not be used to endorse or promote products derived
*    from this software without specific prior written permission.
*
* 4. This software may only be redistributed and used in connection with an
*    Atmel microcontroller product.
*
* THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
* EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
**/

#include <SPI.h>
#include "Pervasive_EPD_BoosterPack2.h"

/** Important ******************************************************************
 *  - To understand more of the definitions of film material, drivers and sizes,
 *    please visit http://www.pervasivedisplays.com/products   and
 *    http://www.pervasivedisplays.com/products/label_info
 *  - This example code is made with EPD Extension Kit Gen 2 (EXT2).
 *    Visit http://www.pervasivedisplays.com/kits/ext2_kit for more details.
 *  - Technical support: http://www.pervasivedisplays.com/contact/technical-support
 *  - For converting any image file to image array as .c file, please download
 *    PDi Apps from http://www.pervasivedisplays.com/kits/ext2_kit#Utility by the
 *    [Bitmap] tab of PDi Apps.
 **/

/* Glossary of Acronyms
 * GU = Global Update
 * PU = Partial Update
 * LUT = Look-up table, the array to define the parameters of driving waveform
 * OTP = One Time Programming, the LUTs are pre-programmed in driver IC
 */

/**
 * \brief define the timing controller type and size of EPD
 * \note
 *  - eTC=external timing controller (driver IC)
 *  - iTC=internal timing controller */
// eTC
#define sz_eTC_144  0 //J7 Switches 0000 001x
#define sz_eTC_190  1 //J7 Switches 0000 000x
#define sz_eTC_200  2 //J7 Switches 0000 001x
#define sz_eTC_260  3 //J7 Switches 0000 000x
#define sz_eTC_271  4 //J7 Switches 0000 000x
// iTC
#define sz_iTC_215  5 //J7 Switches 1010 000x
#define sz_iTC_287  6 //J7 Switches 0101 010x
#define sz_iTC_420  7 //J7 Switches 0101 010x
//iTC Spectra
#define sz_iTC_287R  8 //J7 Switches 0101 010x
#define sz_iTC_420R  9 //J7 Switches 0101 010x

/**
 * \brief define the EPD drivers with film material
 * \note
 *  - BW=black and white colors, Aurora film
 *  - BWR=black, white and red colors, Spectra-red film
 *  - a=Aurora Ma (V230)
 *  - b=Aurora Mb (V231) */
#define dr_eTC_BWa			0
#define dr_eTC_BWb			1
#define dr_iTC_BWb			2
#define dr_iTC_BWR			3

/**
 * \brief Configure the following two definitions by your connected display model  */
#define USE_EPD_Type    dr_iTC_BWR
#define USE_EPD_Size    sz_iTC_287R


#if (USE_EPD_Type==dr_eTC_BWa || USE_EPD_Type==dr_eTC_BWb)
    #if(USE_EPD_Type==dr_eTC_BWa)
        #define  EPD_Type		dr_eTC_G2_Aurora_Ma
    #else
        #define  EPD_Type		dr_eTC_G2_Aurora_Mb
    #endif
    #if(USE_EPD_Size==sz_eTC_144)
        #include "examples/Images/Image_eTC_144_01.c"
        #include "examples/Images/Image_eTC_144_02.c"
        #define  EPD_Size     EPD_144_BW
        #define Image1        (uint8_t *)&Image_eTC_144_01
        #define Image2        (uint8_t *)&Image_eTC_144_02
        #elif(USE_EPD_Size==sz_eTC_190)
        #include "examples/Images/Image_eTC_190_01.c"
        #include "examples/Images/Image_eTC_190_02.c"
        #define  EPD_Size     EPD_190_BW
        #define Image1        (uint8_t *)&Image_eTC_190_01
        #define Image2        (uint8_t *)&Image_eTC_190_02
        #elif(USE_EPD_Size==sz_eTC_200)
        #include "examples/Images/Image_eTC_200_01.c"
        #include "examples/Images/Image_eTC_200_02.c"
        #define  EPD_Size     EPD_200_BW
        #define Image1        (uint8_t *)&Image_eTC_200_01
        #define Image2        (uint8_t *)&Image_eTC_200_02
        #elif(USE_EPD_Size==sz_eTC_260)
        #include "examples/Images/Image_eTC_260_01.c"
        #include "examples/Images/Image_eTC_260_02.c"
        #define  EPD_Size     EPD_260_BW
        #define Image1        (uint8_t *)&Image_eTC_260_01
        #define Image2        (uint8_t *)&Image_eTC_260_02
        #elif(USE_EPD_Size==sz_eTC_271)
        #include "examples/Images/Image_eTC_271_01.c"
        #include "examples/Images/Image_eTC_271_02.c"
        #define  EPD_Size     EPD_271_BW
        #define Image1        (uint8_t *)&Image_eTC_271_01
        #define Image2        (uint8_t *)&Image_eTC_271_02
    #endif

    #elif(USE_EPD_Type==dr_iTC_BWb)
    #define  EPD_Type		dr_iTC_Drivers
    #if(USE_EPD_Size==sz_iTC_215)
        #include "examples/Images/Image_iTC_215_01.c"
        #include "examples/Images/Image_iTC_215_02.c"
        #define  EPD_Size     EPD_215_BW
        #define Image1        (uint8_t *)&Image_iTC_215_01
        #define Image2        (uint8_t *)&Image_iTC_215_02
        #elif(USE_EPD_Size==sz_iTC_287)
        #include "examples/Images/Image_iTC_287_01.c"
        #include "examples/Images/Image_iTC_287_02.c"
        #define  EPD_Size     EPD_287_BW
        #define Image1        (uint8_t *)&Image_iTC_287_01
        #define Image2        (uint8_t *)&Image_iTC_287_02
        #elif(USE_EPD_Size==sz_iTC_420)
        #include "examples/Images/Image_iTC_420_01.c"
        #include "examples/Images/Image_iTC_420_02.c"
        #define  EPD_Size     EPD_420_BW
        #define Image1        (uint8_t *)&Image_iTC_420_01
        #define Image2        (uint8_t *)&Image_iTC_420_02
    #endif
    #elif(USE_EPD_Type==dr_iTC_BWR)
    #define  EPD_Type		dr_iTC_Drivers
    #if(USE_EPD_Size==sz_iTC_287R)
        #include "examples/Images/Image_iTC_287SP_01.c"
        #include "examples/Images/Image_iTC_287SP_02.c"
        #define  EPD_Size     EPD_287_BWR
        #define Image1        (uint8_t *)&Image_iTC_287SP_01
        #define Image2        (uint8_t *)&Image_iTC_287SP_02
        #elif(USE_EPD_Size==sz_iTC_420R)
        #include "examples/Images/Image_iTC_420SP_01.c"
        #include "examples/Images/Image_iTC_420SP_02.c"
        #define  EPD_Size     EPD_420_BWR
        #define Image1        (uint8_t *)&Image_iTC_420SP_01
        #define Image2        (uint8_t *)&Image_iTC_420SP_02
    #endif
#endif

// This example will toggle between two images.
Pervasive_EPD_BoosterPack2 pdi_epd;
uint8_t result;
void setup()
{
    Serial.begin(115200);
    delay(500);
    Serial.println();
    Serial.println("*** EPD Tests");
    Serial.print("Driver = ");
    switch (USE_EPD_Type)
    {
        case dr_eTC_BWa:
            Serial.println("dr_eTC_BWa");
            break;

        case dr_eTC_BWb:
            Serial.println("dr_eTC_BWb");
            break;

        case dr_iTC_BWb:
            Serial.println("dr_iTC_BWb");
            break;

        case dr_iTC_BWR:
            Serial.println("dr_iTC_BWR");
            break;
        default:
            Serial.println("?");
            break;
    }

    Serial.print("Size = ");
    switch (USE_EPD_Size)
    {
        case sz_eTC_144:
            Serial.println("sz_eTC_144");
            break;

        case sz_eTC_190:
            Serial.println("sz_eTC_190");
            break;

        case sz_eTC_200:
            Serial.println("sz_eTC_200");
            break;

        case sz_eTC_260:
            Serial.println("sz_eTC_260");
            break;

        case sz_eTC_271:
            Serial.println("sz_eTC_271");
            break;

        case sz_iTC_215:
            Serial.println("sz_iTC_215");
            break;

        case sz_iTC_287:
            Serial.println("sz_iTC_287");
            break;

        case sz_iTC_420:
            Serial.println("sz_iTC_420");
            break;

        case sz_iTC_287R:
            Serial.println("sz_iTC_287R");
            break;

        case sz_iTC_420R:
            Serial.println("sz_iTC_420R");
            break;

        default:
            Serial.println("?");
            break;
    }

    delay(500);
    Serial.print("pdi_epd.begin... 0x");
    result = pdi_epd.begin(EPD_Type, EPD_Size, USE_Temperature_Sensor);
    Serial.println(result, HEX);
}

void loop()
{
    Serial.print("pdi_epd.EPD_display_GU_from_pointer 2... 0x");
    result = pdi_epd.EPD_display_GU_from_pointer(Image2, Image1);
    Serial.println(result, HEX);
    delay(5000);
    Serial.print("pdi_epd.EPD_display_GU_from_pointer 1... 0x");
    result = pdi_epd.EPD_display_GU_from_pointer(Image1, Image2);
    Serial.println(result, HEX);
    delay(5000);
}
	/**
	* Copyright (c) Pervasive Displays Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are met:
	*
	* 1. Redistributions of source code must retain the above copyright notice,
	* this list of conditions and the following disclaimer.
	*
	* 2. Redistributions in binary form must reproduce the above copyright notice,
	* this list of conditions and the following disclaimer in the documentation
	* and/or other materials provided with the distribution.
	*
	* 3. The name of Atmel may not be used to endorse or promote products derived
	* from this software without specific prior written permission.
	*
	* 4. This software may only be redistributed and used in connection with an
	* Atmel microcontroller product.
	*
	* THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED
	* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
	* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
	* EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR
	* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
	* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
	* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
	* POSSIBILITY OF SUCH DAMAGE.
	*
	**/

	#include <SPI.h>
	#include "Pervasive_EPD_BoosterPack2.h"

	/ Important ****************************************************************
	* - To understand more of the definitions of film material, drivers and sizes,
	* please visit http://www.pervasivedisplays.com/products and
	* http://www.pervasivedisplays.com/products/label_info
	* - This example code is made with EPD Extension Kit Gen 2 (EXT2).
	* Visit http://www.pervasivedisplays.com/kits/ext2_kit for more details.
	* - Technical support: http://www.pervasivedisplays.com/contact/technical-support
	* - For converting any image file to image array as .c file, please download
	* PDi Apps from http://www.pervasivedisplays.com/kits/ext2_kit#Utility by the
	* [Bitmap] tab of PDi Apps.
	**/

	/* Glossary of Acronyms
	* GU = Global Update
	* PU = Partial Update
	* LUT = Look-up table, the array to define the parameters of driving waveform
	* OTP = One Time Programming, the LUTs are pre-programmed in driver IC
	*/

	/**
	* \brief define the timing controller type and size of EPD
	* \note
	* - eTC=external timing controller (driver IC)
	* - iTC=internal timing controller */
	// eTC
	#define sz_eTC_144 0 //J7 Switches 0000 001x
	#define sz_eTC_190 1 //J7 Switches 0000 000x
	#define sz_eTC_200 2 //J7 Switches 0000 001x
	#define sz_eTC_260 3 //J7 Switches 0000 000x
	#define sz_eTC_271 4 //J7 Switches 0000 000x
	// iTC
	#define sz_iTC_215 5 //J7 Switches 1010 000x
	#define sz_iTC_287 6 //J7 Switches 0101 010x
	#define sz_iTC_420 7 //J7 Switches 0101 010x
	//iTC Spectra
	#define sz_iTC_287R 8 //J7 Switches 0101 010x
	#define sz_iTC_420R 9 //J7 Switches 0101 010x

	/**
	* \brief define the EPD drivers with film material
	* \note
	* - BW=black and white colors, Aurora film
	* - BWR=black, white and red colors, Spectra-red film
	* - a=Aurora Ma (V230)
	* - b=Aurora Mb (V231) */
	#define dr_eTC_BWa 0
	#define dr_eTC_BWb 1
	#define dr_iTC_BWb 2
	#define dr_iTC_BWR 3

	/**
	* \brief Configure the following two definitions by your connected display model */
	#define USE_EPD_Type dr_iTC_BWR
	#define USE_EPD_Size sz_iTC_287R


	#if (USE_EPD_Type==dr_eTC_BWa \|\| USE_EPD_Type==dr_eTC_BWb)
	#if(USE_EPD_Type==dr_eTC_BWa)
	#define EPD_Type dr_eTC_G2_Aurora_Ma
	#else
	#define EPD_Type dr_eTC_G2_Aurora_Mb
	#endif
	#if(USE_EPD_Size==sz_eTC_144)
	#include "examples/Images/Image_eTC_144_01.c"
	#include "examples/Images/Image_eTC_144_02.c"
	#define EPD_Size EPD_144_BW
	#define Image1 (uint8_t *)&Image_eTC_144_01
	#define Image2 (uint8_t *)&Image_eTC_144_02
	#elif(USE_EPD_Size==sz_eTC_190)
	#include "examples/Images/Image_eTC_190_01.c"
	#include "examples/Images/Image_eTC_190_02.c"
	#define EPD_Size EPD_190_BW
	#define Image1 (uint8_t *)&Image_eTC_190_01
	#define Image2 (uint8_t *)&Image_eTC_190_02
	#elif(USE_EPD_Size==sz_eTC_200)
	#include "examples/Images/Image_eTC_200_01.c"
	#include "examples/Images/Image_eTC_200_02.c"
	#define EPD_Size EPD_200_BW
	#define Image1 (uint8_t *)&Image_eTC_200_01
	#define Image2 (uint8_t *)&Image_eTC_200_02
	#elif(USE_EPD_Size==sz_eTC_260)
	#include "examples/Images/Image_eTC_260_01.c"
	#include "examples/Images/Image_eTC_260_02.c"
	#define EPD_Size EPD_260_BW
	#define Image1 (uint8_t *)&Image_eTC_260_01
	#define Image2 (uint8_t *)&Image_eTC_260_02
	#elif(USE_EPD_Size==sz_eTC_271)
	#include "examples/Images/Image_eTC_271_01.c"
	#include "examples/Images/Image_eTC_271_02.c"
	#define EPD_Size EPD_271_BW
	#define Image1 (uint8_t *)&Image_eTC_271_01
	#define Image2 (uint8_t *)&Image_eTC_271_02
	#endif

	#elif(USE_EPD_Type==dr_iTC_BWb)
	#define EPD_Type dr_iTC_Drivers
	#if(USE_EPD_Size==sz_iTC_215)
	#include "examples/Images/Image_iTC_215_01.c"
	#include "examples/Images/Image_iTC_215_02.c"
	#define EPD_Size EPD_215_BW
	#define Image1 (uint8_t *)&Image_iTC_215_01
	#define Image2 (uint8_t *)&Image_iTC_215_02
	#elif(USE_EPD_Size==sz_iTC_287)
	#include "examples/Images/Image_iTC_287_01.c"
	#include "examples/Images/Image_iTC_287_02.c"
	#define EPD_Size EPD_287_BW
	#define Image1 (uint8_t *)&Image_iTC_287_01
	#define Image2 (uint8_t *)&Image_iTC_287_02
	#elif(USE_EPD_Size==sz_iTC_420)
	#include "examples/Images/Image_iTC_420_01.c"
	#include "examples/Images/Image_iTC_420_02.c"
	#define EPD_Size EPD_420_BW
	#define Image1 (uint8_t *)&Image_iTC_420_01
	#define Image2 (uint8_t *)&Image_iTC_420_02
	#endif
	#elif(USE_EPD_Type==dr_iTC_BWR)
	#define EPD_Type dr_iTC_Drivers
	#if(USE_EPD_Size==sz_iTC_287R)
	#include "examples/Images/Image_iTC_287SP_01.c"
	#include "examples/Images/Image_iTC_287SP_02.c"
	#define EPD_Size EPD_287_BWR
	#define Image1 (uint8_t *)&Image_iTC_287SP_01
	#define Image2 (uint8_t *)&Image_iTC_287SP_02
	#elif(USE_EPD_Size==sz_iTC_420R)
	#include "examples/Images/Image_iTC_420SP_01.c"
	#include "examples/Images/Image_iTC_420SP_02.c"
	#define EPD_Size EPD_420_BWR
	#define Image1 (uint8_t *)&Image_iTC_420SP_01
	#define Image2 (uint8_t *)&Image_iTC_420SP_02
	#endif
	#endif

	// This example will toggle between two images.
	Pervasive_EPD_BoosterPack2 pdi_epd;
	uint8_t result;
	void setup()
	{
	Serial.begin(115200);
	delay(500);
	Serial.println();
	Serial.println("*** EPD Tests");
	Serial.print("Driver = ");
	switch (USE_EPD_Type)
	{
	case dr_eTC_BWa:
	Serial.println("dr_eTC_BWa");
	break;

	case dr_eTC_BWb:
	Serial.println("dr_eTC_BWb");
	break;

	case dr_iTC_BWb:
	Serial.println("dr_iTC_BWb");
	break;

	case dr_iTC_BWR:
	Serial.println("dr_iTC_BWR");
	break;
	default:
	Serial.println("?");
	break;
	}

	Serial.print("Size = ");
	switch (USE_EPD_Size)
	{
	case sz_eTC_144:
	Serial.println("sz_eTC_144");
	break;

	case sz_eTC_190:
	Serial.println("sz_eTC_190");
	break;

	case sz_eTC_200:
	Serial.println("sz_eTC_200");
	break;

	case sz_eTC_260:
	Serial.println("sz_eTC_260");
	break;

	case sz_eTC_271:
	Serial.println("sz_eTC_271");
	break;

	case sz_iTC_215:
	Serial.println("sz_iTC_215");
	break;

	case sz_iTC_287:
	Serial.println("sz_iTC_287");
	break;

	case sz_iTC_420:
	Serial.println("sz_iTC_420");
	break;

	case sz_iTC_287R:
	Serial.println("sz_iTC_287R");
	break;

	case sz_iTC_420R:
	Serial.println("sz_iTC_420R");
	break;

	default:
	Serial.println("?");
	break;
	}

	delay(500);
	Serial.print("pdi_epd.begin... 0x");
	result = pdi_epd.begin(EPD_Type, EPD_Size, USE_Temperature_Sensor);
	Serial.println(result, HEX);
	}

	void loop()
	{
	Serial.print("pdi_epd.EPD_display_GU_from_pointer 2... 0x");
	result = pdi_epd.EPD_display_GU_from_pointer(Image2, Image1);
	Serial.println(result, HEX);
	delay(5000);
	Serial.print("pdi_epd.EPD_display_GU_from_pointer 1... 0x");
	result = pdi_epd.EPD_display_GU_from_pointer(Image1, Image2);
	Serial.println(result, HEX);
	delay(5000);
	}