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This commit is contained in:
kevin
2026-03-18 20:37:46 +08:00
parent b0f7baff16
commit d379acd489
14 changed files with 5145 additions and 186 deletions
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code/demo/GDEQ031T10_Arduino/Ap_29demo.h
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code/demo/GDEQ031T10_Arduino/Display_EPD_W21.cpp
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#include "Display_EPD_W21_spi.h"
#include "Display_EPD_W21.h"
unsigned char oldData[12480];
unsigned char oldDataP[256];
unsigned char oldDataA[256];
unsigned char oldDataB[256];
unsigned char oldDataC[256];
unsigned char oldDataD[256];
unsigned char oldDataE[256];
unsigned char partFlag=1;
void lcd_chkstatus(void)
{
while(!isEPD_W21_BUSY); //0:BUSY, 1:FREE
}
//UC8253
void EPD_Init(void)
{
EPD_W21_RST_0; // Module reset
delay(10);//At least 10ms delay
EPD_W21_RST_1;
delay(10);//At least 10ms delay
EPD_W21_WriteCMD(0x00); // panel setting PSR
EPD_W21_WriteDATA(0x1F); // RES1 RES0 REG KW/R UD SHL SHD_N RST_N 0xFF=LUT from register,0xDF=LUT from OTP. (Default)
EPD_W21_WriteCMD(0x04); //Power on
lcd_chkstatus(); //waiting for the electronic paper IC to release the idle signal
}
void EPD_Init_Fast(void) //1.0s
{
EPD_W21_RST_0; // Module reset
delay(10);//At least 10ms delay
EPD_W21_RST_1;
delay(10);//At least 10ms delay
EPD_W21_WriteCMD(0x00); // panel setting PSR
EPD_W21_WriteDATA(0x1F); // RES1 RES0 REG KW/R UD SHL SHD_N RST_N 0xFF=LUT from register,0xDF=LUT from OTP. (Default)
EPD_W21_WriteCMD(0x04); //Power on
lcd_chkstatus(); //waiting for the electronic paper IC to release the idle signal
EPD_W21_WriteCMD(0xE0);
EPD_W21_WriteDATA(0x02);
EPD_W21_WriteCMD(0xE5);
EPD_W21_WriteDATA(0x5A);
}
void EPD_init_Fast2(void) //1.5s
{
EPD_W21_RST_0; // Module reset
delay(10);//At least 10ms delay
EPD_W21_RST_1;
delay(10);//At least 10ms delay
EPD_W21_WriteCMD(0x00); // panel setting PSR
EPD_W21_WriteDATA(0x1F); // RES1 RES0 REG KW/R UD SHL SHD_N RST_N 0xFF=LUT from register,0xDF=LUT from OTP. (Default)
EPD_W21_WriteCMD(0x04); //Power on
lcd_chkstatus(); //waiting for the electronic paper IC to release the idle signal
EPD_W21_WriteCMD(0xE0);
EPD_W21_WriteDATA(0x02);
EPD_W21_WriteCMD(0xE5);
EPD_W21_WriteDATA(0x6E);
}
void EPD_Init_Part(void)
{
EPD_W21_RST_0; // Module reset
delay(10);//At least 10ms delay
EPD_W21_RST_1;
delay(10);//At least 10ms delay
EPD_W21_WriteCMD(0x00); // panel setting PSR
EPD_W21_WriteDATA(0x1F); // RES1 RES0 REG KW/R UD SHL SHD_N RST_N 0xFF=LUT from register,0xDF=LUT from OTP. (Default)
EPD_W21_WriteCMD(0x04); //Power on
lcd_chkstatus(); //waiting for the electronic paper IC to release the idle signal
EPD_W21_WriteCMD(0xE0);
EPD_W21_WriteDATA(0x02);
EPD_W21_WriteCMD(0xE5);
EPD_W21_WriteDATA(0x79);
EPD_W21_WriteCMD(0x50);
EPD_W21_WriteDATA(0xD7);
}
void EPD_DeepSleep(void)
{
EPD_W21_WriteCMD(0X02); //power off
lcd_chkstatus(); //waiting for the electronic paper IC to release the idle signal
delay(100);//At least 100ms delay
EPD_W21_WriteCMD(0X07); //deep sleep
EPD_W21_WriteDATA(0xA5);
}
void Power_off(void)
{
EPD_W21_WriteCMD(0x02); //POWER ON
lcd_chkstatus();
}
//Full screen refresh update function
void EPD_Update(void)
{
//Refresh
EPD_W21_WriteCMD(0x12); //DISPLAY REFRESH
delay(1); //!!!The delay here is necessary, 200uS at least!!!
lcd_chkstatus(); //waiting for the electronic paper IC to release the idle signal
}
void EPD_WhiteScreen_ALL(const unsigned char *datas)
{
unsigned int i;
//Write Data
EPD_W21_WriteCMD(0x10); //Transfer old data
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(oldData[i]); //Transfer the actual displayed data
}
EPD_W21_WriteCMD(0x13); //Transfer new data
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(datas[i]); //Transfer the actual displayed data
oldData[i]=datas[i];
}
EPD_Update();
Power_off();
}
//Clear screen display
void EPD_WhiteScreen_White(void)
{
unsigned int i;
//Write Data
EPD_W21_WriteCMD(0x10);
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(oldData[i]);
}
EPD_W21_WriteCMD(0x13);
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(0xff);
oldData[i]=0xff;
}
EPD_Update();
Power_off();
}
//Display all black
void EPD_WhiteScreen_Black(void)
{
unsigned int i;
//Write Data
EPD_W21_WriteCMD(0x10);
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(oldData[i]);
}
EPD_W21_WriteCMD(0x13);
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(0x00);
oldData[i]=0x00;
}
EPD_Update();
Power_off();
}
//Partial refresh of background display, this function is necessary, please do not delete it!!!
void EPD_SetRAMValue_BaseMap( const unsigned char * datas)
{
unsigned int i;
EPD_W21_WriteCMD(0x10); //write old data
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(oldData[i]);
}
EPD_W21_WriteCMD(0x13); //write new data
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(datas[i]);
oldData[i]=datas[i];
}
EPD_Update();
Power_off();
}
void EPD_Dis_Part(unsigned int x_start,unsigned int y_start,const unsigned char * datas,unsigned int PART_COLUMN,unsigned int PART_LINE)
{
unsigned int i;
unsigned int x_end,y_end;
x_start=x_start-x_start%8;
x_end=x_start+PART_LINE-1;
y_end=y_start+PART_COLUMN-1;
EPD_Init_Part();
EPD_W21_WriteCMD(0x91); //This command makes the display enter partial mode
EPD_W21_WriteCMD(0x90); //resolution setting
EPD_W21_WriteDATA (x_start); //x-start
EPD_W21_WriteDATA (x_end); //x-end
EPD_W21_WriteDATA (y_start/256);
EPD_W21_WriteDATA (y_start%256); //y-start
EPD_W21_WriteDATA (y_end/256);
EPD_W21_WriteDATA (y_end%256); //y-end
EPD_W21_WriteDATA (0x01);
if(partFlag==1)
{
partFlag=0;
EPD_W21_WriteCMD(0x10); //writes Old data to SRAM for programming
for(i=0;i<PART_COLUMN*PART_LINE/8;i++)
EPD_W21_WriteDATA(0xFF);
}
else
{
EPD_W21_WriteCMD(0x10); //writes Old data to SRAM for programming
for(i=0;i<PART_COLUMN*PART_LINE/8;i++)
EPD_W21_WriteDATA(oldDataP[i]);
}
EPD_W21_WriteCMD(0x13); //writes New data to SRAM.
for(i=0;i<PART_COLUMN*PART_LINE/8;i++)
{
EPD_W21_WriteDATA(datas[i]);
oldDataP[i]=datas[i];
}
EPD_Update();
Power_off();
}
//Full screen partial refresh display
void EPD_Dis_PartAll(const unsigned char * datas)
{
unsigned int i;
EPD_Init_Part();
//Write Data
EPD_W21_WriteCMD(0x10); //Transfer old data
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(oldData[i]); //Transfer the actual displayed data
}
EPD_W21_WriteCMD(0x13); //Transfer new data
for(i=0;i<EPD_ARRAY;i++)
{
EPD_W21_WriteDATA(datas[i]); //Transfer the actual displayed data
oldData[i]=datas[i];
}
EPD_Update();
Power_off();
}
//Partial refresh write address and data
void EPD_Dis_Part_RAM(unsigned int x_start,unsigned int y_start,
const unsigned char * datas_A,const unsigned char * datas_B,
const unsigned char * datas_C,const unsigned char * datas_D,const unsigned char * datas_E,
unsigned char num,unsigned int PART_COLUMN,unsigned int PART_LINE)
{
unsigned int i,j,x_end,y_end;
x_start=x_start-x_start%8;
x_end=x_start+PART_LINE*num-1;
y_end=y_start+PART_COLUMN-1;
EPD_Init_Part();
EPD_W21_WriteCMD(0x91); //This command makes the display enter partial mode
EPD_W21_WriteCMD(0x90); //resolution setting
EPD_W21_WriteDATA (x_start); //x-start
EPD_W21_WriteDATA (x_end); //x-end
EPD_W21_WriteDATA (y_start/256);
EPD_W21_WriteDATA (y_start%256); //y-start
EPD_W21_WriteDATA (y_end/256);
EPD_W21_WriteDATA (y_end%256); //y-end
EPD_W21_WriteDATA (0x01);
if(partFlag==1)
{
partFlag=0;
EPD_W21_WriteCMD(0x10); //writes Old data to SRAM for programming
for(i=0;i<PART_COLUMN*PART_LINE*num/8;i++)
EPD_W21_WriteDATA(0xFF);
}
else
{
EPD_W21_WriteCMD(0x10); //writes Old data to SRAM for programming
for(i=0;i<PART_COLUMN;i++)
{
for(j=0;j<PART_LINE/8;j++)
EPD_W21_WriteDATA(oldDataA[i*PART_LINE/8+j]);
for(j=0;j<PART_LINE/8;j++)
EPD_W21_WriteDATA(oldDataB[i*PART_LINE/8+j]);
for(j=0;j<PART_LINE/8;j++)
EPD_W21_WriteDATA(oldDataC[i*PART_LINE/8+j]);
for(j=0;j<PART_LINE/8;j++)
EPD_W21_WriteDATA(oldDataD[i*PART_LINE/8+j]);
for(j=0;j<PART_LINE/8;j++)
EPD_W21_WriteDATA(oldDataE[i*PART_LINE/8+j]);
}
}
EPD_W21_WriteCMD(0x13); //writes New data to SRAM.
for(i=0;i<PART_COLUMN;i++)
{
for(j=0;j<PART_LINE/8;j++)
{
EPD_W21_WriteDATA(datas_A[i*PART_LINE/8+j]);
oldDataA[i*PART_LINE/8+j]=datas_A[i*PART_LINE/8+j];
}
for(j=0;j<PART_LINE/8;j++)
{
EPD_W21_WriteDATA(datas_B[i*PART_LINE/8+j]);
oldDataB[i*PART_LINE/8+j]=datas_B[i*PART_LINE/8+j];
}
for(j=0;j<PART_LINE/8;j++)
{
EPD_W21_WriteDATA(datas_C[i*PART_LINE/8+j]);
oldDataC[i*PART_LINE/8+j]=datas_C[i*PART_LINE/8+j];
}
for(j=0;j<PART_LINE/8;j++)
{
EPD_W21_WriteDATA(datas_D[i*PART_LINE/8+j]);
oldDataD[i*PART_LINE/8+j]=datas_D[i*PART_LINE/8+j];
}
for(j=0;j<PART_LINE/8;j++)
{
EPD_W21_WriteDATA(datas_E[i*PART_LINE/8+j]);
oldDataE[i*PART_LINE/8+j]=datas_E[i*PART_LINE/8+j];
}
}
}
//Clock display
void EPD_Dis_Part_Time(unsigned int x_start,unsigned int y_start,
const unsigned char * datas_A,const unsigned char * datas_B,
const unsigned char * datas_C,const unsigned char * datas_D,const unsigned char * datas_E,
unsigned char num,unsigned int PART_COLUMN,unsigned int PART_LINE)
{
EPD_Dis_Part_RAM(x_start,y_start,datas_A,datas_B,datas_C,datas_D,datas_E,num,PART_COLUMN,PART_LINE);
EPD_Update();
Power_off();
}
////////////////////////////////Other newly added functions////////////////////////////////////////////
//Display rotation 180 degrees initialization
void EPD_Init_180(void)
{
EPD_W21_RST_0; // Module reset
delay(10);//At least 10ms delay
EPD_W21_RST_1;
delay(10); //At least 10ms delay
EPD_W21_WriteCMD(0x00);
EPD_W21_WriteDATA(0x13); //180 mirror
EPD_W21_WriteCMD(0x04); //POWER ON
delay(300);
lcd_chkstatus();
EPD_W21_WriteCMD(0X50); //VCOM AND DATA INTERVAL SETTING
EPD_W21_WriteDATA(0x97); //WBmode:VBDF 17|D7 VBDW 97 VBDB 57 WBRmode:VBDF F7 VBDW 77 VBDB 37 VBDR B7
}
/***********************************************************
end file
***********************************************************/
code/demo/GDEQ031T10_Arduino/Display_EPD_W21.h
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#ifndef _DISPLAY_EPD_W21_H_
#define _DISPLAY_EPD_W21_H_
#define EPD_WIDTH 240
#define EPD_HEIGHT 320
#define EPD_ARRAY EPD_WIDTH*EPD_HEIGHT/8
//Full screen refresh display
void EPD_Init(void);
void EPD_Init_180(void);
void EPD_WhiteScreen_ALL(const unsigned char *datas);
void EPD_WhiteScreen_White(void);
void EPD_WhiteScreen_Black(void);
void EPD_DeepSleep(void);
//Partial refresh display
void EPD_Init_Part(void);
void EPD_SetRAMValue_BaseMap(const unsigned char * datas);
void EPD_Dis_PartAll(const unsigned char * datas);
void EPD_Dis_Part(unsigned int x_start,unsigned int y_start,const unsigned char * datas,unsigned int PART_COLUMN,unsigned int PART_LINE);
void EPD_Dis_Part_Time(unsigned int x_start,unsigned int y_start,
const unsigned char * datas_A,const unsigned char * datas_B,
const unsigned char * datas_C,const unsigned char * datas_D,const unsigned char * datas_E,
unsigned char num,unsigned int PART_COLUMN,unsigned int PART_LINE);
//Fast refresh display
void EPD_Init_Fast(void);
void EPD_WhiteScreen_ALL_Fast(const unsigned char *datas);
//GUI display
void EPD_Init_GUI(void);
void EPD_Display(unsigned char *Image);
#endif
code/demo/GDEQ031T10_Arduino/Display_EPD_W21_spi.cpp
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#include "Display_EPD_W21_spi.h"
#include <SPI.h>
//SPI write byte
void SPI_Write(unsigned char value)
{
SPI.transfer(value);
}
//SPI write command
void EPD_W21_WriteCMD(unsigned char command)
{
EPD_W21_CS_0;
EPD_W21_DC_0; // D/C# 0:command 1:data
SPI_Write(command);
EPD_W21_CS_1;
}
//SPI write data
void EPD_W21_WriteDATA(unsigned char datas)
{
EPD_W21_CS_0;
EPD_W21_DC_1; // D/C# 0:command 1:data
SPI_Write(datas);
EPD_W21_CS_1;
}
code/demo/GDEQ031T10_Arduino/Display_EPD_W21_spi.h
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#ifndef _DISPLAY_EPD_W21_SPI_
#define _DISPLAY_EPD_W21_SPI_
#include "Arduino.h"
//IO settings
//SCK--GPIO23(SCLK)
//SDIN---GPIO18(MOSI)
#define isEPD_W21_BUSY digitalRead(A14) //BUSY
#define EPD_W21_RST_0 digitalWrite(A15,LOW) //RES
#define EPD_W21_RST_1 digitalWrite(A15,HIGH)
#define EPD_W21_DC_0 digitalWrite(A16,LOW) //DC
#define EPD_W21_DC_1 digitalWrite(A16,HIGH)
#define EPD_W21_CS_0 digitalWrite(A17,LOW) //CS
#define EPD_W21_CS_1 digitalWrite(A17,HIGH)
void SPI_Write(unsigned char value);
void EPD_W21_WriteDATA(unsigned char datas);
void EPD_W21_WriteCMD(unsigned char command);
#endif
code/demo/GDEQ031T10_Arduino/GDEQ031T10_Arduino.ino
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#include <SPI.h>
//EPD
#include "Display_EPD_W21_spi.h"
#include "Display_EPD_W21.h"
#include "Ap_29demo.h"
void setup() {
pinMode(A14, INPUT); //BUSY
pinMode(A15, OUTPUT); //RES
pinMode(A16, OUTPUT); //DC
pinMode(A17, OUTPUT); //CS
//SPI
SPI.beginTransaction(SPISettings(10000000, MSBFIRST, SPI_MODE0));
SPI.begin ();
}
//Tips//
/*
1.Flickering is normal when EPD is performing a full screen update to clear ghosting from the previous image so to ensure better clarity and legibility for the new image.
2.There will be no flicker when EPD performs a partial refresh.
3.Please make sue that EPD enters sleep mode when refresh is completed and always leave the sleep mode command. Otherwise, this may result in a reduced lifespan of EPD.
4.Please refrain from inserting EPD to the FPC socket or unplugging it when the MCU is being powered to prevent potential damage.)
5.Re-initialization is required for every full screen update.
6.When porting the program, set the BUSY pin to input mode and other pins to output mode.
*/
void loop() {
unsigned char i;
#if 1 //Full screen refresh, fast refresh, and partial refresh demostration.
EPD_Init(); //Full screen refresh initialization.
EPD_WhiteScreen_White(); //Clear screen function.
EPD_DeepSleep(); //Enter the sleep mode and please do not delete it, otherwise it will reduce the lifespan of the screen.
delay(2000); //Delay for 2s.
/************Full display(2s)*******************/
EPD_Init(); //Full screen refresh initialization.
EPD_WhiteScreen_ALL(gImage_1); //To Display one image using full screen refresh.
EPD_DeepSleep(); //Enter the sleep mode and please do not delete it, otherwise it will reduce the lifespan of the screen.
delay(2000); //Delay for 2s.
/************Fast refresh mode(1.5s)*******************/
EPD_Init_Fast(); //Fast refresh initialization.
EPD_WhiteScreen_ALL(gImage_1); //To display one image using fast refresh.
EPD_DeepSleep(); //Enter the sleep mode and please do not delete it, otherwise it will reduce the lifespan of the screen.
delay(2000); //Delay for 2s.
#if 1 //Partial refresh demostration.
//Partial refresh demo support displaying a clock at 5 locations with 00:00. If you need to perform partial refresh more than 5 locations, please use the feature of using partial refresh at the full screen demo.
//After 5 partial refreshes, implement a full screen refresh to clear the ghosting caused by partial refreshes.
//////////////////////Partial refresh time demo/////////////////////////////////////
EPD_Init(); //Electronic paper initialization.
EPD_SetRAMValue_BaseMap(gImage_basemap); //Please do not delete the background color function, otherwise it will cause unstable display during partial refresh.
for(i=0;i<6;i++)
{
EPD_Dis_Part_Time(40,150,Num[1],Num[0],gImage_numdot,Num[0],Num[i],5,64,32); //x,y,DATA-A~E,number,Resolution 32*64
}
EPD_DeepSleep(); //Enter the sleep mode and please do not delete it, otherwise it will reduce the lifespan of the screen.
delay(2000); //Delay for 2s.
EPD_Init(); //Full screen refresh initialization.
EPD_WhiteScreen_White(); //Clear screen function.
EPD_DeepSleep(); //Enter the sleep mode and please do not delete it, otherwise it will reduce the lifespan of the screen.
delay(2000); //Delay for 2s.
#endif
#if 0 //Demo of using partial refresh to update the full screen, to enable this feature, please change 0 to 1.
//After 5 partial refreshes, implement a full screen refresh to clear the ghosting caused by partial refreshes.
//////////////////////Partial refresh time demo/////////////////////////////////////
EPD_Init(); //Full screen refresh initialization.
EPD_WhiteScreen_White(); //Clear screen function.
EPD_Dis_PartAll(gImage_p1);
EPD_Dis_PartAll(gImage_p2);
EPD_Dis_PartAll(gImage_p3);
EPD_DeepSleep();//Enter the sleep mode and please do not delete it, otherwise it will reduce the lifespan of the screen.
delay(2000); //Delay for 2s.
EPD_Init(); //Full screen refresh initialization.
EPD_WhiteScreen_White(); //Clear screen function.
EPD_DeepSleep(); //Enter the sleep mode and please do not delete it, otherwise it will reduce the lifespan of the screen.
delay(2000); //Delay for 2s.
#endif
#if 0 //Demonstration of full screen refresh with 180-degree rotation, to enable this feature, please change 0 to 1.
/************Full display(2s)*******************/
EPD_Init_180(); //Full screen refresh initialization.
EPD_WhiteScreen_ALL(gImage_1); //To Display one image using full screen refresh.
EPD_DeepSleep(); //Enter the sleep mode and please do not delete it, otherwise it will reduce the lifespan of the screen.
delay(2000); //Delay for 2s.
#endif
#endif
while(1); // The program stops here
}
//////////////////////////////////END//////////////////////////////////////////////////
code/hello_world_01/.vscode/settings.json
Vendored
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@@ -3,7 +3,7 @@
"idf.openOcdConfigs": [
"board/esp32s3-builtin.cfg"
],
"idf.portWin": "COM10",
"idf.portWin": "COM9",
"idf.currentSetup": "C:\\esp\\v5.5.3\\esp-idf",
"idf.customExtraVars": {
"OPENOCD_SCRIPTS": "C:\\Espressif\\tools\\openocd-esp32\\v0.11.0-esp32-20220411/openocd-esp32/share/openocd/scripts",
code/hello_world_01/main/epaper.c
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code/hello_world_01/main/epaper.h
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@@ -13,6 +13,7 @@
#define EPD_CS_PIN 34
#define EPD_DC_PIN 35
#define EPD_BUSY_PIN 37
#define EPD_RST_PIN 16
/********************* 屏幕参数定义 *********************/
#define EPD_WIDTH 320 // 屏幕宽度
code/hello_world_01/main/hello_world_main.c
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@@ -69,15 +69,15 @@ void app_main(void)
spi_init();
epd_init();
epd_clear(1);
// 3. 画测试点(黑色)
epd_draw_point(50, 50, 0); // (50,50) 黑点
epd_draw_point(50, 60, 0); // (50,60) 黑点
epd_draw_point(60, 50, 0); // (60,50) 黑点
epd_draw_point(60, 60, 0); // (60,60) 黑点
//epd_clear(1);
// // 3. 画测试点(黑色)
// epd_draw_point(50, 50, 0); // (50,50) 黑点
// epd_draw_point(50, 60, 0); // (50,60) 黑点
// epd_draw_point(60, 50, 0); // (60,50) 黑点
// epd_draw_point(60, 60, 0); // (60,60) 黑点
// 4. 刷新屏幕
epd_refresh();
// // 4. 刷新屏幕
// epd_refresh();
// 1. 初始化 SPIFFS
code/hello_world_01/main/spi.c
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@@ -59,15 +59,7 @@ void spi_init()
}
/**
* @brief 同步SPI全双工传输函数(无队列,直接硬件收发)
* @param tx_data: 待发送数据缓冲区(NULL则仅接收)
* @param rx_data: 接收数据缓冲区(NULL则仅发送)
* @param len: 传输长度(字节数,收发长度一致)
* @return esp_err_t: 传输结果
* @note 全双工模式下,发送和接收同时进行,len需匹配收发数据长度
*/
esp_err_t epd_spi_send_sync_fullduplex(const uint8_t *tx_data, uint8_t *rx_data, size_t len)
esp_err_t spi_send_sync_fullduplex(const uint8_t *tx_data, uint8_t *rx_data, size_t len)
{
esp_err_t ret;
// ret = spi_device_set_speed(spi2, speed * 1000 * 1000);
@@ -105,3 +97,17 @@ esp_err_t epd_spi_send_sync_fullduplex(const uint8_t *tx_data, uint8_t *rx_data,
return ret;
}
// SPI 写数据
esp_err_t spi_send_data_8(uint8_t data)
{
spi_transaction_t trans = {
.length = 8, // 数据位数
.flags = SPI_TRANS_USE_TXDATA, // 必须加这个标志
};
trans.tx_data[0] = (data);
esp_err_t err = spi_device_transmit(spi2, &trans);
return err;
}
code/hello_world_01/main/spi.h
+2 -1
View File
@@ -15,7 +15,8 @@
void spi_init();
esp_err_t epd_spi_send_sync_fullduplex(const uint8_t *tx_data, uint8_t *rx_data, size_t len);
esp_err_t spi_send_sync_fullduplex(const uint8_t *tx_data, uint8_t *rx_data, size_t len);
esp_err_t spi_send_data_8(uint8_t data);
extern spi_device_handle_t spi2;
code/hello_world_01/sdkconfig
+1 -5
View File
@@ -1,6 +1,6 @@
#
# Automatically generated file. DO NOT EDIT.
# Espressif IoT Development Framework (ESP-IDF) 5.5.3 Project Configuration
# Espressif IoT Development Framework (ESP-IDF) 5.5.2 Project Configuration
#
CONFIG_SOC_ADC_SUPPORTED=y
CONFIG_SOC_UART_SUPPORTED=y
@@ -370,7 +370,6 @@ CONFIG_SOC_WIFI_HW_TSF=y
CONFIG_SOC_WIFI_FTM_SUPPORT=y
CONFIG_SOC_WIFI_GCMP_SUPPORT=y
CONFIG_SOC_WIFI_WAPI_SUPPORT=y
CONFIG_SOC_WIFI_TXOP_SUPPORT=y
CONFIG_SOC_WIFI_CSI_SUPPORT=y
CONFIG_SOC_WIFI_MESH_SUPPORT=y
CONFIG_SOC_WIFI_SUPPORT_VARIABLE_BEACON_WINDOW=y
@@ -698,7 +697,6 @@ CONFIG_USJ_ENABLE_USB_SERIAL_JTAG=y
#
# Hardware Settings
#
CONFIG_ESP_HW_SUPPORT_FUNC_IN_IRAM=y
#
# Chip revision
@@ -759,8 +757,6 @@ CONFIG_RTC_CLK_SRC_INT_RC=y
# CONFIG_RTC_CLK_SRC_EXT_OSC is not set
# CONFIG_RTC_CLK_SRC_INT_8MD256 is not set
CONFIG_RTC_CLK_CAL_CYCLES=1024
CONFIG_RTC_CLK_FUNC_IN_IRAM=y
CONFIG_RTC_TIME_FUNC_IN_IRAM=y
# end of RTC Clock Config
#