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Pico-CapTouch-ePaper-2.9

2.9inch EPD Module for Raspberry Pi Pico,
296 × 128, Black / White, SPI

Overview

2.9inch EPD (Electronic Paper Display) Module For Raspberry Pi Pico, 296 × 128 Pixels, Black / White, SPI Interface.

Specification

Dimension: 2.9inch
Outline dimensions (raw panel): 79.0mm × 36.7mm × 1.05mm
Outline dimension(with driver board): 82.0mm × 38.0mm
Display size: 66.89mm × 29.05mm
Operating voltage: 3.3V
Interface: SPI
Dot pitch: 0.227 × 0.226
Resolution: 296 × 128 pixels
Display color: Black, White
Greyscale: 4
Partial refresh time: 0.6s
full refresh time: 3s
Refresh power: 26.4mW (typ.)
Standby current: <0.01uA (almost none)
Touch points: 5 (MAX)
Touch type: Capacitive
Touch interface: I2C (Address: 0x48)
Touch panel: Toughened glass panel
【Note】
- 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.
- 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.

Note: The local brush does not have a four-grayscale display, only the full brush has, refer to Pico-ePaper-2.9

SPI Communication Timing

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, the slave receives.
Timing: CPHL=0, CPOL=0 (SPI0).

【Remarks】For specific information about SPI, you can search for information online.

Working Protocol

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. (Note that the e-Paper cannot support updating directly under sunlight).

How to define pixels

In a monochrome picture we define the pixels, 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:

For the computer, the data is saved in MSB format:

So we can use two bytes for 16 pixels.

RPi Pico

Hardware connection

Please take care of the direction when connecting Pico. A logo of the USB port is printed to indicate the directory, you can also check the pins.
If you want to connect the board by an 8-pin cable, you can refer to the table below:

e-Paper	Pico	Description
VCC	VSYS	Power input
GND	GND	Ground
DIN	GP11	MOSI pin of SPI interface, data transmitted from Master to Slave.
CLK	GP10	SCK pin of SPI interface, clock input
CS	GP9	Chip select pin of SPI interface, Low Active
DC	GP8	Data/Command control pin (High: Data; Low: Command)
RST	GP12	Reset pin, low active
BUSY	GP13	Busy pin
TRST	GP16	Reset pin of touch panel
INT	GP17	Interrupt pin of Touch panel
SDA	GP6	I2C data pin of touch panel
SCL	GP7	I2C clock pin of touch panel

You can just attach the board to Pico and take care of the direction according to the USB port.

Setup Environment

You can refer to the guides of Raspberry Pi: https://www.raspberrypi.org/documentation/pico/getting-started/

Download Demo codes

Open a terminal of Pi and run the following command:

cd ~
wget https://files.waveshare.com/upload/4/43/Pico_ePaper_CapTouch.zip
unzip Pico_ePaper_CapTouch.zip -d Pico_ePaper_CapTouch
cd ~/Pico_ePaper_CapTouch

You can also clone the codes from Github.

cd ~
git clone https://github.com/waveshare/Pico_CapTouch_ePaper
cd ~/Pico_CapTouch_ePaper

About the examples

The guides are based on Raspberry Pi.

C codes

Build the project：

cd ~/Pico_CapTouch_ePaper/c

Create a build folder and add the SDK. ../../pico-sdk is the default path of the SDK, if you save the SDK to other directories, please change it to the actual path.

mkdir build
cd build
export PICO_SDK_PATH=../../pico-sdk

Run cmake command to generate a Makefile file.

cmake ..

Run the command make to compile the codes.

make -j6

Once compiled, the epd.uf2 file is generated. Next, press and hold the BOOTSEL button on the Pico board, connect the Pico to the Raspberry Pi using the micro USB cable, and then release the button. At this point the device will recognize a removable disk (RPI-RP2).
Copy the epd.uf2 file just generated to the removable disk (RPI-RP2) just recognized and the Pico will automatically reboot to run the demo.

Python codes

Hold the BOOTSEL button of the Pico board, then connect the Pico board to Raspberry Pi or PC by Micro USB cable. And the Pico board will be recognized as a portable drive (RPI-RP2).
Copy the rp2-pico-20210418-v1.15.uf2 file from the Python directory to the portable drive (RPI-RP2).
Update Thonny IDE if it doesn't support Pico.

sudo apt upgrade thonny

Open the Thonny IDE (click on the Raspberry logo -> Programming -> Thonny Python IDE) and select the interpreter:
- Select Tools -> Options... -> Interpreter.
- Select MicroPython (Raspberry Pi Pico and ttyACM0 port).
Open the Pico_CapTouch_ePaper-xxx.py file in the Thonny IDE and run the current script (click on the little green triangle).

Code Analysis

C codes

Bottom Hardware Interface

We package the hardware layer for easily porting to the different hardware platforms.
DEV_Config.c(.h) in the directory: Pico_ePaper_Code\c\lib\Config

Data type:

#define UBYTE   uint8_t
#define UWORD   uint16_t
#define UDOUBLE uint32_t

Module initialize and exit:

void DEV_Module_Init(void);
void DEV_Module_Exit(void);
Note:
1. The functions above are used to initialize the display or exit handle.

GPIO Write/Read:

void DEV_Digital_Write(UWORD Pin, UBYTE Value);
UBYTE DEV_Digital_Read(UWORD Pin);

SPI transmits data:

void DEV_SPI_WriteByte(UBYTE Value);

EPD driver

The driver codes of EPD are saved in the directory: c\lib\e-Paper
Open the .h header file, you can check all the functions defined.

Initialize e-Paper, this function is used when the screen starts working and after exiting sleep mode:

void EPD_xxx_Init(void);

xxx should be changed by the type of e-Paper.

Clear: this function is used to clear the display to white.

void EPD_xxx_Clear(void);

xxx should be changed by the type of e-Paper.

Send the image data (one frame) to EPD and display

//Bicolor version
void EPD_xxx_Display(UBYTE *Image)

//For partial refresh, you need to call EPD_xxx_Display_Base to display a static background image, that is, to use this image as the basis for partial refresh, and then call the dynamic EPD_xxx_Display_Partial()
void EPD_xxx_Display_Base(UBYTE *Image);
void EPD_xxx_Display_Partial(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 re-call the initialization function.

Touch Drivers

The driver codes for Touch panel is saved in the path: c\lib\Driver
Open the .h files you can get the following commands

Reset the touch controller

void ICNT_Reset(void);

Touch-Write registers

void ICNT_Write(UWORD Reg, char *Data, UBYTE len);

Touch-Read registers

void ICNT_Read(UWORD Reg, char *Data, UBYTE len);

Touch-Read version information

void ICNT_ReadVersion(void);

Touch-Read coordination data and save it to structure

UBYTE ICNT_Scan(void);

Touch-Initialize chip

void ICNT_Init(void);

Application Programming Interface

We provide basic GUI functions for testing, like draw point, line, string, and so on. The GUI function can be found in the directory: RaspberryPi_JetsonNano\c\lib\GUI\GUI_Paint.c(.h)

The fonts used can be found in directory: RaspberryPi_JetsonNano\c\lib\Fonts

Create a new image, you can set the image name, width, height, rotate angle and color.

void Paint_NewImage(UBYTE *image, UWORD Width, UWORD Height, UWORD Rotate, UWORD Color)
Parameters:
 	image : Name of the image buffer, this is a pointer;
 	Width : Width of the image;
 	Height: Height of the image;
 	Rotate: Rotate angle of the Image;
 	Color : The initial color of the image;

Select image buffer: You can create multiple image buffers at the same time and select the certain one and drawing by this function.

void Paint_SelectImage(UBYTE *image)
Parameters:
 	image: The name of the image buffer, this is a pointer;

Rotate image: You need to set the rotate angle of the image, this function should be used after Paint_SelectImage(). The angle can 0, 90, 180, 270

void Paint_SetRotate(UWORD Rotate)
Parameters:
 	Rotate: Rotate angle of the image, the parameter can be ROTATE_0, ROTATE_90, ROTATE_180, ROTATE_270.

【Note】Afer rotating, the place of the first pixel is different, we take 1.54inch e-paper as example

Image mirror: This function is used to set the image mirror.

void Paint_SetMirroring(UBYTE mirror)
Parameters:
 	mirror: Mirror type if the image, the parameter can be MIRROR_NONE、MIRROR_HORIZONTAL、MIRROR_VERTICAL、MIRROR_ORIGIN.

Set the position and color of pixels: This is the basic function of GUI, it is used to set the position and color of a pixel in the buffer.

void Paint_SetPixel(UWORD Xpoint, UWORD Ypoint, UWORD Color)
Parameters:
 	Xpoint: The X-axis value of the point in the image buffer
 	Ypoint: The Y-axis value of the point in the image buffer
 	Color : The color of the point

Clear display: To set the color of the image, this function always be used to clear the display.

void Paint_Clear(UWORD Color)
Parameters:
 	Color: The color of the image

Color of the windows: This function is used to set the color of windows, it always used for updating partial areas like displaying a clock.

void Paint_ClearWindows(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color)
Parameters:
 	Xpoint: The X-axis value of the start point in the image buffer
 	Ypoint: The Y-axis value of the start point in the image buffer
 	Xend: The X-axis value of the end point in the image buffer
 	Yend: The Y-axis value of the end point in the image buffer
 	Color: The color of the windows

Draw point: Draw a point at the position （Xpoint, Ypoint） of image buffer, you can configure the color, size, and the style.

void Paint_DrawPoint(UWORD Xpoint, UWORD Ypoint, UWORD Color, DOT_PIXEL Dot_Pixel, DOT_STYLE Dot_Style)
Parameters:
 	Xpoint: X-axis value of the point.
 	Ypoint: Y-axis value of the point.
 	Color: Color of the point
 	Dot_Pixel: Size of the point, 8 sizes 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;
 	Dot_Style: Style of the point, it define the extednded mode of the point.
 	 	typedef enum {
 	 	   DOT_FILL_AROUND  = 1,		
 	 	   DOT_FILL_RIGHTUP,
 	 	} DOT_STYLE;

Draw line: Draw a lin from (Xstart, Ystart) to (Xend, Yend) in image buffer, you can configure the color, width and the style.

void Paint_DrawLine(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color, LINE_STYLE Line_Style , LINE_STYLE Line_Style)
Parameters:
 	Xstart: Xstart of the line
 	Ystart: Ystart of the line
 	Xend: Xend of the line
 	Yend: Yend of the line
 	Color: Color of the line
 	Line_width: Width of the line, 8 sizes 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;
 	 Line_Style: Style of the line, Solid or Dotted.
 	 	typedef enum {
 	 	 	 LINE_STYLE_SOLID = 0,
 	 	 	 LINE_STYLE_DOTTED,
 	 	} LINE_STYLE;

Draw rectangle: Draw a rectangle from (Xstart, Ystart) to (Xend, Yend) , you can configure the color, width, and style.

void Paint_DrawRectangle(UWORD Xstart, UWORD Ystart, UWORD Xend, UWORD Yend, UWORD Color, DOT_PIXEL Line_width, DRAW_FILL Draw_Fill)
Parameters:
 	Xstart: Xstart of the rectangle.
 	Ystart: Ystart of the rectangle.
 	Xend: Xend of the rectangle.
 	Yend: Yend of the rectangle.
 	Color: Color of the rectangle
 	Line_width: The width of the edges. 8 sizes 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: Style of the rectangle, empty or filled.
 	 	typedef enum {
 	 	 	 DRAW_FILL_EMPTY = 0,
 	 	 	 DRAW_FILL_FULL,
 	 	} DRAW_FILL;

Draw circle: Draw a circle in image buffer, use (X_Center Y_Center) as center and Radius as radius. You can configure the color, width of line and the style of circle.

void Paint_DrawCircle(UWORD X_Center, UWORD Y_Center, UWORD Radius, UWORD Color, DOT_PIXEL Line_width, DRAW_FILL Draw_Fill)
Parameters:
 	X_Center: X-axis of center
 	Y_Center: Y-axis of center
 	Radius：Radius of circle
 	Color: Color of the circle
 	Line_width: The width of arc, 8 sizes 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: Style of the circle: empty or filled.
 	 	typedef enum {
 	 	 	 DRAW_FILL_EMPTY = 0,
 	 	 	 DRAW_FILL_FULL,
 	 	} DRAW_FILL;

Show Ascii character: Show a characeter in (Xstart, Ystart) position, you can configure the font, foreground and the background.

void Paint_DrawChar(UWORD Xstart, UWORD Ystart, const char Ascii_Char, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)
Parameters:
 	Xstart: Xstart of the character
 	Ystart: Ystart of the character
 	Ascii_Char：Ascii char
 	Font:  five fonts are avaialble：
 	 	font8：5*8
 	 	font12：7*12
 	 	font16：11*16
 	 	font20：14*20
 	 	font24：17*24
 	Color_Foreground: foreground color
 	Color_Background: background color

Draw string: Draw string at (Xstart Ystart) , you can configure the fonts, foreground and the background

void Paint_DrawString_EN(UWORD Xstart, UWORD Ystart, const char * pString, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)
Parameters:
 	Xstart: Xstart of the string
 	Ystart: Ystart of the string
 	pString：String
 	Font: five fonts are available:
 	 	font8：5*8
 	 	font12：7*12
 	 	font16：11*16
 	 	font20：14*20
 	 	font24：17*24
 	Color_Foreground: foreground color
 	Color_Background: background color

Draw Chiness string: Draw Chinese string at (Xstart Ystart) of image buffer. You can configure fonts (GB2312), foreground and the background.

void Paint_DrawString_CN(UWORD Xstart, UWORD Ystart, const char * pString, cFONT* font, UWORD Color_Foreground, UWORD Color_Background)
Parameters:
 	Xstart: Xstart of string
 	Ystart: Ystart of string
 	pString：string
 	Font: GB2312 fonts, two fonts are available  
 	 	font12CN：ascii 11*21，Chinese 16*21
 	 	font24CN：ascii 24*41，Chinese 32*41
 	Color_Foreground: Foreground color
 	Color_Background: Background color

Draw number: Draw numbers at (Xstart Ystart) of image buffer. You can select font, foreground and the background.

void Paint_DrawNum(UWORD Xpoint, UWORD Ypoint, int32_t Nummber, sFONT* Font, UWORD Color_Foreground, UWORD Color_Background)
Parameters:
 	Xstart: Xstart of numbers
 	Ystart: Ystart of numbers
 	Nummber：numbers displayed. It support int type and 2147483647 are the maximum supported
 	Font: Ascii fonts, five fonts are available:
 	 	font8：5*8
 	 	font12：7*12
 	 	font16：11*16
 	 	font20：14*20
 	 	font24：17*24
 	Color_Foreground: foreground
 	Color_Background: background

Display time: Display time at (Xstart Ystart) of image buffer, you can configure fonts, foreground, and background.

This function is used for partial update. Note that some of the e-Paper doesn't support partial update and you cannot use partial update all the time,which will cost ghots problem and destroy the display.

void Paint_DrawTime(UWORD Xstart, UWORD Ystart, PAINT_TIME *pTime, sFONT* Font, UWORD Color_Background, UWORD Color_Foreground)
Parameters:
 	Xstart: Xstart of time
 	Ystart: Ystart of time
 	pTime：Structure of time
 	Font: Ascii font, five fonts are avaialble
 	 	font8：5*8
 	 	font12：7*12
 	 	font16：11*16
 	 	font20：14*20
 	 	font24：17*24
 	Color_Foreground: foreground
 	Color_Background: background

MicroPython

For ease of use, all code is written as one file.

class config

Initialization of the underlying hardware interface and read/write functions for spi and i2c.

class EPD_2in9

Ink screen driver function, you can refer to the C language introduction.

class ICNT_Development

python implementation of the touch data structure.

class ICNT86

Touch driver function, you can refer to the C language introduction.

Resource

Document

Demo codes

Development Software

Pico Quick Start

Download Firmware

MicroPython Firmware Download

C_Blink Firmware Download

Video Tutorial

Pico Tutorial I - Basic Introduction

Pico Tutorial II - GPIO

Pico Tutorial III - PWM

Pico Tutorial IV - ADC

Pico Tutorial V - UART

Pico Tutorial VI - To be continued...

MicroPython Series

C/C++ Series

Arduino IDE Series

Install Arduino IDE

Download the Arduino IDE installation package from Arduino website.
Just click on "JUST DOWNLOAD".
Click to install after downloading.
Note: You will be prompted to install the driver during the installation process, we can click Install.

Install Arduino-Pico Core on Arduino IDE

Open Arduino IDE, click the File on the left corner and choose "Preferences".

Add the following link in the additional development board manager URL, then click OK.

https://github.com/earlephilhower/arduino-pico/releases/download/global/package_rp2040_index.json

Note: If you already have the ESP8266 board URL, you can separate the URLs with commas like this:

https://dl.espressif.com/dl/package_esp32_index.json,https://github.com/earlephilhower/arduino-pico/releases/download/global/package_rp2040_index.json

Click on Tools -> Dev Board -> Dev Board Manager -> Search for pico, it shows installed since my computer has already installed it.

Upload Demo At the First Time

Press and hold the BOOTSET button on the Pico board, connect the Pico to the USB port of the computer via the Micro USB cable, and release the button when the computer recognizes a removable hard drive (RPI-RP2).
Download the demo, open arduino\PWM\D1-LED path under the D1-LED.ino.
Click Tools -> Port, remember the existing COM, do not need to click this COM (different computers show different COM, remember the existing COM on your computer).
Connect the driver board to the computer with a USB cable, then click Tools -> Ports, select uf2 Board for the first connection, and after the upload is complete, connecting again will result in an additional COM port.
Click Tool -> Dev Board -> Raspberry Pi Pico/RP2040 -> Raspberry Pi Pico.
After setting, click the right arrow to upload.
- If you encounter problems during the period, you need to reinstall or replace the Arduino IDE version, uninstall the Arduino IDE needs to be uninstalled cleanly, after uninstalling the software you need to manually delete all the contents of the folder C:\Users\[name]\AppData\Local\Arduino15 (you need to show the hidden files in order to see it) and then reinstall.

Open Source Demo

FAQ

Question:What is the usage environment of the e-Paper screen?

Answer:

【Operating conditions】Temperature range: 0~50°C; Humidity range: 35%~65%RH.
【Storage conditions】 Temperature range: below 30°C; Humidity range: below 55%RH; Maximum storage time: 6 months.
【Transport conditions】 Temperature range: -25~70°C; Maximum transportation time: 10 days.
【After unpacking】Temperature range: 20°C±5°C; Humidity range: 50±5%RH; Maximum storage time: Assemble within 72 hours.

{{{5}}}

Question:Precautions for e-Paper screen refresh?

Answer:

Refresh mode
- Full refresh: The electronic ink screen will flicker several times during the refresh process (the number of flickers depends on the refresh time), and the flicker is to remove the afterimage to achieve the best display effect.
- Partial refresh: The electronic ink screen has no flickering effect during the refresh process. Users who use the partial brushing function note that after refreshing several times, a full brush operation should be performed to remove the residual image, otherwise the residual image problem will become more and more serious, or even damage the screen (currently only some black and white e-ink screens support partial brushing, please refer to product page description).
Refresh rate
- During use, it is recommended that customers set the refresh interval of the e-ink screen to at least 180 seconds (except for products that support the local brush function)
- During the standby process (that is, after the refresh operation), it is recommended that the customer set the e-ink screen to sleep mode, or power off operation (the power supply part of the ink screen can be disconnected with an analog switch) to reduce power consumption and prolong the life of the e-ink screen. (If some e-ink screens are powered on for a long time, the screen will be damaged beyond repair.)
- During the use of the three-color e-ink screen, it is recommended that customers update the display screen at least once every 24 hours (if the screen remains the same screen for a long time, the screen burn will be difficult to repair).
Usage scenarios
- The e-ink screen is recommended for indoor use. If you use it outdoors, you need to avoid direct sunlight on the e-ink screen and take UV protection measures at the same time. When designing e-ink screen products, customers should pay attention to determining whether the use environment meets the temperature and humidity requirements of the e-ink screen.

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Question:Chinese cannot be displayed on the e-paper screen?

Answer:

The Chinese character library of our routine uses the GB2312 encoding method, please change your xxx_test.c file to GB2312 encoding format, compile and download it, and then it can be displayed normally.

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Question:After using it for some time, the screen refresh (full refresh) has a serious afterimage problem that cannot be repaired?

Answer:

Power on the development board for a long time, after each refresh operation, it is recommended to set the screen to sleep mode or directly power off processing, otherwise, the screen may burn out when the screen is in a high voltage state for a long time.

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Question: e-Paper shows black border?

Answer:

The border display color can be set through the Border Waveform Control register or the VCOM AND DATA INTERVAL SETTING register.

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Question: What is the specification of the screen cable interface?

Answer:

0.5mm pitch, 24Pin.

In this case, the customer needs to reduce the position of the round brush and clear the screen after 5 rounds of brushing (increasing the voltage of VCOM can improve the color, but it will increase the afterimage).

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Question: After the e-Paper screen enters deep sleep mode, can it be refreshed again?

Answer:

Yes, but you need to re-initialize the electronic paper with software.

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Question:When the 2.9-inch EPD is in deep sleep mode, the first time it wakes up, the screen refresh will be unclean. How can I solve it?

Answer:

The process of re-awakening the e-ink screen is the process of re-powering on, so when the EPD wakes up, the screen must be cleared first, to avoid the afterimage phenomenon to the greatest extent.

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Question: Are bare screen products shipped with a surface coating?

Answer:

with film.

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Question: Does e-Paper have a built-in temperature sensor?

Answer:

Yes, you can also use the IIC pin external LM75 temperature sensor.

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Question:When testing the program, the program keeps stuck on an e-Paper busy?

Answer:

It may be caused by the unsuccessful spi driver 1. Check whether the wiring is correct 2. Check whether the spi is turned on and whether the parameters are configured correctly (spi baud rate, spi mode, and other parameters).

{{{5}}}

Question: What is the refresh rate/lifetime of this e-Paper screen?

Answer:

Ideally, with normal use, it can be refreshed 1,000,000 times (1 million times).

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