Difference between revisions of "4.2inch e-Paper Module"

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Revision as of 05:56, 13 May 2022

4.2inch e-Paper
4.2inch-e-Paper-1.jpg

400x300, 4.2inch EPD panel
4.2inch e-Paper Module
4.2inch-e-paper-module-5.jpg

400x300, 4.2inch EPD module, SPI interface
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Introduction

Note: As the raw panel requires a driver board, we recommend you to buy the HAT or buy a driver hat for using, or you need to make the driver board by yourself. And this instruction is based on the version with PCB or driver board.

400x300, 4.2inch EPD (Electronic Paper Display) module, SPI interface

More

Feature

  • Dimension:4.2inch
  • Outline dimension(screen): 90.1mm x 77.0mm x 1.18mm
  • Outline dimension(driver board): 103.0mm x 78.5mm
  • Display dimension: 84.8mm x 63.6mm
  • Working voltage:3.3V/5V
  • Communication interface: SPI
  • Dot spacing: 0.212 x 0.212
  • Resolution: 400*300
  • Display color: Black, White
  • Gray level: 4
  • Global refresh: 4s
  • Refresh Power Consumption: 26.4mW(typ.)
  • Sleep current: <0.01uA(close to0)
  • Note:

1.Refresh time: The refresh time is the experimental results, the actual refresh time will have errors, and the actual effect shall prevail. There will be a flickering effect during the global refresh process, this is a normal phenomenon
2.Power consumption: The power consumption data is the experimental results. The actual power consumption will have a certain error due to the existence of the driver board and the actual use situation. The actual effect shall prevail.

SPI Communication Timing

1.54inch-e-paper-manual-1.png

Since the ink screen only needs to be displayed, the data cable (MISO) sent from the machine and received by the host is hidden here.

  • CS: Slave chip select, when CS is low, the chip is enabled
  • DC: data/command control pin, write command when DC=0; write data when DC=1
  • SCLK: SPI communication clock
  • SDIN: SPI communication master sends, slave receives
  • Timing: CPHL=0, CPOL=0 (SPI0)

[Remarks] For specific information about SPI, you can search for information online.

Working principle

This product is an E-paper device adopting the image display technology of Microencapsulated Electrophoretic Display, MED. The initial approach is to create tiny spheres, in which the charged color pigments are suspended in the transparent oil and would move depending on the electronic charge. The E-paper screen display patterns by reflecting the ambient light, so it has no background light requirement. Under ambient light, the E-paper screen still has high visibility with a wide viewing angle of 180 degrees. It is the ideal choice for E-reading. (Note that the e-Paper cannot support updating directly under sunlight)

Pixel & Byte

We define the pixels in a monochrome picture, 0 is black and 1 is white.
White:□: Bit 1
Black:■: Bit 0

  • The dot in the figure is called a pixel. As we know, 1 and 0 are used to define the color, therefore we can use one bit to define the color of one pixel, and 1 byte = 8pixels
  • For example, If we set the first 8 pixels to black and the last 8 pixels to white, we show it by codes, they will be 16 bit as below:

E-paper hardware work 1.png

For computer, the data is saved in MSB format:
E-paper hardware work 2.png
So we can use two bytes for 16 pixels.

  • 4.2inch e-paper's 4-level display (black and white 2-level display is still the same as above)

First of all, we need to understand the 4 grayscale picture, which shows that the brightness change between the brightest and the darkest is divided into 4 parts, from white to black, with 2 more colors in the middle, we can define it as light gray, dark Ash.
Black: 00b
Dark Grey: 01b
Light Gray: 10b
White: 11b
In order to save storage space in general computers, four grays generally occupy 2 bytes. In the above example, taking 8 pixels as an example, 2 pixels are black, 2 pixels are dark gray, 2 pixels are light gray, and 2 pixels are White:
Pixel.png
The same 4 grayscale picture can be regarded as the superposition of 2 pictures. The same pixel of different pictures is superimposed to form a pixel. There are 4 combinations of this point, that is, 4 grayscales:

Register White Light Gray Dark Gray Black
0x10 0x01 0x01 0x00 0x00
0x13 0x01 0x00 0x01 0x00

The relationship between the 4 grayscales and the memory has been known above, and it is known that the color of the ink screen is inconsistent with different combinations, so the above data needs to be converted:
E-paper hardware work 9.png

Precautions

  1. For the screen that supports partial update, please note that you cannot refresh the screen with the partial mode all the time. After several partial updating, you need to fully refresh the screen once. Otherwise, the screen display effect will be abnormal, which cannot be repaired!
  2. Because of the different batches, some of them have aberrations. Store the e-Paper right side up will reduce it. And if the e-Paper didn't be refreshed for a long time, it will become more and more reddish/yellowish. Please use the demo code to refresh the e-paper several times in this case.
  3. Note that the screen cannot be powered on for a long time. When the screen is not refreshed, please set the screen to sleep mode, or power off the e-Paper. Otherwise, the screen will remain in a high voltage state for a long time, which will damage the e-Paper and cannot be repaired!
  4. When using the e-Paper, it is recommended that the refresh interval be at least 180s, and refresh at least once every 24 hours. If the e-Paper is not used for a long time, the ink screen should be brushed and stored. (Refer to the datasheet for specific storage environment requirements)
  5. After the screen enters sleep mode, the sent image data will be ignored, and it can be refreshed normally only after initializing again.
  6. Control the 0x3C or 0x50 (refer to the datasheet for details) register to adjust the border color. In the routine, you can adjust the Border Waveform Control register or VCOM AND DATA INTERVAL SETTING to set the border.
  7. If you find that the created image data is displayed incorrectly on the screen, it is recommended to check whether the image size setting is correct, change the width and height settings of the image and try again.
  8. The working voltage of the e-Paper is 3.3V. If you buy the raw panel and you need to add a level convert circuit for compatibility with 5V voltage. The new version of the driver board (V2.1 and subsequent versions) has added a level processing circuit, which can support both 3.3V and 5V working environments. The old version can only support a 3.3V working environment. You can confirm the version before using it. (The one with the 20-pin chip on the PCB is generally the new version)
  9. The FPC cable of the screen is relatively fragile, pay attention to bending the cable along the horizontal direction of the screen when using it, and do not bend the cable along the vertical direction of the screen
  10. The screen of e-Paper is relatively fragile, please try to avoid dropping, bumping, and pressing hard.
  11. We recommend that customers use the sample program provided by us to test with the corresponding development board after they get the screen.

Users Guides of Raspberry Pi

Hardware connection

If the e-Paper you have is the HAT version which has 40pin GPIO, you can directly attach the e-Paper HAT on Raspberry Pi, otherwise, you can connect your e-Paper to Raspberry Pi by 8pins cable provided.

To connect the e-Paper, you can following the table below
Connect to Raspberry Pi
e-Paper Raspberry Pi
BCM2835 Board
VCC 3.3V 3.3V
GND GND GND
DIN MOSI 19
CLK SCLK 23
CS CE0 24
DC 25 22
RST 17 11
BUSY 24 18

Take the 7.5inch HD e-Paper (B) connected to the e-paper Driver HAT as an example, just plug it directly into the Raspberry Pi:
7.5inchrasp.png

Enable SPI interface

The communication interface of e-Paper is SPI, to use it, we should firstly enable SPI interface
Open terminal of Raspberry Pi, and open configuration by the following command
sudo raspi-config
Choose Interfacing Options -> SPI -> Yes
Restart Raspberry Pi
sudo reboot

RPI open spi.png

Install libraries

Note: If you use the Bullseye image, please use apt instead of apt-get to install libraries, the Bullseye image could only support ptyhon3.
Open terminal of Raspberry Pi and run the following commands to install corresponding libraries:

  • Install BCM2835 libraries
#Open the Raspberry Pi terminal and run the following command
wget http://www.airspayce.com/mikem/bcm2835/bcm2835-1.71.tar.gz
tar zxvf bcm2835-1.71.tar.gz
cd bcm2835-1.71/
sudo ./configure && sudo make && sudo make check && sudo make install
# For more information, please refer to the official website: http://www.airspayce.com/mikem/bcm2835/
  • Install WiringPi libraries
#Open the Raspberry Pi terminal and run the following command
sudo apt-get install wiringpi
#For Raspberry Pi systems after May 2019 (earlier than before, you may not need to execute), you may need to upgrade:
wget https://project-downloads.drogon.net/wiringpi-latest.deb
sudo dpkg -i wiringpi-latest.deb
gpio -v
# Run gpio -v and version 2.52 will appear. If it does not appear, the installation is wrong
#Bullseye branch system use the following command:
git clone https://github.com/WiringPi/WiringPi
cd WiringPi
./build
gpio -v
# Run gpio -v and version 2.60 will appear. If it does not appear, it means that there is an installation error
  • Install Python2 libraries
 sudo apt-get update
 sudo apt-get install python-pip
 sudo apt-get install python-pil
 sudo apt-get install python-numpy
 sudo pip install RPi.GPIO
 sudo pip install spidev
  • Install Python3 libraries
sudo apt-get update
sudo apt-get install python3-pip
sudo apt-get install python3-pil
sudo apt-get install python3-numpy
sudo pip3 install RPi.GPIO
sudo pip3 install spidev

Download demo codes

Open the Raspberry Pi terminal and execute:
Method 1: Download from our official website

sudo apt-get install p7zip-full
wget https://www.waveshare.com/w/upload/3/39/E-Paper_code.7z
7z x E-Paper_code.7z -O./e-Paper
cd e-Paper/RaspberryPi_JetsonNano/

Method 2: Use GitHub

git clone https://github.com/waveshare/e-Paper
cd e-Paper/RaspberryPi_JetsonNano/

Examples

C

RPI Guide for e-Paper.png

Open main.c to select the screen of the corresponding size

cd c
sudo nano examples/main.c

If you are using 2.7inch e-paper, then remove the // in front of the EPD_2IN7_test() function, then press ctrl+c, press the Y key and Enter to save and exit, as shown in the figure: (The picture may not be updated. Timely, subject to the specific demo)
Supporting types:

1.02inch(128×80):

EPD_1in02d_test():Example for 1.02inch e-Paper/1.02inch e-Paper Module

1.54inch(1.54inch e-paper c:152×152,others:200×200):

EPD_1in54_test(): Example for 1.54inch e-paper V1(Balck/White): This version is stopped production which can be bought before 2019-11-22;
EPD_1in54_V2_test(): Example for 1.54inch e-paper V2(Balck/White): This is the current version that can be bought now (2020-07-29). The e-Paper has V2 sticker on the backside.
EPD_1in54b_test(): Example for 1.54inch e-paper B(Black/White/Red);
EPD_1in54b_V2_test(): Example for 1.54inch e-Paper B V2 (Black/White/Red);
EPD_1in54c_test(): Example for 1.54inch e-paper C(Black/White/Red);

2.7inch(264×176):

EPD_2in7_test(): Example for 2.7inch e-paper(Black/White);
EPD_2in7b_test(): Example for 2.7inch e-paper B(Black.White/Red);
EPD_2in7b_V2_test(): Example for 2.7inch e-paper B V2(Black.White/Red);

2.9inch(296×128):

EPD_2in9_test(): Example for 2.9inch e-paper(Black/White);
EPD_2in9_V2_test(): Example for 2.9inch e-paper V2(Black/White);
EPD_2in9bc_test(): Example for 2.9inch e-paper B(Balck/White/Red) and 2.9inch e-paper C(Black/White/Yellow);
EPD_2in9b_V3_test(): Example for 2.9inch e-paper B V3 (Balck/White/Red);
EPD_2in9d_test(): Example for 2.9inch e-paper D(Black/White);

2.13inch(2.13inch e-Paper:250×122,others:212×104):

EPD_2in13_test(): Example for 2.13inch e-paper V1(Black/White), this version is stopped production and it can be bought before 019-05-15;
EPD_2in13_V2_test(): Example for 2.13inch e-paper V2(Black/White) This is the current version with sticker V2 on the backside (2020-07-29);
EPD_2in13_V3_test(): Example for 2.13inch e-paper V3(Black/White) This is the current version with sticker V3 on the backside (2020-07-29);
EPD_2in13bc_test():Example for 2.13inch e-paper B(Black/White/Red)and 2.13inch e-paper C(Blackj/White/Yellow);
EPD_2in13b_V3_test():Example for 2.13inch e-paper B V3(Black/White/Red)
EPD_2in13d_test(): Example for 2.13inch e-paper D(Black/White);

2.66inch (152 x 296)

EPD_2in66_test(): Example for 2.66inch e-Paper (Black/White);
EPD_2in66b_test(): Example for 2.66inch e-Paper B (Black/White/Red);

3.7inch (280 x 480)

EPD_3in7_test(): Example for 3.7inch e-Paper(Black/White);

4.01inch (640x400)

EPD_4in01_test(): Example for the 4.01inch e-Paper HAT (F);

4.2inch(400×300)

EPD_4in2_test(): Example for 4.2inch e-paper(Black/White);
EPD_4in2bc_test(): Example for 4.2inch e-paper B(Black/White/Red);
EPD_4in2b_V2_test(): Example for 4.2inch e-paper B V2(Black/White/Red);

5.65inch (600x448)

EPD_5in65f_test(): Example for for 5.65inch e-Paper F (Seven-color);

5.83inch(600×448):

EPD_5in83_test(): Example for 5.83inch e-paper(Black/White);
EPD_5in83_V2_test(): Example for 5.83inch e-paper V2(Black/White);
EPD_5in83bc_test(): Example for 5.83inch e-paper B(Black/White/Red)and 5.83inch e-paper C(Black/White/Yellow);
EPD_5in83b_V2_test(): Example for 5.83inch e-paper B V2(Black/White/Red)

7.5inch(V1:640×384, V2:800×480):

EPD_7in5_test(): Example for 7.5inch e-paper(Black/White), this version is stopped production and it can be bought before 2019-12-07;
EPD_7in5bc_test(): Example for 7.5inch e-paper B(Black/White/Red)and 7.5inch e-paper C(Black/White/Yellow),7.5inch e-paper B V1 version is stop production and it can be bought before 2019-12-07;
EPD_7in5_V2_test(): Example for 7.5inch e-paper V2(Black/White), This is the current version with V2 sticker on the backside (2020-07-29)
EPD_7in5bc_V2_test():Example for 7.5inch e-paper B V2(Black/White/Red); This is the current version with V2 sticker on the backside. (2020-07-29);

7.5inch (HD
880 x 528)

EPD_7in5_HD_test(): Example for 7.5inch e-Paper HD (Black/White);
EPD_7in5b_HD_test(): Example for 7.5inch e-Paper B HD (Black/White/Red);

*Note: The above time is for reference only, please refer to the screen logo for the specific version

  • Recompile, the compilation process may take a few seconds
Return to the c directory and run the following command
make clean
make
sudo ./epd

Python

PS: The system of the Bullseye branch only supports Python3.
  • Enter the folder of python code
cd python/examples
ls -al
E-paper rpi change python12.png
  • Run the responding example
sudo python epd_xxx_test.py
sudo python3 epd_xxx_test.py

Supporting types:

1.02inch(128×80):

epd_1in02_test.py:Example for 1.02inch e-Paper/1.02inch e-Paper Module

1.54inch(1.54inch e-paper c:152×152,others:200×200):

epd_1in54_test.py: Example for 1.54inch e-paper V1(Balck/White): This version is stopped production which can be bought before 2019-11-22;
epd_1in54_V2_test.py: Example for 1.54inch e-paper V2(Balck/White): This is the current version which can be bought now (2020-07-29). The e-Paper has V2 sticker on the backside.
epd_1in54b_test.py: Example for 1.54inch e-paper B(Black/White/Red);
epd_1in54b_V2_test.py: Example for 1.54inch e-paper B V2(Black/White/Red);
epd_1in54c_test.py: Example for 1.54inch e-paper C(Black/White/Red);br />

2.7inch(264×176):

epd_2in7_test.py: Example for 2.7inch e-paper(Black/White);
epd_2in7b_test.py: Example for 2.7inch e-paper B(Black.White/Red);
epd_2in7b_V2_test.py: Example for 2.7inch e-paper B V2(Black.White/Red);

2.9inch(296×128):

epd_2in9_test.py: Example for 2.9inch e-paper(Black/White);
epd_2in9_V2_test.py: Example for 2.9inch e-paper V2(Black/White);
epd_2in9bc_test.py: Example for 2.9inch e-paper B(Balck/White/Red) and 2.9inch e-paper C(Black/White/Yellow);
epd_2in9b_V3_test.py: Example for 2.9inch e-paper B V3(Balck/White/Red;
epd_2in9d_test.py: Example for 2.9inch e-paper D(Black/White);

2.13inch(2.13inch e-Paper:250×122,others:212×104):

epd_2in13_test.py: Example for 2.13inch e-paper V1(Black/White), this version is stopped production and it can be bought before 019-05-15;
epd_2in13_V2_test.py: Example for 2.13inch e-paper V2(Black/White) This is the current version with sticker V2 on the backside (2020-07-29);
epd_2in13bc_test.py: Example for 2.13inch e-paper B(Black/White/Red)and 2.13inch e-paper C(Black/White/Yellow);
epd_2in13b_V3_test.py: Example for 2.13inch e-paper B V3(Black/White/Red)
epd_2in13d_test.py: Example for 2.13inch e-paper D(Black/White);

2.66inch (152 x 296)

epd_2in66_test.py: Example for 2.66inch e-Paper (Black/White);
epd_2in66b_test.py: Example for 2.66inch e-Paoer (Black/White/Red);

3.7inch (280 x 480)

epd_3in7_test.py: Example for 3.7inch e-Paper (Black/White);

4.01inch (640x400)

epd_4in01f_test.py: Example for 4.01inch e-Paper (Seven-color);

4.2inch(400×300)

epd_4in2_test.py: Example for 4.2inch e-paper(Black/White);
epd_4in2bc_test.py: Example for 4.2inch e-paper B(Black/White/Red);
epd_4in2b_V2_test.py: Example for 4.2inch e-paper B V2(Black/White/Red);

5.65inch (600x448)

epd_5in65f_test.py: Example for 5.65inch e-Paper F (Seven-color);

5.83inch(600×448):

epd_5in83_test.py: Example for 5.83inch e-paper(Black/White);
epd_5in83_V2_test.py: Example for 5.83inch e-paper V2(Black/White);
epd_5in83bc_test.py: Example for 5.83inch e-paper B(Black/White/Red)and 5.83inch e-paper C(Black/White/Yellow);
epd_5in83b_V2_test.py: Example for 5.83inch e-paper B V2(Black/White/Red)

7.5inch(V1:640×384, V2:800×480):

epd_7in5_test.py: Example for 7.5inch e-paper(Black/White), this version is stopped production and it can be bought before 2019-12-07;
epd_7in5_V2_test.py: Example for 7.5inch e-paper V2(Black/White), This is the current version with V2 sticker on the backside (2020-07-29)
epd_7in5bc_test.py: Example for 7.5inch e-paper B(Black/White/Red)and 7.5inch e-paper C(Black/White/Yellow),7.5inch e-paper B V1 version is stopped production and it can be bought before 2019-12-07;
epd_7in5b_V2_test.py: Example for 7.5inch e-paper B V2(Black/White/Red); This is the current version with V2 sticker on the backside. (2020-07-29);

7.5inch (HD 880 x 528)

epd_7in5_HD_test.py: Example for 7.5inch e-Paper HD (Black/White);
epd_7in5b_HD_test.py: Example for 7.5inch e-Paper B HD (Black/White/Red);

Note: The above time is for reference only, please refer to the screen logo for the specific version
Just run the program corresponding to the screen, the program supports python2/3, take 1.54 V2 as an example

# python2
sudo python2.7 epd_1in54_V2_test.py
# python3
sudo python3 epd_1in54_V2_test.py

Codes Description(API)

The libraries for Raspberry Pi and Jetson Nano are same. Examples contain three parts, hardware interface, EPD driver and the GUI functions.

C

Hardware interface

E-paper Driver HAT RPI Makefile.png

We have carried out the underlying encapsulation. As the hardware platform is different, the internal is various. If you need to know the internal, you can go to the corresponding directory
You can see many definitions in DEV_Config.c(.h), in the directory: RaspberryPi_JetsonNano\c\lib\Config
C language uses two ways to drive: BCM2835 library, WiringPi library. The BCM2835 library is used by default. If you need to use the WiringPi library to drive, you can open RaspberryPi_JetsonNano\c\Makefile and modify lines 13-14.

  • Data type
#define UBYTE   uint8_t
#define UWORD   uint16_t
#define UDOUBLE uint32_t
  • Init and Exit
void DEV_Module_Init(void);
void DEV_Module_Exit(void);

Note: The Init() and Exit() function are used to configure GPIOs . EPD enter sleep mode after Exit() function is used, and the consumption of e-Paper should be 0 in sleep mode if the PCB is Rev2.1 version.

  • GPIO Read/Write
void DEV_Digital_Write(UWORD Pin, UBYTE Value);
UBYTE DEV_Digital_Read(UWORD Pin);
  • SPI transmit data
void DEV_SPI_WriteByte(UBYTE Value);

EPD Driver

The driver file are saved under RaspberryPi&JetsonNano\c\lib\e-Paper
E-paper Driver HAT RPI epd.png

Open .h to see the following functions

  • After the initialization, called when the screen starts working and after exiting sleep mode
//1.54inch e-Paper, 1.54inch e-Paper V2, 2.13inch e-Paper, 2.13inch e-Paper V2, 2.13inch e-Paper (D), 2.9inch e-Paper, 2.9inch e-Paper (D )
void EPD_xxx_Init(UBYTE Mode); // Mode = 0 global refresh initialization, Mode = 1 local refresh initialization
//other models
void EPD_xxx_Init(void);

Where xxx represents the model. If it is 2.13D, the full screen initialization is EPD_2IN13D_Init(0), the partial refresh initialization EPD_2IN13D_Init(1); if it is 1.54 V2, then EPD_1IN54_V2_Init(); if it is 7.5B, it is EPD_7IN5BC_Init(), because 7.5B and 7.5C are common The driver code, but the color displayed is different

  • Clear the screen, brush the ink screen to white
void EPD_xxx_Clear(void);

Where xxx represents the ink screen model. If it is 2.13D, then it is EPD_2IN9D_Clear(); if it is 7.5B, it is EPD_7IN5_Clear(), because 7.5B and 7.5C share the driver code, but the color displayed is different

  • Transfer a frame of picture data and open the display
//Black and white two-color ink screen
void EPD_xxx_Display(UBYTE *Image);
//Black and white red or black and white yellow ink screen
void EPD_xxx_Display(const UBYTE *blackimage, const UBYTE *ryimage);

Note that the following are special cases:

//For 2.13inch e-paper (D), 2.9inch e-paper (D) two flexible screens, partial refresh
void EPD_2IN13D_DisplayPart(UBYTE *Image);
void EPD_2IN9D_DisplayPart(UBYTE *Image);

//For 1.54inch e-paper V2 and 2.13inch e-paper V2, due to the upgrade of the control chip, for partial refresh, it is necessary to call EPD_xxx_DisplayPartBaseImage to display the static background image, that is, to perform partial refresh based on this image, and then call the dynamic EPD_xxx_DisplayPart ()

void EPD_1IN54_V2_DisplayPartBaseImage(UBYTE *Image);
void EPD_1IN54_V2_DisplayPart(UBYTE *Image);
void EPD_2IN13_V2_DisplayPart(UBYTE *Image);
void EPD_2IN13_V2_DisplayPartBaseImage(UBYTE *Image);
  • Enter sleep mode
void EPD_xxx_Sleep(void);

Note that after entering sleep mode, there are only two ways to work again: the first is a hardware reset, and the second is to call the initialization function again.
Where xxx represents the ink screen model. If it is 2.13D, then it is EPD_2IN13D_Sleep(); if it is 7.5B, it is EPD_7IN5BC_Sleep(), because 7.5B and 7.5C share the driver code, but the color displayed is different

GUI functions

GUI files can be found in RaspberryPi&JetsonNano\c\lib\GUI\GUI_Paint.c(.h) directory

E-paper Driver HAT GUI.png

The fonts can be found in the RaspberryPi&JetsonNano\c\lib\Fonts directory

E-paper Driver HAT Fonts.png
Create an image buffer
void Paint_NewImage(UBYTE *image, UWORD Width, UWORD Height, UWORD Rotate, UWORD Color)
  • Image: the Image buffer
  • Width: width of the image
  • Height: Height of the image
  • Rotate: Rotate angle
  • Color: Color of the image
Select image buffer
void Paint_SelectImage(UBYTE *image)
  • The image buffer, it is a pointer of image buffer's first address
Rotate image
This function should be used after Paint_SelectImage()
void Paint_SetRotate(UWORD Rotate)
  • Rotate: The angle rotated. It should be ROTATE_0, ROTATE_90, ROTATE_180, ROTATE_270
  • Note: For different orientation, the position of the first pixel is different, here we take 1.54inch as example

SPI-epaper-C-0.pngSPI-epaper-C-90.pngSPI-epaper-C-180.pngSPI-epaper-C-270.png

Mirroring
void Paint_SetMirroring(UBYTE mirror)
  • mirror: The type of mirroring. (MIRROR_NONE, MIRROR_HORIZONTAL、MIRROR_VERTICAL、MIRROR_ORIGIN)
Set Pixel
This function is used to set the position and types of the pixel
void Paint_SetPixel(UWORD Xpoint, UWORD Ypoint, UWORD Color)
  • Xpoint: The x-axis coordination of pixel
  • Ypoint: The y-axis coordination of pixel
  • Color: The color of the pixel
Clear
This function is used to clear the e-Paper
void Paint_Clear(UWORD Color)
  • Color: The color of the display
Clear window
This function is used to clear a partial area
void Paint_ClearWindows(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color)
  • Xstart: The x-axis coordination of the start point
  • Ystart: The y-axis coordination of the start point
  • Xend: The x-axis coordination of the end point
  • Yend: The y-axis coordination of the end point
  • Color: The color of the windows
Draw point

This function is used to draw point.

void Paint_DrawPoint(UWORD Xpoint, UWORD Ypoint, UWORD Color, DOT_PIXEL Dot_Pixel, DOT_STYLE Dot_Style)
  • Xpoint: The x-axis coordination of point
  • Ypoint: The y-axis coordination of point
  • Dot_Pixel: The size of the point
 	 	 typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  , 	 	// 3 X 3
 	 	 	 DOT_PIXEL_4X4  , 	 	// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
  • Dot_Style: The style of the point
 	 	typedef enum {
 	 	   DOT_FILL_AROUND  = 1,		
 	 	   DOT_FILL_RIGHTUP,
 	 	} DOT_STYLE;
Drawn Line
void Paint_DrawLine(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color, LINE_STYLE Line_Style , LINE_STYLE Line_Style)

This function is used to draw a line

  • Xstart: The start x-axis coordination of the line
  • Ystart: The start y-axis coordination of the line
  • Xend: The end x-axis coordination of the line
  • Yend: The end y-axis coordination of the line
  • Line_width: The width of the line
 	 	typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  ,		// 3 X 3
 	 	 	 DOT_PIXEL_4X4  ,		// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
  • Line_style: The style of the line
 	 	typedef enum {
 	 	 	 LINE_STYLE_SOLID = 0,
 	 	 	 LINE_STYLE_DOTTED,
 	 	} LINE_STYLE;
Draw rectangle

Draw a rectangle from (Xstart, Ystart) to (Xend, Yend).

void Paint_DrawRectangle(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color, DOT_PIXEL Line_width, DRAW_FILL Draw_Fill)
  • Xstart: Start coordinate of X-axes of the rectangle
  • Ystart: Start coordinate of Y-axes of the rectangle
  • Xend: End coordinate of X-end of the rectangle
  • Yend: End coordinate of Y-end of the rectangle
  • Color: color of the rectangle
  • Line_width: The width of edges, 8 sides are available;
 	 	typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  ,		// 3 X 3
 	 	 	 DOT_PIXEL_4X4  ,		// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
 	

  • Draw_Fill: set the rectangle full or empty.
typedef enum {
 	DRAW_FILL_EMPTY = 0,
 	DRAW_FILL_FULL,
} DRAW_FILL;
Draw circle
Draw a circle: In the image cache, with (X_Center Y_Center) as the center, draw a circle with a radius of Radius, you can choose the color, the width of the line, whether to fill the inside of the circle
void Paint_DrawCircle(UWORD X_Center, UWORD Y_Center, UWORD Radius, UWORD Color, DOT_PIXEL Line_width, DRAW_FILL Draw_Fill)
parameter:
 X_Center: X coordinate of the center of the circle
 Y_Center: Y coordinate of the center of the circle
 Radius: the radius of the circle
 Color: fill color
 Line_width: the width of the arc, providing 8 default widths
 typedef enum {
                 DOT_PIXEL_1X1 = 1, // 1 x 1
                 DOT_PIXEL_2X2 , // 2 X 2
                 DOT_PIXEL_3X3 , // 3 X 3
                 DOT_PIXEL_4X4 , // 4 X 4
                 DOT_PIXEL_5X5 , // 5 X 5
                 DOT_PIXEL_6X6 , // 6 X 6
                 DOT_PIXEL_7X7 , // 7 X 7
                 DOT_PIXEL_8X8 , // 8 X 8
 } DOT_PIXEL;
 Draw_Fill: Fill, whether to fill the inside of the circle
          typedef enum {
                        DRAW_FILL_EMPTY = 0,
                        DRAW_FILL_FULL,
 } DRAW_FILL;
Draw character (ASCII)

Set(Xstart Ystart) as letf-top point, draw a ASCII character.

void Paint_DrawChar(UWORD Xstart, UWORD Ystart, const char Ascii_Char, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)

Parameter:

  • Xstart: X coordinate of the left-top pixel of character;
  • Ystart: Y coordinate of the left-top pixel of character;
  • Ascii_Char:Ascii character;
  • Font: 5 fonts are available;
    font12:7*12
    font16:11*16
    font20:14*20
    font24:17*24
  • Color_Foreground: color of character;
  • Color_Background: color of background;
Draw String

Set point (Xstart Ystart) as the left-top pixel, draw a string.

void Paint_DrawString_EN(UWORD Xstart, UWORD Ystart, const char * pString, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)

Parameters:

  • Xstart: X coordinate of left-top pixel of characters;
  • Ystart: Y coordinate of left-top pixel of characters;
  • pString:Pointer of string
  • Font: 5 fonts are available:
    font8:5*8
    font12:7*12
    font16:11*16
    font20:14*20
    font24:17*24
  • Color_Foreground: color of string
  • Color_Background: color of the background
Draw Chinese characters

this function is used to draw Chinese fonts based ON GB2312 fonts.

void Paint_DrawString_CN(UWORD Xstart, UWORD Ystart, const char * pString, cFONT* font, UWORD Color_Foreground, UWORD Color_Background)

Parameters:

  • Xstart: Coordinate of left-top pixel of characters;
  • Ystart: Coordinate of left-top pixel of characters;
  • pString:Pointer of string;
  • Font: GB2312 fonts:
    font12CN:11*21(ascii),16*21 (Chinese)
    font24CN:24*41(ascii),32*41 (Chinese)
  • Color_Foreground: color of string
  • Color_Background: color of the background
Draw number

Draw a string of numbers, (Xstart, Ystart) is the left-top pixel.

void Paint_DrawNum(UWORD Xpoint, UWORD Ypoint, int32_t Nummber, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)

Parameter:

  • Xstart: X coordinate of left-top pixel;
  • Ystart: Y coordicate of left-to pixel;
  • Nummber: the numbers displayed. the numbers are saved in int format, the maximum is 2147483647;
  • Font: 5 fonts are available:
    font8:5*8
    font12:7*12
    font16:11*16
    font20:14*20
    font24:17*24
  • Color_Foreground: color of font;
  • Color_Background: color of background;
Draw image

Send image data of BMP file to buffer

void Paint_DrawBitMap(const unsigned char* image_buffer)

Parameters:

  • image_buffer: adrress of image data in buffer
Read local bmp picture and write it to buffer

Linux platform like Jetson Nano and Raspberry Pi support to directly operate bmp pictures Raspberry Pi & Jetson Nano:RaspberryPi&JetsonNano\c\lib\GUI\GUI_BMPfile.c(.h)

UBYTE GUI_ReadBmp(const char *path, UWORD Xstart, UWORD Ystart)

Parameters:

  • path:The path of BMP pictures
  • Xstart: X coordination of left-top of picture, default 0;
  • Ystart: Y coordination of left-top of picture, default 0;

Testing Code

Test code.png

The first three chapters introduce the classic linux three-layer code structure, here is a little explanation of the user test code
For Raspberry Pi and Jetson Nano, in the directory: RaspberryPi_JetsonNano\c\examples, for all test codes, multiple shields can be made in main.c in this directory;
If you need to run the 7.5inch e-paper test program, you need to remove the 42 line shield

//EPD_5in65f_test();

to

EPD_5in65f_test();

Then compile it again and run

make clean
make
sudo ./epd

Python

Epd.png

For Jetson Nano\Raspberry Pi, based on python2.7 and python3
For python, its calls are not as complicated as C
Raspberry Pi and Jetson Nano: RaspberryPi_JetsonNano\python\lib\

Bottom Interface

The epdconfig.py file encapsulates the underlying interface

  • Initialize module and exit handle:
def module_init()
def module_exit()

Note:
1. The functions are used to set GPIP before and after driving e-Paper
2. If the board you have is printed with Rev2.1, module enter low-ultra mode after Module_Exit(). (as we test, the current is about 0 in this mode);

  • GPIO Read/Write:
def  digital_write(pin, value)
def  digital_read(pin)
  • SPI Write data:
def spi_writebyte(data)

Driver Interface

epdxxx.py (xxx means size, if it is 2.13inch e-paper, it is epd2in13.py, and so on)

  • Initailize e-paper: this function should be used at the begining. It can also be used to wake up e-Paper from Sleep mode.
#For 2.13inch e-Paper、2.9inch e-Paper
def init(self, update) #  Choose lut_full_update or lut_partial_update
#Other type
def init(self)
  • Clear e-paper: This function is used to clear e-Paper to white;
def Clear(self)
def Clear(self, color) # Some types of e-Paper should use this function to clear screen
  • Convert image to arrays
def getbuffer(self, image)
  • Transmit one frame of image data and display
#For two-color e-paper
def display(self, image)

#Because that controllers of 2.13inch e-paper are updated, when partial refresh, they should first use displayPartBaseImage() to display static background, then use displayPart() to dynamaticlly display.
def displayPartBaseImage(self, image)
def displayPart(self, image)
  • Enter sleep mode
def sleep(self)

Testing Function

epd_xxx_test.py (xxx means dimension)python examples are saved in directory:
Raspberry Pi and Jetson Nano:RaspberryPi&JetsonNano\python\examples\
Testing function.png

If the python installed in your OS is python2, you should run examples like below:

sudo python epd_2in13_V2_test.py

If it is python3, the commands should be:

sudo python3 epd_2in13-V2_test.py

Orientation

To rotate the display, you can use transpose function like blackimage = blackimage.transpose(Image.ROTATE_270):

blackimage = blackimage.transpose(Image.ROTATE_270) 
redimage = redimage.transpose(Image.ROTATE_270)
#Support ROTATE_90, ROTATE_180, ROTATE_270

The rotation effect, taking 1.54B as an example, is 0°, 90°, 180°, 270° in sequence
Orientation.png

GUI

Python has a powerful PIL library, which can be used directly to drawing figures. Here we use it for drawing

  • Install the library firstly
sudo apt-get install python3-pil 

Import the library

from PIL import Image,ImageDraw,ImageFont

Image: library; ImageDraw: drawing function; ImageFont: fonts

  • Set image buffer for drawing.
image = Image.new('1', (epd.width, epd.height), 255)  # 255: clear the frame

The first parameter is the depth of color, 1 means 2 grayscale. The second parameter is a tuple of image size. The third parameter is color of the image, 0 is black and 255 is white.

  • Create an image object.
draw = ImageDraw.Draw(image)
  • Draw rectangle
draw.rectangle((0, 10, 200, 34), fill = 0)

The first parameter is a tuple of coordination. 0, 10 is the top-left point of rectangle, 200, 34) is the right-bottom point. fille = 0 set the filled color to black.

  • Draw line
draw.line((16, 60, 56, 60), fill = 0)

The first parameter is a type of coordination, 16, 60 is the begin point, 200, 34 is the end point. fill=0 set the line to black

  • Draw circle
draw.arc((90, 60, 150, 120), 0, 360, fill = 0)

This function is used to draw a encircle of a square. The first parameter is a tuple of coordination of the square. the degree of the circle is 0 to 360 °, fille=0 set the circle to black.
If the figure is not square according to the coordination, you will get an ellipse.。

Besides the arc function, you can also use the chord function for drawing solid circle.

draw.chord((90, 130, 150, 190), 0, 360, fill = 0)

The first parameter is the coordination of the enclosing rectangle. The second and third parameters are the beginning and end degrees of the circle. The fourth parameter is the fill color of the circle.

  • Character

You can directkt import ImageFont model for drawing characters:

font = ImageFont.truetype(os.path.join(picdir, 'Font.ttc'), 24)

You can use the fonts of Windows or other fonts which is in ttc format.

To draw English character, you can directly use the fonts; for Chinese character, you need to add a symbol u:

draw.text((8, 12), 'hello world', font = font, fill = 255)
draw.text((8, 36), u'微雪电子', font = font, fill = 0)

The first parameter is a tuple of coordination of character, the second parameter is the font and las one is set the color.

  • Read local picture
image = Image.open(os.path.join(picdir, 'lin54.bmp'))

The parameter is the path of picture.

  • Other functions.

For more information about the PIL library, you can search online.

User Guides of Jetson Nano

Hardware connection

Because the 40PIN GPIO of Jetson Nano are compatible with Raspberry Pi's and the Jetson.GPIO libraries are compatible with RPi.GPIO, therefore we use the same connection as Raspberry Pi
To connect the e-Paper, you can following the table below
Jetson Nano Connection
e-Paper Jetson Nano Developer Kit
BCM2835 Board
VCC 3.3V 3.3V
GND GND GND
DIN 10(SPI0_MOSI) 19
CLK 11(SPI0_SCK 23
CS 8(SPI0_CS0) 24
DC 25 22
RST 17 11
BUSY 24 18

Software Setting

Install Libraries

Open the terminal of Jetson Nano and run the following commands to install corresponding libraries:

sudo apt-get update
sudo apt-get install python3-pip
sudo pip3 install Jetson.GPIO
sudo groupadd -f -r gpio
sudo usermod -a -G gpio your_user_name
sudo cp /opt/nvidia/jetson-gpio/etc/99-gpio.rules /etc/udev/rules.d/
sudo udevadm control --reload-rules && sudo udevadm trigger
  • Install I2C libraries
sudo apt-get install python3-smbus
  • Install PIL libraries
sudo apt-get install python3-pil
sudo apt-get install python3-numpy

Download Testing Program

Open a linux terminal and execute:
Method 1: Download from our official website, it is recommended to use it.

sudo apt-get install p7zip-full
sudo wget  https://www.waveshare.com/wiki/File:E-Paper_code_(6).7z
7z x E-Paper_code.7z -O./e-Paper
cd e-Paper/RaspberryPi_JetsonNano/

Method 2: Using the github repository, there may be a delay in the update of github, it is recommended to use method 1

sudo git clone https://github.com/waveshare/e-Paper

Run the Test Program

Please execute the following commands under RaspberryPi_JetsonNano, otherwise, the directory will not be indexed

C

2.7inch E-paper.png
  • Modify the main.c file for corresponding e-Paper
cd c
sudo nano examples/main.c 

If you are using 2.7inch e-paper, then remove the // in front of the EPD_2IN7_test() function, then press ctrl+c, then press Y and press Enter to save and exit, as shown:


Supporting Types

1.02inch(128×80):

EPD_1in02d_test():Example for 1.02inch e-Paper/1.02inch e-Paper Module

1.54inch(1.54inch e-paper c:152×152,others:200×200):

EPD_1in54_test(): Example for 1.54inch e-paper V1(Balck/White): This version is stopped production which can be bought before 2019-11-22;
EPD_1in54_V2_test(): Example for 1.54inch e-paper V2(Balck/White): This is the current version that can be bought now (2020-07-29). The e-Paper has V2 sticker on the backside.
EPD_1in54b_test(): Example for 1.54inch e-paper B(Black/White/Red);
EPD_1in54b_V2_test(): Example for 1.54inch e-Paper B V2 (Black/White/Red);
EPD_1in54c_test(): Example for 1.54inch e-paper C(Black/White/Red);

2.7inch(264×176):

EPD_2in7_test(): Example for 2.7inch e-paper(Black/White);
EPD_2in7b_test(): Example for 2.7inch e-paper B(Black.White/Red);
EPD_2in7b_V2_test(): Example for 2.7inch e-paper B V2(Black.White/Red);

2.9inch(296×128):

EPD_2in9_test(): Example for 2.9inch e-paper(Black/White);
EPD_2in9_V2_test(): Example for 2.9inch e-paper V2(Black/White);
EPD_2in9bc_test(): Example for 2.9inch e-paper B(Balck/White/Red) and 2.9inch e-paper C(Black/White/Yellow);
EPD_2in9b_V3_test(): Example for 2.9inch e-paper B V3 (Balck/White/Red);
EPD_2in9d_test(): Example for 2.9inch e-paper D(Black/White);

2.13inch(2.13inch e-Paper:250×122,others:212×104):

EPD_2in13_test(): Example for 2.13inch e-paper V1(Black/White), this version is stopped production and it can be bought before 019-05-15;
EPD_2in13_V2_test(): Example for 2.13inch e-paper V2(Black/White) This is the current version with sticker V2 on the backside (2020-07-29);
EPD_2in13_V3_test(): Example for 2.13inch e-paper V3(Black/White) This is the current version with sticker V3 on the backside (2020-07-29);
EPD_2in13bc_test():Example for 2.13inch e-paper B(Black/White/Red)and 2.13inch e-paper C(Blackj/White/Yellow);
EPD_2in13b_V3_test():Example for 2.13inch e-paper B V3(Black/White/Red)
EPD_2in13d_test(): Example for 2.13inch e-paper D(Black/White);

2.66inch (152 x 296)

EPD_2in66_test(): Example for 2.66inch e-Paper (Black/White);
EPD_2in66b_test(): Example for 2.66inch e-Paper B (Black/White/Red);

3.7inch (280 x 480)

EPD_3in7_test(): Example for 3.7inch e-Paper(Black/White);

4.01inch (640x400)

EPD_4in01_test(): Example for the 4.01inch e-Paper HAT (F);

4.2inch(400×300)

EPD_4in2_test(): Example for 4.2inch e-paper(Black/White);
EPD_4in2bc_test(): Example for 4.2inch e-paper B(Black/White/Red);
EPD_4in2b_V2_test(): Example for 4.2inch e-paper B V2(Black/White/Red);

5.65inch (600x448)

EPD_5in65f_test(): Example for for 5.65inch e-Paper F (Seven-color);

5.83inch(600×448):

EPD_5in83_test(): Example for 5.83inch e-paper(Black/White);
EPD_5in83_V2_test(): Example for 5.83inch e-paper V2(Black/White);
EPD_5in83bc_test(): Example for 5.83inch e-paper B(Black/White/Red)and 5.83inch e-paper C(Black/White/Yellow);
EPD_5in83b_V2_test(): Example for 5.83inch e-paper B V2(Black/White/Red)

7.5inch(V1:640×384, V2:800×480):

EPD_7in5_test(): Example for 7.5inch e-paper(Black/White), this version is stopped production and it can be bought before 2019-12-07;
EPD_7in5bc_test(): Example for 7.5inch e-paper B(Black/White/Red)and 7.5inch e-paper C(Black/White/Yellow),7.5inch e-paper B V1 version is stop production and it can be bought before 2019-12-07;
EPD_7in5_V2_test(): Example for 7.5inch e-paper V2(Black/White), This is the current version with V2 sticker on the backside (2020-07-29)
EPD_7in5bc_V2_test():Example for 7.5inch e-paper B V2(Black/White/Red); This is the current version with V2 sticker on the backside. (2020-07-29);

7.5inch(HD880 x 528)

EPD_7in5_HD_test(): Example for 7.5inch e-Paper HD (Black/White);
EPD_7in5b_HD_test(): Example for 7.5inch e-Paper B HD (Black/White/Red);

*Note: The above time is for reference only, please refer to the screen logo for the specific version

  • Recompile, the compilation process may take a few seconds
Return to the c directory and run the following command
make clean
make
sudo ./epd

Python

Enter the python program directory and run the command ls -al

cd python/examples
ls -al 

E-paper rpi change python1.png

Support Types

1.02inch(128×80):

epd_1in02_test.py:Example for 1.02inch e-Paper/1.02inch e-Paper Module

1.54inch(1.54inch e-paper c:152×152,others:200×200):

epd_1in54_test.py: Example for 1.54inch e-paper V1(Balck/White): This version is stopped production which can be bought before 2019-11-22;
epd_1in54_V2_test.py: Example for 1.54inch e-paper V2(Balck/White): This is the current version which can be bought now (2020-07-29). The e-Paper has V2 sticker on the backside.
epd_1in54b_test.py: Example for 1.54inch e-paper B(Black/White/Red);
epd_1in54b_V2_test.py: Example for 1.54inch e-paper B V2(Black/White/Red);
epd_1in54c_test.py: Example for 1.54inch e-paper C(Black/White/Red);br />

2.7inch(264×176):

epd_2in7_test.py: Example for 2.7inch e-paper(Black/White);
epd_2in7b_test.py: Example for 2.7inch e-paper B(Black.White/Red);
epd_2in7b_V2_test.py: Example for 2.7inch e-paper B V2(Black.White/Red);

2.9inch(296×128):

epd_2in9_test.py: Example for 2.9inch e-paper(Black/White);
epd_2in9_V2_test.py: Example for 2.9inch e-paper V2(Black/White);
epd_2in9bc_test.py: Example for 2.9inch e-paper B(Balck/White/Red) and 2.9inch e-paper C(Black/White/Yellow);
epd_2in9b_V3_test.py: Example for 2.9inch e-paper B V3(Balck/White/Red;
epd_2in9d_test.py: Example for 2.9inch e-paper D(Black/White);

2.13inch(2.13inch e-Paper:250×122,others:212×104):

epd_2in13_test.py: Example for 2.13inch e-paper V1(Black/White), this version is stopped production and it can be bought before 019-05-15;
epd_2in13_V2_test.py: Example for 2.13inch e-paper V2(Black/White) This is the current version with sticker V2 on the backside (2020-07-29);
epd_2in13bc_test.py: Example for 2.13inch e-paper B(Black/White/Red)and 2.13inch e-paper C(Black/White/Yellow);
epd_2in13b_V3_test.py: Example for 2.13inch e-paper B V3(Black/White/Red)
epd_2in13d_test.py: Example for 2.13inch e-paper D(Black/White);

2.66inch (152 x 296)

epd_2in66_test.py: Example for 2.66inch e-Paper (Black/White);
epd_2in66b_test.py: Example for 2.66inch e-Paoer (Black/White/Red);

3.7inch (280 x 480)

epd_3in7_test.py: Example for 3.7inch e-Paper (Black/White);

4.01inch (640x400)

epd_4in01f_test.py: Example for 4.01inch e-Paper (Seven-color);

4.2inch(400×300)

epd_4in2_test.py: Example for 4.2inch e-paper(Black/White);
epd_4in2bc_test.py: Example for 4.2inch e-paper B(Black/White/Red);
epd_4in2b_V2_test.py: Example for 4.2inch e-paper B V2(Black/White/Red);

5.65inch (600x448)

epd_5in65f_test.py: Example for 5.65inch e-Paper F (Seven-color);

5.83inch(600×448):

epd_5in83_test.py: Example for 5.83inch e-paper(Black/White);
epd_5in83_V2_test.py: Example for 5.83inch e-paper V2(Black/White);
epd_5in83bc_test.py: Example for 5.83inch e-paper B(Black/White/Red)and 5.83inch e-paper C(Black/White/Yellow);
epd_5in83b_V2_test.py: Example for 5.83inch e-paper B V2(Black/White/Red)

7.5inch(V1:640×384, V2:800×480):

epd_7in5_test.py: Example for 7.5inch e-paper(Black/White), this version is stopped production and it can be bought before 2019-12-07;
epd_7in5_V2_test.py: Example for 7.5inch e-paper V2(Black/White), This is the current version with V2 sticker on the backside (2020-07-29)
epd_7in5bc_test.py: Example for 7.5inch e-paper B(Black/White/Red)and 7.5inch e-paper C(Black/White/Yellow),7.5inch e-paper B V1 version is stopped production and it can be bought before 2019-12-07;
epd_7in5b_V2_test.py: Example for 7.5inch e-paper B V2(Black/White/Red); This is the current version with V2 sticker on the backside. (2020-07-29);

7.5inch (HD 880 x 528)

epd_7in5_HD_test.py: Example for 7.5inch e-Paper HD (Black/White);
epd_7in5b_HD_test.py: Example for 7.5inch e-Paper B HD (Black/White/Red);

*Note: The above time is for reference only, please refer to the screen logo for the specific version

  • Just run the program corresponding to the screen, the program supports python2/3, take 1.54 V2 as an example
# python2
sudo python2.7 epd_1in54_V2_test.py
# python3
sudo python3 epd_1in54_V2_test.py

Description of codes (API)

The libraries for Raspberry Pi and Jetson Nano are the same. Examples contain three parts, hardware interface, EPD driver, and the GUI functions.

C

Hardware interface

Two libraries are used by C example, WiringPi, and BCM2835. The codes use wiringPi by default, if you want to use BCM2835, you can modify the RaspberryPi&JetsonNano\c\Makefile file, modify lines 13 and 14. Change it as below:
E-paper Driver HAT RPI Makefile.png
  • Data type
#define UBYTE   uint8_t
#define UWORD   uint16_t
#define UDOUBLE uint32_t
  • Init and Exit
void DEV_Module_Init(void);
void DEV_Module_Exit(void);
Note: The Init() and Exit() function are used to configure GPIOs . EPD enter sleep mode after Exit() function is used, and the consumption of e-Paper should be 0 in sleep mode if the PCB is Rev2.1 version.
  • GPIO Read/Write
void DEV_Digital_Write(UWORD Pin, UBYTE Value);
UBYTE DEV_Digital_Read(UWORD Pin);
  • SPI transmit data
void DEV_SPI_WriteByte(UBYTE Value);

EPD

e-paper driver code file, in the directory: RaspberryPi_JetsonNano\c\lib\e-Paper
As shown below:
Epd-1.02inch.png
Open .h to see the following functions

  • After the initialization, called when the screen starts working and after exiting sleep mode
//1.54inch e-Paper, 1.54inch e-Paper V2, 2.13inch e-Paper, 2.13inch e-Paper V2, 2.13inch e-Paper (D), 2.9inch e-Paper, 2.9inch e-Paper (D )
void EPD_xxx_Init(UBYTE Mode); // Mode = 0 global refresh initialization, Mode = 1 local refresh initialization
//other models
void EPD_xxx_Init(void);

Where xxx represents the model. If it is 2.13D, the full screen initialization is EPD_2IN13D_Init(0), the partial refresh initialization EPD_2IN13D_Init(1); if it is 1.54 V2, then EPD_1IN54_V2_Init(); if it is 7.5B, it is EPD_7IN5BC_Init(), because 7.5B and 7.5C are common The driver code, but the color displayed is different

  • Clear the screen, brush the ink screen to white
void EPD_xxx_Clear(void);

Where xxx represents the ink screen model. If it is 2.13D, then it is EPD_2IN9D_Clear(); if it is 7.5B, it is EPD_7IN5_Clear(), because 7.5B and 7.5C share the driver code, but the color displayed is different

  • Transfer a frame of picture data and open the display
//Black and white two-color ink screen
void EPD_xxx_Display(UBYTE *Image);
//Black and white red or black and white yellow ink screen
void EPD_xxx_Display(const UBYTE *blackimage, const UBYTE *ryimage);

Note that the following are special cases:

//For 2.13inch e-paper (D), 2.9inch e-paper (D) two flexible screens, partial refresh
void EPD_2IN13D_DisplayPart(UBYTE *Image);
void EPD_2IN9D_DisplayPart(UBYTE *Image);

//For 1.54inch e-paper V2 and 2.13inch e-paper V2, due to the upgrade of the control chip, for partial refresh, it is necessary to call EPD_xxx_DisplayPartBaseImage to display the static background image, that is, to perform partial refresh based on this image, and then call the dynamic EPD_xxx_DisplayPart ()

void EPD_1IN54_V2_DisplayPartBaseImage(UBYTE *Image);
void EPD_1IN54_V2_DisplayPart(UBYTE *Image);
void EPD_2IN13_V2_DisplayPart(UBYTE *Image);
void EPD_2IN13_V2_DisplayPartBaseImage(UBYTE *Image);
  • Enter sleep mode
void EPD_xxx_Sleep(void);

Note that after entering sleep mode, there are only two ways to work again: the first is a hardware reset, and the second is to call the initialization function again.
Where xxx represents the ink screen model. If it is 2.13D, then it is EPD_2IN13D_Sleep(); if it is 7.5B, it is EPD_7IN5BC_Sleep(), because 7.5B and 7.5C share the driver code, but the color displayed is different

GUI Functions

GUI files can be found in RaspberryPi&JetsonNano\c\lib\GUI\GUI_Paint.c(.h) directory

E-paper Driver HAT GUI.png

The fonts can be found in RaspberryPi&JetsonNano\c\lib\Fonts directory

E-paper Driver HAT Fonts.png
Create an image buffer
void Paint_NewImage(UBYTE *image, UWORD Width, UWORD Height, UWORD Rotate, UWORD Color)
  • Image: the Image buffer
  • Width: width of the image
  • Height: Height of the image
  • Rotate: Rotate angle
  • Color: Color of the image
Select image buffer
void Paint_SelectImage(UBYTE *image)
  • The image buffer, it is a pointer of image buffer's first address
Rotate image
This function should be used after Paint_SelectImage()
void Paint_SetRotate(UWORD Rotate)
  • Rotate: The angle rotated. It should be ROTATE_0, ROTATE_90, ROTATE_180, ROTATE_270
  • Note: For different orientation, the position of the first pixel is different, here we take 1.54inch as example

SPI-epaper-C-0.pngSPI-epaper-C-90.pngSPI-epaper-C-180.pngSPI-epaper-C-270.png

Mirroring
void Paint_SetMirroring(UBYTE mirror)
  • mirror: The type of mirroring. (MIRROR_NONE, MIRROR_HORIZONTAL、MIRROR_VERTICAL、MIRROR_ORIGIN)
Set Pixel
This function is used to set the position and types of the pixel
void Paint_SetPixel(UWORD Xpoint, UWORD Ypoint, UWORD Color)
  • Xpoint: The x-axis coordination of pixel
  • Ypoint: The y-axis coordination of pixel
  • Color: The color of the pixel
Clear
This function is used to clear the e-Paper
void Paint_Clear(UWORD Color)
  • Color: The color of the display
Clear window
This function is used to clear a partial area
void Paint_ClearWindows(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color)
  • Xstart: The x-axis coordination of the start point
  • Ystart: The y-axis coordination of the start point
  • Xend: The x-axis coordination of the end point
  • Yend: The y-axis coordination of the end point
  • Color: The color of the windows
Draw point

This function is used to draw points.

void Paint_DrawPoint(UWORD Xpoint, UWORD Ypoint, UWORD Color, DOT_PIXEL Dot_Pixel, DOT_STYLE Dot_Style)
  • Xpoint: The x-axis coordination of point
  • Ypoint: The y-axis coordination of point
  • Dot_Pixel: The size of the point
 	 	 typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  , 	 	// 3 X 3
 	 	 	 DOT_PIXEL_4X4  , 	 	// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
  • Dot_Style: The style of the point
 	 	typedef enum {
 	 	   DOT_FILL_AROUND  = 1,		
 	 	   DOT_FILL_RIGHTUP,
 	 	} DOT_STYLE;
Drawn Line
void Paint_DrawLine(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color, LINE_STYLE Line_Style , LINE_STYLE Line_Style)

This function is used to draw a line

  • Xstart: The start x-axis coordination of the line
  • Ystart: The start y-axis coordination of the line
  • Xend: The end x-axis coordination of the line
  • Yend: The end y-axis coordination of the line
  • Line_width: The width of the line
 	 	typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  ,		// 3 X 3
 	 	 	 DOT_PIXEL_4X4  ,		// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
  • Line_style: The style of the line
 	 	typedef enum {
 	 	 	 LINE_STYLE_SOLID = 0,
 	 	 	 LINE_STYLE_DOTTED,
 	 	} LINE_STYLE;
Draw rectangle

Draw a rectangle from (Xstart, Ystart) to (Xend, Yend).

void Paint_DrawRectangle(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color, DOT_PIXEL Line_width, DRAW_FILL Draw_Fill)
  • Xstart: Start coordinate of X-axes of the rectangle
  • Ystart: Start coordinate of Y-axes of the rectangle
  • Xend: End coordinate of X-end of the rectangle
  • Yend: End coordinate of Y-end of the rectangle
  • Color: color of the rectangle
  • Line_width: The width of edges, 8 sides are available;
 	 	typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  ,		// 3 X 3
 	 	 	 DOT_PIXEL_4X4  ,		// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
 	

  • Draw_Fill: set the rectangle full or empty.
typedef enum {
 	DRAW_FILL_EMPTY = 0,
 	DRAW_FILL_FULL,
} DRAW_FILL;
  • Draw a circle: In the image cache, with (X_Center Y_Center) as the center, draw a circle with a radius of Radius, you can choose the color, the width of the line, whether to fill the inside of the circle
void Paint_DrawCircle(UWORD X_Center, UWORD Y_Center, UWORD Radius, UWORD Color, DOT_PIXEL Line_width, DRAW_FILL Draw_Fill)
parameter:
          X_Center: X coordinate of the center of the circle
          Y_Center: Y coordinate of the center of the circle
          Radius: the radius of the circle
          Color: fill color
          Line_width: the width of the arc, providing 8 default widths
                       typedef enum {
                                      DOT_PIXEL_1X1 = 1, // 1 x 1
                                      DOT_PIXEL_2X2 , // 2 X 2
                                      DOT_PIXEL_3X3 , // 3 X 3
                                      DOT_PIXEL_4X4 , // 4 X 4
                                      DOT_PIXEL_5X5 , // 5 X 5
                                      DOT_PIXEL_6X6 , // 6 X 6
                                      DOT_PIXEL_7X7 , // 7 X 7
                                      DOT_PIXEL_8X8 , // 8 X 8
 } DOT_PIXEL;
 Draw_Fill: Fill, whether to fill the inside of the circle
            typedef enum {
                          DRAW_FILL_EMPTY = 0,
                          DRAW_FILL_FULL,
 } DRAW_FILL; 
Draw character (ASCII)

Set(Xstart Ystart) as letf-top point, draw a ASCII character.

void Paint_DrawChar(UWORD Xstart, UWORD Ystart, const char Ascii_Char, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)

Parameter:

  • Xstart: X coordinate of the left-top pixel of character;
  • Ystart: Y coordinate of the left-top pixel of character;
  • Ascii_Char:Ascii character;
  • Font: 5 fonts are available;
    font12:7*12
    font16:11*16
    font20:14*20
    font24:17*24
  • Color_Foreground: color of character;
  • Color_Background: color of background;
Draw String

Set point (Xstart Ystart) as the left-top pixel, draw a string.

void Paint_DrawString_EN(UWORD Xstart, UWORD Ystart, const char * pString, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)

Parameters:

  • Xstart: X coordinate of left-top pixel of characters;
  • Ystart: Y coordinate of left-top pixel of characters;
  • pString:Pointer of string
  • Font: 5 fonts are available:
    font8:5*8
    font12:7*12
    font16:11*16
    font20:14*20
    font24:17*24
  • Color_Foreground: color of string
  • Color_Background: color of the background
Draw Chinese characters

this function is used to draw Chinese fonts based ON GB2312 fonts.

void Paint_DrawString_CN(UWORD Xstart, UWORD Ystart, const char * pString, cFONT* font, UWORD Color_Foreground, UWORD Color_Background)

Parameters:

  • Xstart: Coordinate of left-top pixel of characters;
  • Ystart: Coordinate of left-top pixel of characters;
  • pString:Pointer of string;
  • Font: GB2312 fonts:
    font12CN:11*21(ascii),16*21 (Chinese)
    font24CN:24*41(ascii),32*41 (Chinese)
  • Color_Foreground: color of string
  • Color_Background: color of the background
Draw number

Draw a string of numbers, (Xstart, Ystart) is the left-top pixel.

void Paint_DrawNum(UWORD Xpoint, UWORD Ypoint, int32_t Nummber, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)

Parameter:

  • Xstart: X coordinate of left-top pixel;
  • Ystart: Y coordicate of left-to pixel;
  • Nummber: the numbers displayed. the numbers are saved in int format, the maximum is 2147483647;
  • Font: 5 fonts are available:
    font8:5*8
    font12:7*12
    font16:11*16
    font20:14*20
    font24:17*24
  • Color_Foreground: color of font;
  • Color_Background: color of background;
Draw image

Send image data of BMP file to buffer

void Paint_DrawBitMap(const unsigned char* image_buffer)

Parameters:

  • image_buffer: adrress of image data in buffer
Read local bmp picture and write it to buffer

Linux platform like Jetson Nano and Raspberry Pi support to directly operate bmp pictures Raspberry Pi & Jetson Nano:RaspberryPi&JetsonNano\c\lib\GUI\GUI_BMPfile.c(.h)

UBYTE GUI_ReadBmp(const char *path, UWORD Xstart, UWORD Ystart)

Parameters:

  • path:The path of BMP pictures
  • Xstart: X coordination of left-top of picture, default 0;
  • Ystart: Y coordination of left-top of picture, default 0;

Testing Code

Test code.png

The first three chapters introduce the classic linux three-layer code structure, here is a little explanation of the user test code
For Raspberry Pi and Jetson Nano, in the directory: RaspberryPi_JetsonNano\c\examples, for all test codes, multiple shields can be made in main.c in this directory;
If you need to run the 7.5inch e-paper test program, you need to remove the 42 line shield

// EPD_7in5_test();

change to

EPD_7in5_test();

Re-execute in linux command mode as follows:

make clean
make
sudo ./epd

Python

For Jetson Nano\Raspberry Pi, based on python2.7 and python3
python is easy to use than c codes
Raspberry Pi and Jetson Nano:RaspberryPi&JetsonNano\python\lib\
Epd.png

Bottom Interface

The epdconfig.py file in the underlying interface

  • Initialize module and exit handle:
def module_init()
def module_exit()

Note:
1. The functions are used to set GPIP before and after driving e-Paper
2. If the board you have is printed with Rev2.1, the module enter low-ultra mode after Module_Exit(). (as we test, the current is about 0 in this mode);

  • GPIO Read/Write:
def  digital_write(pin, value)
def  digital_read(pin)
  • SPI Write data:
def spi_writebyte(data)

Driver Interface

epdxxx.py (xxx means size, if it is 2.13inch e-paper, it is epd2in13.py, and so on)

  • Initailize e-paper: this function should be used at the begining. It can also be used to wake up e-Paper from Sleep mode.
#For 2.13inch e-Paper、2.9inch e-Paper
def init(self, update) #  Choose lut_full_update or lut_partial_update
#Other type
def init(self)
  • Clear e-paper: This function is used to clear e-Paper to white;
def Clear(self)
def Clear(self, color) # Some types of e-Paper should use this function to clear screen
  • Convert image to arrays
def getbuffer(self, image)
  • Transmit one frame of image data and display
#For two-color e-paper
def display(self, image)

#Because that controllers of 2.13inch e-paper are updated, when partial refresh, they should first use displayPartBaseImage() to display static background, then use displayPart() to dynamaticlly display.
def displayPartBaseImage(self, image)
def displayPart(self, image)
  • Enter sleep mode
def sleep(self)

Testing Function

epd_xxx_test.py (xxx means size, if it is 2.13inch e-paper, it is epd_2in13_test.py, and so on)
python is in the following directory:
Raspberry Pi and Jetson Nano: RaspberryPi_JetsonNano\python\examples\
Epd-test-function.png
If your python version is python2, and you need to run the 7.5inch e-paper test program, re-execute it in the linux command mode as follows:

sudo python epd_7in5_test.py

If your python version is python3, and you need to run the 7.5inch e-paper test program, re-execute it in the linux command mode as follows:

sudo python3 epd_7in5_test.py

Orientation

To rotate the display, you can use transpose function like blackimage = blackimage.transpose(Image.ROTATE_270):

blackimage = blackimage.transpose(Image.ROTATE_270) 
redimage = redimage.transpose(Image.ROTATE_270)
#Support ROTATE_90, ROTATE_180, ROTATE_270

Orientation.png

GUI

Python has a powerful PIL library, which can be used directly to drawing figures. Here we use it for drawing

  • Install the library firstly
sudo apt-get install python3-pil 

Import the library

from PIL import Image,ImageDraw,ImageFont

Image: library; ImageDraw: drawing function; ImageFont: fonts

  • Set image buffer for drawing.
image = Image.new('1', (epd.width, epd.height), 255)  # 255: clear the frame

The first parameter is the depth of color, 1 means 2 grayscale. The second parameter is a tuple of image size. The third parameter is color of the image, 0 is black and 255 is white.

  • Create an image object.
draw = ImageDraw.Draw(image)
  • Draw rectangle
draw.rectangle((0, 10, 200, 34), fill = 0)

The first parameter is a tuple of coordination. 0, 10 is the top-left point of rectangle, 200, 34) is the right-bottom point. fille = 0 set the filled color to black.

  • Draw line
draw.line((16, 60, 56, 60), fill = 0)

The first parameter is a type of coordination, 16, 60 is the beginning point, 200, 34 is the endpoint. fill=0 set the line to black

  • Draw circle
draw.arc((90, 60, 150, 120), 0, 360, fill = 0)

This function is used to draw a encircle of a square. The first parameter is a tuple of coordination of the square. the degree of the circle is 0 to 360 °, fille=0 set the circle to black.
If the figure is not square according to the coordination, you will get an ellipse.。

Besides the arc function, you can also use the chord function for drawing a solid circle.

draw.chord((90, 130, 150, 190), 0, 360, fill = 0)

The first parameter is the coordination of the enclosing rectangle. The second and third parameters are the beginning and end degrees of the circle. The fourth parameter is the fill color of the circle.

  • Character

You can directkt import ImageFont model for drawing characters:

font = ImageFont.truetype(os.path.join(picdir, 'Font.ttc'), 24)

You can use the fonts of Windows or other fonts which is in ttc format.

To draw English character, you can directly use the fonts; for Chinese character, you need to add a symbol u:

draw.text((8, 12), 'hello world', font = font, fill = 255)
draw.text((8, 36), u'微雪电子', font = font, fill = 0)

The first parameter is a tuple of 2 elements, with (8, 12) as the left vertex, fill is the font color, and the first sentence fill=255, so it seems that it will not be displayed. The second sentence shows 微雪电子.

  • Read local picture
image = Image.open(os.path.join(picdir, 'lin54.bmp'))

The parameter is the path of picture.

  • Other functions.

For more information about the PIL library, you can search online

User Guides of STM32

Hardware connection

The demo codes we provided are based on STM32F103ZET6, the connection table is also based on STM32F103ZET6, if you want to use other chip, you need to port the codes and change the connection according to actual situation.

Connect to STM32F103ZET
e-Paper STM32
Vcc 3.3V
GND GND
DIN PA7
CLK PA5
CS PA4
DC PA2
RST PA1
BUSY PA3
E-paper driver hat to stm32 connet.png

If the STM32 board you have is STM32F103RB, you can refer to the guides of E-Paper Shield

Software settings

The codes are based on HAL library. Download the codes and the project files are saved under the STM32\STM32-F103ZET6\MDK-ARM directory.
E-paper stm32 code1.png

Modify main.c, define the line according to the e-paper type and re-compile project and download.
E-paper stm32 code22.png

Supporting types

1.02inch(128×80):

EPD_1in02d_test():Example for 1.02inch e-Paper/1.02inch e-Paper Module

1.54inch(1.54inch e-paper c:152×152,others:200×200):

EPD_1in54_test(): Example for 1.54inch e-paper V1(Balck/White): This version is stopped production which can be bought before 2019-11-22;
EPD_1in54_V2_test(): Example for 1.54inch e-paper V2(Balck/White): This is the current version that can be bought now (2020-07-29). The e-Paper has V2 sticker on the backside.
EPD_1in54b_test(): Example for 1.54inch e-paper B(Black/White/Red);
EPD_1in54b_V2_test(): Example for 1.54inch e-Paper B V2 (Black/White/Red);
EPD_1in54c_test(): Example for 1.54inch e-paper C(Black/White/Red);

2.7inch(264×176):

EPD_2in7_test(): Example for 2.7inch e-paper(Black/White);
EPD_2in7b_test(): Example for 2.7inch e-paper B(Black.White/Red);
EPD_2in7b_V2_test(): Example for 2.7inch e-paper B V2(Black.White/Red);

2.9inch(296×128):

EPD_2in9_test(): Example for 2.9inch e-paper(Black/White);
EPD_2in9_V2_test(): Example for 2.9inch e-paper V2(Black/White);
EPD_2in9bc_test(): Example for 2.9inch e-paper B(Balck/White/Red) and 2.9inch e-paper C(Black/White/Yellow);
EPD_2in9b_V3_test(): Example for 2.9inch e-paper B V3 (Balck/White/Red);
EPD_2in9d_test(): Example for 2.9inch e-paper D(Black/White);

2.13inch(2.13inch e-Paper:250×122,others:212×104):

EPD_2in13_test(): Example for 2.13inch e-paper V1(Black/White), this version is stopped production and it can be bought before 019-05-15;
EPD_2in13_V2_test(): Example for 2.13inch e-paper V2(Black/White) This is the current version with sticker V2 on the backside (2020-07-29);
EPD_2in13_V3_test(): Example for 2.13inch e-paper V3(Black/White) This is the current version with sticker V3 on the backside (2020-07-29);
EPD_2in13bc_test():Example for 2.13inch e-paper B(Black/White/Red)and 2.13inch e-paper C(Blackj/White/Yellow);
EPD_2in13b_V3_test():Example for 2.13inch e-paper B V3(Black/White/Red)
EPD_2in13d_test(): Example for 2.13inch e-paper D(Black/White);

2.66inch (152 x 296)

EPD_2in66_test(): Example for 2.66inch e-Paper (Black/White);
EPD_2in66b_test(): Example for 2.66inch e-Paper B (Black/White/Red);

3.7inch (280 x 480)

EPD_3in7_test(): Example for 3.7inch e-Paper(Black/White);

4.01inch (640x400)

EPD_4in01_test(): Example for the 4.01inch e-Paper HAT (F);

4.2inch(400×300)

EPD_4in2_test(): Example for 4.2inch e-paper(Black/White);
EPD_4in2bc_test(): Example for 4.2inch e-paper B(Black/White/Red);
EPD_4in2b_V2_test(): Example for 4.2inch e-paper B V2(Black/White/Red);

5.65inch (600x448)

EPD_5in65f_test(): Example for for 5.65inch e-Paper F (Seven-color);

5.83inch(600×448):

EPD_5in83_test(): Example for 5.83inch e-paper(Black/White);
EPD_5in83_V2_test(): Example for 5.83inch e-paper V2(Black/White);
EPD_5in83bc_test(): Example for 5.83inch e-paper B(Black/White/Red)and 5.83inch e-paper C(Black/White/Yellow);
EPD_5in83b_V2_test(): Example for 5.83inch e-paper B V2(Black/White/Red)

7.5inch(V1:640×384, V2:800×480):

EPD_7in5_test(): Example for 7.5inch e-paper(Black/White), this version is stopped production and it can be bought before 2019-12-07;
EPD_7in5bc_test(): Example for 7.5inch e-paper B(Black/White/Red)and 7.5inch e-paper C(Black/White/Yellow),7.5inch e-paper B V1 version is stop production and it can be bought before 2019-12-07;
EPD_7in5_V2_test(): Example for 7.5inch e-paper V2(Black/White), This is the current version with V2 sticker on the backside (2020-07-29)
EPD_7in5bc_V2_test():Example for 7.5inch e-paper B V2(Black/White/Red); This is the current version with V2 sticker on the backside. (2020-07-29);

7.5inch (HD
880 x 528)

EPD_7in5_HD_test(): Example for 7.5inch e-Paper HD (Black/White);
EPD_7in5b_HD_test(): Example for 7.5inch e-Paper B HD (Black/White/Red);

Note: The above time is for reference only, please refer to the screen logo for the specific version
For example, 1.54inch e-Paper Module. Open the epd1in54 folder and run the epd1in54.ino file.
Open the program, select the development board model Arduino UNO

Codes description

Bottom hardware interface

We package the bottom for different hardware platforms.
You can check the DEV_Config.c(.h) file which is located in \STM32\STM32-F103ZET6\User\Config

  • Data type:
#define UBYTE   uint8_t
#define UWORD   uint16_t
#define UDOUBLE uint32_t
  • Module initialized and exit:
void DEV_Module_Init(void);
void DEV_Module_Exit(void);

Note: 1.The functions are used to set GPIP before and after driving e-Paper.
2..If the board you have is printed with Rev2.1, the module enters low-ultra mode after DEV_Module_Exit(). (as we test, the current is about 0 in this mode);

  • GPIO Read/Write:
void DEV_Digital_Write(UWORD Pin, UBYTE Value);
UBYTE DEV_Digital_Read(UWORD Pin);
  • SPI Write data
void DEV_SPI_WriteByte(UBYTE Value);

Middle EPD driver

The epd driver are saved in: STM32\STM32-F103ZET6\User\e-Paper
Epd-stm32.png
Open .h file, functions are declarated here

  • Initialization: It should be used to initialize e-Paper or wakeup e-Paper from sleep mode.
//1.54inch e-Paper、1.54inch e-Paper V2、2.13inch e-Paper、2.13inch e-Paper  V2、2.13inch e-Paper (D)、2.9inch e-Paper、2.9inch e-Paper (D)
void EPD_xxx_Init(UBYTE Mode); //ode = 0 Initialize full refresh; Mode = 1 Initilize partial refresh 
//Other type
void EPD_xxx_Init(void);

xxx is the type of e-paper

  • Clear display: This function is used to clear the e-paper to white
void EPD_xxx_Clear(void); 

xxx is the type of e-Paper.

  • Transmit a frame of image and display
//Black/White e-Paper
void EPD_xxx_Display(UBYTE *Image);
Because controllers of 1.54inch e-paper V2 and 2.13inch e-paper V2 were updated, you need to use EPD_xxx_DisplayPartBaseImage to display static image and ten use EPD_xxx_displayPart() to dymatic display when partial refreshing.
void EPD_2IN13_V2_DisplayPart(UBYTE *Image);
void EPD_2IN13_V2_DisplayPartBaseImage(UBYTE *Image);
  • Enter sleep mode
void EPD_xxx_Sleep(void);

Note, You should hardware reset or use initialize function to wake up e-Paper from sleep mode
xxx is the type of e-Paper

Application function

Basic drawing functions are provided here. You can find they in:\STM32\STM32-F103ZET6\User\GUI\GUI_Paint.c(.h)
Upper apply.png
The fonts are saved in the directory:\STM32\STM32-F103ZET6\User\Fonts
Upper apply2.png

  • Create a new image buffer: This function is used to create a new image with width, height, Rotate degree and its color.
void Paint_NewImage(UBYTE *image, UWORD Width, UWORD Height, UWORD Rotate, UWORD Color)
Parameter:
 	image: The buffer of the image, this is a pointer of buffer address;
 	Width: width of the image;
 	Height: Height of the image;
 	Rotate: Rotate degree;
 	Color: Initial color of the image;
  • Select image buffer: this function is used to select the image buffer. You can create multiple image buffers with the last function, then select the buffer for every image.
void Paint_SelectImage(UBYTE *image)
Parameter:
 	image: The name of image buffer, it is a pointer of buffer address;
  • Set display orientation: This function is used to set the rotate degree, it is generally be used after Paint_SelectImage(). You can set the rotate degree to 0、90、180、270 degree.
void Paint_SetRotate(UWORD Rotate)
Parameter:
 	Rotate: Rotate degree, you can choose ROTATE_0、ROTATE_90、ROTATE_180、ROTATE_270 which stands for 0、90、180、270 degree repetitively.
SPI-epaper-C-0.pngSPI-epaper-C-90.pngSPI-epaper-C-180.pngSPI-epaper-C-270.png
  • Image mirroring: This function is used to mirror image.
void Paint_SetMirroring(UBYTE mirror)
Parameter:
 	mirror: You can set it to MIRROR_NONE、MIRROR_HORIZONTAL、MIRROR_VERTICAL、MIRROR_ORIGIN
  • Set pixel: this function is used to set the position and color of pixels in the buffer. This is the basic function of GUI.
void Paint_SetPixel(UWORD Xpoint, UWORD Ypoint, UWORD Color)
Parameter:
 	Xpoint: X-axes in the buffer;
 	Ypoint: Y-axes in buffer;
 	Color: color
  • Clear: This function is used to clear the screen to certain color.
void Paint_Clear(UWORD Color)
Parameter:
 	Color: 
  • Clear windows: this function is used to clear a window. It is generally used for time display.
void Paint_ClearWindows(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color)
Parameter:
 	Xstart: Start coordinate of X-axes of the window;
 	Ystart: Start coordinate of Y-axes of the window;
 	Xend: End coordinate of X-axes of the window;
 	Yend: End coordinate of Y-axes of the window;
 	Color:
  • Draw point: Draw a point on the position (Xpoint, Ypoint)in buffer
void Paint_DrawPoint(UWORD Xpoint, UWORD Ypoint, UWORD Color, DOT_PIXEL Dot_Pixel, DOT_STYLE Dot_Style)
Parameter:
 	Xpoint: X coordinate of point;
 	Ypoint: Y coordinate of point;
 	Color: color of point;
 	Dot_Pixel: the size of point, there are 8 sizes available;
 	 	 typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  , 	 	// 3 X 3
 	 	 	 DOT_PIXEL_4X4  , 	 	// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
 	Dot_Style: style of point. 
 	 	typedef enum {
 	 	   DOT_FILL_AROUND  = 1,		
 	 	   DOT_FILL_RIGHTUP,
 	 	} DOT_STYLE;
  • Draw line: draw a line for (Xstart, Ystart) to (Xend, Yend)
void Paint_DrawLine(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color, LINE_STYLE Line_Style , LINE_STYLE Line_Style)
Parameter:
 	Xstart: Start coordinate of X-axes of line;
 	Ystart: Start coordinate of Y-axes of line;
 	Xend: End coordinate of X-axes of line;
 	Yend: End coordinate of Y-axes of line
 	Color:
 	Line_width: the width of line, 8 sizes are avalilable;
 	 	typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  ,		// 3 X 3
 	 	 	 DOT_PIXEL_4X4  ,		// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
 	 Line_Style: Style of the line;
 	 	typedef enum {
 	 	 	 LINE_STYLE_SOLID = 0,
 	 	 	 LINE_STYLE_DOTTED,
 	 	} LINE_STYLE;
  • Draw rectangle: Draw a rectangle from (Xstart, Ystart) to (Xend, Yend).
void Paint_DrawRectangle(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color, DOT_PIXEL Line_width, DRAW_FILL Draw_Fill)
Parameter:
 	Xstart: Start coordinate of X-axes of rectangle
 	Ystart: Start coordinate of Y-axes of rectangle
 	Xend: End coordinate of X-end of rectangle
 	Yend: End coordinate of Y-end of rectangle
 	Color: color of rectangle
 	Line_width: The width of edges, 8 sides are available;
 	 	typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  ,		// 3 X 3
 	 	 	 DOT_PIXEL_4X4  ,		// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
 	Draw_Fill: set the rectangle full or empty.
 	 	typedef enum {
 	 	 	 DRAW_FILL_EMPTY = 0,
 	 	 	 DRAW_FILL_FULL,
 	 	} DRAW_FILL;
  • Draw circle:Draw a circle, use (X_Center Y_Center) as center;
void Paint_DrawCircle(UWORD X_Center, UWORD Y_Center, UWORD Radius, UWORD Color, DOT_PIXEL Line_width, DRAW_FILL Draw_Fill)
Parameter:
 	X_Center: X coordinate of center
 	Y_Center: Y coordinate of center
 	Radius:Radius of circle
 	Color: color of circle
 	Line_width: width of circle, 8 sizes are avalilable
 	 	typedef enum {
 	 	 	 DOT_PIXEL_1X1  = 1,	// 1 x 1
 	 	 	 DOT_PIXEL_2X2  , 		// 2 X 2
 	 	 	 DOT_PIXEL_3X3  ,		// 3 X 3
 	 	 	 DOT_PIXEL_4X4  ,		// 4 X 4
 	 	 	 DOT_PIXEL_5X5  , 		// 5 X 5
 	 	 	 DOT_PIXEL_6X6  , 		// 6 X 6
 	 	 	 DOT_PIXEL_7X7  , 		// 7 X 7
 	 	 	 DOT_PIXEL_8X8  , 		// 8 X 8
 	 	} DOT_PIXEL;
 	Draw_Fill: style of circle
 	 	typedef enum {
 	 	 	 DRAW_FILL_EMPTY = 0,
 	 	 	 DRAW_FILL_FULL,
 	 	} DRAW_FILL;
  • Draw character (ASCII): Set(Xstart Ystart) as letf-top point, draw a ASCII character.
void Paint_DrawChar(UWORD Xstart, UWORD Ystart, const char Ascii_Char, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)
Parameter:
 	Xstart: X coordinate of left-top pixel of character;
 	Ystart: Y coordinate of left-top pixel of character;
 	Ascii_Char:Ascii character;
 	Font: 5 fonts are available;
 	 	font8:5*8
 	 	font12:7*12
 	 	font16:11*16
 	 	font20:14*20
 	 	font24:17*24
 	Color_Foreground: color of character;
 	Color_Background: color of background;
  • Draw String: Set point (Xstart Ystart) as the left-top pixel, draw a string.
void Paint_DrawString_EN(UWORD Xstart, UWORD Ystart, const char * pString, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)
Parameter:
 	Xstart: X coordinate of left-top pixel of characters;
 	Ystart: Y coordinate of left-top pixel of characters;
 	pString:Pointer of string
 	Font: 5 fonts are available:
 	 	font8:5*8
 	 	font12:7*12
 	 	font16:11*16
 	 	font20:14*20
 	 	font24:17*24
 	Color_Foreground: color of string
 	Color_Background: color of background
  • Draw Chinese characters: this function is used to draw Chinese fonts based ON GB2312 fonts.
void Paint_DrawString_CN(UWORD Xstart, UWORD Ystart, const char * pString, cFONT* font, UWORD Color_Foreground, UWORD Color_Background)
Parameter:
 	Xstart: Coordinate of left-top pixel of characters;
 	Ystart: Coordinate of left-top pixel of characters;
 	pString:Pointer of string
 	Font: GB2312 fonts
 	 	font12CN:11*21(ascii),16*21 (Chinese)
 	 	font24CN:24*41(ascii),32*41 (Chinese)
 	Color_Foreground: color of string
 	Color_Background: color of background
  • Draw number: Draw a string of numbers, (Xstart, Ystart) is the left-top pixel.
void Paint_DrawNum(UWORD Xpoint, UWORD Ypoint, int32_t Nummber, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)
Parameter:
 	Xstart: X coordinate of left-top pixel;
 	Ystart: Y coordicate of left-to pixel;
 	Nummber:the numbers displayed. the numbers are saved in int format, the maximum is 2147483647;
 	Font: 5 fonts are available:
 	 	font8:5*8
 	 	font12:7*12
 	 	font16:11*16
 	 	font20:14*20
 	 	font24:17*24
 	Color_Foreground: color of font;
 	Color_Background: color of background;
  • Display time:Display time, (Xstart, Ystart) is the left-top pixel. This function is used for e-Paper which supports partial refresh
void Paint_DrawTime(UWORD Xstart, UWORD Ystart, PAINT_TIME *pTime, sFONT* Font, UWORD Color_Background, UWORD Color_Foreground)
Parameter:
 	Xstart: X coordinate of left-top pixel of character;
 	Ystart: Y coordinate of left-top pixel of character;
 	pTime:Pointer of time displayed;
 	Font: 5 fonts are available;
 	 	font8:5*8
 	 	font12:7*12
 	 	font16:11*16
 	 	font20:14*20
 	 	font24:17*24
 	Color_Foreground: color of fonts
 	Color_Background: color of background
  • Draw image:send image data of bmp file to buffer
void Paint_DrawBitMap(const unsigned char* image_buffer)
Parameter:
 	image_buffer: adrress of image data in buffer

User Guides of Arduino

Hardware connection

The demo codes provided are based on Arduino UNO. If you want to use another Arduino board, you may need to change the connection and port the codes by yourself.
The RAM of Arduino UNO is too small to realize drawing function of e-Paper. In this case, for most of the e-Paper, we only make the image display function and save the image to flash.
We recommend you to use [E-Paper Shield] if you use Arduino UNO. The seven-color e-Paper is not compatible with the e-Paper shield, please note it.

Arduino Corresponding Pins
e-Paper Arduino UNO Mega2560
Vcc 5V 5V
GND GND GND
DIN D11 D51
CLK D13 D52
CS D10 D10
DC D9 D9
RST D8 D8
BUSY D7 D7
E-paper driver hat to arduino connet.png

Install Arduino IDE

arduino IDE Install Guide

Run the Program

Download the program on the product encyclopedia interface, and then unzip it. Arduino programs are located at ~/Arduino/…
Run the program.png
Please select the corresponding program to open according to the ink screen model
Epd1n02d.png

Supporting types

1.02inch(128×80):

epd_1in02y:Example for 1.02inch e-Paper/1.02inch e-Paper Module

1.54inch(1.54inch e-paper c:152×152,others:200×200):

epd_1in54: Example for 1.54inch e-paper V1(Balck/White): This version is stopped production which can be bought before 2019-11-22;
epd_1in54_V2: Example for 1.54inch e-paper V2(Balck/White): This is the current version which can be bought now (2020-07-29). The e-Paper has V2 sticker on the backside.
epd_1in54b: Example for 1.54inch e-paper B(Black/White/Red);
epd_1in54b_V2: Example for 1.54inch e-paper B V2(Black/White/Red);
epd_1in54c: Example for 1.54inch e-paper C(Black/White/Red);br />

2.7inch(264×176):

epd_2in7: Example for 2.7inch e-paper(Black/White);
epd_2in7b: Example for 2.7inch e-paper B(Black.White/Red);
epd_2in7b_V2: Example for 2.7inch e-paper B V2(Black.White/Red);

2.9inch(296×128):

epd_2in9: Example for 2.9inch e-paper(Black/White);
epd_2in9_V2: Example for 2.9inch e-paper V2(Black/White);
epd_2in9bc: Example for 2.9inch e-paper B(Balck/White/Red) and 2.9inch e-paper C(Black/White/Yellow);
epd_2in9b_V3: Example for 2.9inch e-paper B V3(Balck/White/Red;
epd_2in9d: Example for 2.9inch e-paper D(Black/White);

2.13inch(2.13inch e-Paper:250×122,others:212×104):

epd_2in13: Example for 2.13inch e-paper V1(Black/White), this version is stopped production and it can be bought before 019-05-15;
epd_2in13_V2y: Example for 2.13inch e-paper V2(Black/White) This is the current version with sticker V2 on the backside (2020-07-29);
epd_2in13bc: Example for 2.13inch e-paper B(Black/White/Red)and 2.13inch e-paper C(Black/White/Yellow);
epd_2in13b_V3: Example for 2.13inch e-paper B V3(Black/White/Red)
epd_2in13d: Example for 2.13inch e-paper D(Black/White);

2.66inch (152 x 296)

epd_2in66: Example for 2.66inch e-Paper (Black/White);
epd_2in66b: Example for 2.66inch e-Paoer (Black/White/Red);

3.7inch (280 x 480)

epd_3in7: Example for 3.7inch e-Paper (Black/White);

4.01inch (640x400)

epd_4in01f: Example for 4.01inch e-Paper (Seven-color);

4.2inch(400×300)

epd_4in2: Example for 4.2inch e-paper(Black/White);
epd_4in2bc: Example for 4.2inch e-paper B(Black/White/Red);
epd_4in2b_V2: Example for 4.2inch e-paper B V2(Black/White/Red);

5.65inch (600x448)

epd_5in65f: Example for 5.65inch e-Paper F (Seven-color);

5.83inch(600×448):

epd_5in83: Example for 5.83inch e-paper(Black/White);
epd_5in83_V2: Example for 5.83inch e-paper V2(Black/White);
epd_5in83bc: Example for 5.83inch e-paper B(Black/White/Red)and 5.83inch e-paper C(Black/White/Yellow);
epd_5in83b_V2: Example for 5.83inch e-paper B V2(Black/White/Red)

7.5inch(V1:640×384, V2:800×480):

epd_7in5: Example for 7.5inch e-paper(Black/White), this version is stopped production and it can be bought before 2019-12-07;
epd_7in5_V2: Example for 7.5inch e-paper V2(Black/White), This is the current version with V2 sticker on the backside (2020-07-29)
epd_7in5bc: Example for 7.5inch e-paper B(Black/White/Red)and 7.5inch e-paper C(Black/White/Yellow),7.5inch e-paper B V1 version is stopped production and it can be bought before 2019-12-07;
epd_7in5b_V2: Example for 7.5inch e-paper B V2(Black/White/Red); This is the current version with V2 sticker on the backside. (2020-07-29);

7.5inch (HD 880 x 528)

epd_7in5_HD: Example for 7.5inch e-Paper HD (Black/White);
epd_7in5b_HD: Example for 7.5inch e-Paper B HD (Black/White/Red);
*Note: The above time is for reference only, please refer to the screen logo for the specific version
For example, 1.54inch e-Paper Module. Open the epd1in54 folder and run the epd1in54.ino file.
Open the program, select the development board model Arduino UNO
Arduino15.png
Select the corresponding COM port
Arduino25.png
Then click compile and download
Arduino27.png
Since the flash of arduino UNO is very small, several large-size screens use MEGA2560 for better results:<
Arduino29.png

Code Description

Files

Take the 1.54-inch ink screen controlled by Arduino UNO as an example, open the epd1in54 directory:
Program-docu.png
in which:
epd1in54.ino: open with Arduino IDE;
epd1in54.cpp(.h): is the driver of the ink screen;
epdif.cpp(.h): is the hardware interface definition, which encapsulates the read and write pin levels, SPI data transmission, and pin initialization;
font8.cpp, font12.cpp, font16.cpp, font20.cpp, font24.cpp, fonts.h: are the models of characters of different sizes;
imagedata.cpp(.h): is the image data, which can convert the 2-bit depth BMP image into an array through Img2Lcd (downloadable in the development data).
The program is divided into the bottom hardware interface, the middle layer ink screen driver, and the upper layer application;

Bottom Hardware Interface

hardware interfaces are defined in epdif.cpp(.h) file

Write GPIO
void DigitalWrite(int pin, int value)

The first parameter is GPIO, and second parameter is level

Read GPIO
int DigitalRead(int pin)

The parameter is GPIO, and return value is level

Delay
DelayMs(unsigned int delaytime)

Delay time, unit is ms

SPI transmit data
SpiTransfer(unsigned char data)

Type of parameter is char

Hardware initailze
int IfInit(void)

The initialize function of SPI, input/ouptu are packaged here。

Middle EPD driver

Instantiate e-Paper class

The Arduino codes are based on C++, should instantiate e-Paper class is necessary.

Epd epd;
Initialize e-Paper, it should be used to initialize e-Paper or wakeup e-Paper from sleep mode.
  • 2.13inch e-Paper,2.9inch e-Paper
epd.Init(lut_full_update); //Fully update
epd.Init(lut_partial_update); //Partial update
  • 4.2inch e-Paper
epd.Init();
Clear, clear the e-Paper to white
epd.clear();

In some of project, the operation is divided to two part, they work in the same way

epd.ClearFrameMemory(0xFF); 
epd.DisplayFrame();//Display it
Transmit one frame of image and display
void Display(const unsigned char* frame_buffer);
void DisplayFrame(const unsigned char* frame_buffer_black, const unsigned char* frame_buffer_red); //Three color e-Paper
Sleep
epd.Sleep();

Set the e-Paper enter sleep mode. The consumption of the e-Paper will be reduced. However, you still need to update the display periodically to avoid a ghost problem.

Application functions

The drawing functions are defined in this part.
The coordination of the image buffer:
E-paper arduino pic1.png

The functions are defined in epdpaint.h file
E-paper arduino ide codeDescription2.png

Initailze image buffer
Paint(unsigned char* image, int width, int height);

The first parameter is image buffer, the second one is the width of the picture, and the third one is the height.

Paint paint(image, 0, 0);    // width should be the multiple of 8

The second and third parameters are set to 0, you can re-configure them with functions below:

Set the width, height, rotate degree.
int  GetWidth(void); //Get the width
void SetWidth(int width);//Set the width
int  GetHeight(void);//Get the height
void SetHeight(int height);//Set the height
int  GetRotate(void);//Get the degree
void SetRotate(int rotate);//Set the rotate degree
Get the image data
unsigned char* GetImage(void);
Draw circle
void DrawPixel(int x, int y, int colored);

Coordination(x,y)

Draw characater
void DrawCharAt(int x, int y, char ascii_char, sFONT* font, int colored);

Set(x,y)as the start point, draw characters ascii_char, set the fonts as font, color is colored.

Draw string
void DrawStringAt(int x, int y, const char* text, sFONT* font, int colored);

Set(x,y)as the start point, draw the string text, font is font,color is colored

Draw line
void DrawLine(int x0, int y0, int x1, int y1, int colored);

Use (x0,y0)as start point, (x1,y1) as end point;

Draw cross line
void DrawHorizontalLine(int x, int y, int width, int colored);

Set(x0,y0)as start points,draw a line, the widht is width, and color is colored</ br>

Draw a vertical line
void DrawVerticalLine(int x, int y, int height, int colored);

Use(x0,y0) as start point, draw a vertical line, width is height and color is colored./ br>

Draw a empty rectangle
void DrawRectangle(int x0, int y0, int x1, int y1, int colored);

User(x0,y0) as start point,(x1,y1)is end point, draw a rectangel, color of edges are colored.

Draw a full rectangle
void DrawFilledRectangle(int x0, int y0, int x1, int y1, int colored);

Use(x0,y0)as start point, (x1,y1) is end point, draw a rectange, filled it with color: colored

Draw an empty circle
void DrawCircle(int x, int y, int radius, int colored);

Use (x,y)as center,draw a empty circle with radius, color is colored

Draw a full circle
void DrawFilledCircle(int x, int y, int radius, int colored);

Use (x,y)as center, draw a circle, radius is radius, filled with color: colored

Documentation

Demo code

Datasheets

Related Resources

Notice:
The projects listed are all made and shared by the project owners, Waveshare isn't responsible for project either the update.

This is a post in Arduino Form about our SPI e-Paper thanks to ZinggJM, maybe you want to refer to.
This is the Inkycal project for reference.

FAQ

 Answer:
  • Two-color B/W e-paper
    • 【Working】Temperature: 0~50°C; Humidity: 35%~65%RH
    • 【Storage】Temperature: ≤30°C; Humidity: ≤55%RH; Max storage time: 6 months
    • 【Transport】Temperature: -25~70°C; Max transport time: 10 days
    • 【Unpack】Temperature: 20°C±5°C; Humidity: 50%RH±5%RH; Max storage time: Should be assembled in 72h
  • Three-Color e-Paper
    • 【Working】Temperature: 0~40°C; Humidity: 35%~65%RH
    • 【Storage】Temperature: ≤30°C; Humidity: ≤55%RH; Max storage time: 3 months
    • 【Transport】Temperature: -25~60°C; Max transport time: 10 days
    • 【Unpack】Temperature: 20°C±5°C; Humidity: 50%RH±5%RH; Max storage time: Should be assembled in 72h

When store three-color e-Paper, please refresh it to white, and keep the screen upward. Note that you need to update it at least every three months.


Support

Support

If you require technical support, please go to the Support page and open a tickets.