(高精度)電圧の表示(ST7789,STM32G031,MCP3425)
x わかる人むけ
x 過去ログを見よ
x 4PINをOBでGPIO
x 書き換え前に3秒いないにコネクトしてイレース
x 6GPIOの為に開発に難あり
目的
液晶のテスト
0-2.048000Vで高精度
i2c_run.h
i2c_run.h
//インクルド
#include <Wire.h>
//定義
//MCP3425A0T-E/CHのアドレス
#define ADD 0x68
//10の割り算 0から1028までは、正しい。主に0から999
#define DIV10(n) ((n*205)>>11)
void i2c_setup(){
//i2cの初期化
Wire.setSDA(PA12);
Wire.setSCL(PA11);
Wire.begin(); //pa12 pa11
// 7 *(1)待ち
// 6 *(0)
// 5 *(0)
// 4 (0)ワンショット,*(1)連続
// 3 | (00)12ビット,(01)14ビット
// 2 | *(10)16ビット
// 1 I *(00)x1,(01)x2
// 0 I (10)x4,(11)x8
//初期値の書き込み
Wire.beginTransmission(ADD);
Wire.write(0b10011000); //16bit 15sps PGA x1
Wire.endTransmission();
}//setup
//i2cの読み出し 出力は、16BIT
int read_data() {
//2文字の読み込み
Wire.requestFrom(ADD, 2);
//戻し
return ( (Wire.read() << 8 ) + Wire.read() );
}//read_data
void i2c_run(NA_ST7735_P *display_bk){
NA_ST7735_P display = *display_bk;
//変換、表示
//16ビットadcの4ビットの変換テーブル
char bit4[16][4] =
{ "000" , "062" , "125" , "187" ,
"250" , "312" , "375" , "437" ,
"500" , "562" , "625" , "687" ,
"750" , "812" , "875" , "937"
};
int s = read_data();
//s = ((1654*16)+8); //debug
int e = (s >> 4);
int g = '0';
if ( e >= 2000 ) {e = e - 2000;g = '2';}
else if ( e >= 1000 ) {e = e - 1000;g = '1';}
char str1[9];
str1[0] = g;
str1[1] = '.';
str1[4] = '0' + (e - (DIV10(e) * 10)); e = DIV10(e);
str1[3] = '0' + (e - (DIV10(e) * 10));
str1[2] = '0' + DIV10(e);
str1[5] = bit4[s & 0xf][0];
str1[6] = bit4[s & 0xf][1];
str1[7] = bit4[s & 0xf][2];
str1[8] = 0;
// テキストサイズを設定
display.setTextSize(3);
// テキスト色を設定
display.setTextColor(WHITE);
// テキストの開始位置を設定
display.setCursor(0, 0);
// 1行目に46を表示
display.println();
display.println("-----------");
display.println("Voltage");
display.println();
display.print(" ");
display.print(str1);
display.print("V");
display.println();
display.println("-----------");
}//i2c_run
メインプログラム
lil9341_SPI_monotone_REG5_031
lil9341_SPI_monotone_REG5_031
//ili9341_SPI_monotone_REG5_031
//ヘッダーファイル
#include <Adafruit_GFX.h>
#include "hh.h"
#include "i2c_run.h"
//定義
#define SCREEN_WIDTH (240-16-16) // OLED display width, in pixels
#define SCREEN_HEIGHT 200 // OLED display height, in pixels
NA_ST7735_P display(SCREEN_WIDTH, SCREEN_HEIGHT);
//初期化
void setup() {
delay(3000); //do not delete
// LCDの初期化
display.begin();
//i2cの初期化
i2c_setup();
}//setup
//メインループ
void loop() {
// 画面表示をクリア
display.clearDisplay();
i2c_run(&display);
// 描画バッファの内容を画面に表示
display.display();
delay(3000); //1秒待つ
}//loop
hh.cpp
hh.cpp
//インクルド
#include "hh.h"
#include <Adafruit_GFX.h>
//定義
#define NA_ST7735_P_swap(a, b) \
(((a) ^= (b)), ((b) ^= (a)), ((a) ^= (b))) ///< No-temp-var swap operation
//GPIOの設定1 開始
#define DW digitalWrite
//#define TFT_RST A1
//#define TFT_RS PA11
#define TFT_RS PB7
#define TFT_CS PA0
//#define TFT_CS PA12
//#define GPIO_RESET(s) DW(TFT_RST,s)
#define GPIO_RS(s) DW(TFT_RS,s)
#define GPIO_CS(s) DW(TFT_CS,s)
//#define TFT_MOSI PA12
//#define TFT_SCK PB7
//honban
#define TFT_MOSI PA13
#define TFT_SCK PA14
//debug
//#define TFT_MOSI PA12
//#define TFT_SCK PA11
#define SPI_MOSI_HIGH() DW(TFT_MOSI,HIGH)
#define SPI_MOSI_LOW() DW(TFT_MOSI,LOW)
#define SPI_SCK_HIGH() DW(TFT_SCK,HIGH)
#define SPI_SCK_LOW() DW(TFT_SCK,LOW)
void SPI_WRITE8(int x)
{
for (int bit = 0; bit < 8; bit++) {
if (x & 0x80) {
SPI_MOSI_HIGH();
SPI_SCK_HIGH();
SPI_SCK_LOW();
} else {
SPI_MOSI_LOW();
SPI_SCK_HIGH();
SPI_SCK_LOW();
}//end if
x <<= 1;
}//for
}//SPI_WRITE8
//c = CS,m=MOSI,C=SPICLK
//TFT_SPICLK PA14
//TFT_MOSI PA13
//TFT_CS PA12(仮)
//TFT_CS PA0(本番)
// Cmc
// 5432109876543210
#define REG_MOSI_ON GPIOA->ODR=0b0010000000000000;
// Cmc
// 5432109876543210
#define REG_CLK_ON__MOSI_1 GPIOA->ODR=0b0110000000000000;
// Cmc
// 5432109876543210
#define REG_MOSI_OFF GPIOA->ODR=0b0000000000000000;
// Cmc
// 5432109876543210
#define REG_CLK_ON__MOSI_0 GPIOA->ODR=0b0100000000000000;
// Cmc
// 5432109876543210
#define REG_CLK_OFF GPIOA->ODR=0b0000000000000000;
void SPI_WRITE8_A(int s)
{
//1
if (s & 0x80) {
REG_MOSI_ON;
REG_CLK_ON__MOSI_1;
REG_CLK_OFF;
} else {
REG_MOSI_OFF;
REG_CLK_ON__MOSI_0;
REG_CLK_OFF;
}//end if
//2
if (s & 0x40) {
REG_MOSI_ON;
REG_CLK_ON__MOSI_1;
REG_CLK_OFF;
} else {
REG_MOSI_OFF;
REG_CLK_ON__MOSI_0;
REG_CLK_OFF;
}//end if
//3
if (s & 0x20) {
REG_MOSI_ON;
REG_CLK_ON__MOSI_1;
REG_CLK_OFF;
} else {
REG_MOSI_OFF;
REG_CLK_ON__MOSI_0;
REG_CLK_OFF;
}//end if
//4
if (s & 0x10) {
REG_MOSI_ON;
REG_CLK_ON__MOSI_1;
REG_CLK_OFF;
} else {
REG_MOSI_OFF;
REG_CLK_ON__MOSI_0;
REG_CLK_OFF;
}//end if
//5
if (s & 0x08) {
REG_MOSI_ON;
REG_CLK_ON__MOSI_1;
REG_CLK_OFF;
} else {
REG_MOSI_OFF;
REG_CLK_ON__MOSI_0;
REG_CLK_OFF;
}//end if
//6
if (s & 0x04) {
REG_MOSI_ON;
REG_CLK_ON__MOSI_1;
REG_CLK_OFF;
} else {
REG_MOSI_OFF;
REG_CLK_ON__MOSI_0;
REG_CLK_OFF;
}//end if
//7
if (s & 0x02) {
REG_MOSI_ON;
REG_CLK_ON__MOSI_1;
REG_CLK_OFF;
} else {
REG_MOSI_OFF;
REG_CLK_ON__MOSI_0;
REG_CLK_OFF;
}//end if
//8
if (s & 0x01) {
REG_MOSI_ON;
REG_CLK_ON__MOSI_1;
REG_CLK_OFF;
} else {
REG_MOSI_OFF;
REG_CLK_ON__MOSI_0;
REG_CLK_OFF;
}//end if
}//SPI_WRITE8
void NA_ST7735_P::GPIO_8BIT(uint8_t s)
{
SPI_WRITE8(s);
} //GPIO_8BIT
//コマンドの書き込み
void NA_ST7735_P::LCD_Write_CMD(uint8_t a)
{
GPIO_CS(0);//CS=0; 12
GPIO_RS(0); //A0=0; 9
GPIO_8BIT(a);//P1=a; data SPI SPI
GPIO_CS(1);//CS=1; 12
} //LCD_Write_CMD
//データ書き込み
void NA_ST7735_P::LCD_Write_Data(uint8_t a)
{
GPIO_CS(0);//CS=0; 12
GPIO_RS(1); //A0=1; 9
GPIO_8BIT(a);//P1=a; data SPI SPI
GPIO_CS(1);//CS=1; 12
} //LCD_Write_Data
//液晶の初期化処理
void NA_ST7735_P::TXDT144TF_ST7735S_Init(void)
{
//GPIO_RESET(1);//LCD_RESET=1;
//delay(1); //Delay 1ms
//GPIO_RESET(0);//LCD_RESET=0;
//delay(1); //Delay 1ms
//GPIO_RESET(1);//LCD_RESET=1;
//delay(120); //Delay 120ms
LCD_Write_CMD(0x01);//SOFTWARE RESET
delay(50);
LCD_Write_CMD(0x01);//SOFTWARE RESET
delay(50);
LCD_Write_CMD(0x11);//SLEEP OUT
delay(200);
LCD_Write_CMD(0x29);//display on
delay(100);
LCD_Write_CMD(0x36);//RGB-RGR format
LCD_Write_Data(0x00);//RGB mode
delay(100);
LCD_Write_CMD(0x3a);//Interface pixel format
LCD_Write_Data(0x55);//16bit mode
delay(100);
LCD_Write_CMD(0x21); //Reverse
delay(100);
} //TXDT144TF_ST7735S_Init
NA_ST7735_P::NA_ST7735_P(uint16_t w, uint16_t h)
: Adafruit_GFX(w, h), buffer(NULL)
{
}
//バッファのクリア
NA_ST7735_P::~NA_ST7735_P(void) {
if (buffer) {
free(buffer);
buffer = NULL;
}
}//~NA_ST7735_P
//初期処理
bool NA_ST7735_P::begin(void) {
if ((!buffer) && !(buffer = (uint8_t *)malloc( (((WIDTH)/8)*HEIGHT) ) ) )
return false;
//バッファーのクリア
clearDisplay();
//ポートのモード設定 アウトプットモード
pinMode(TFT_CS, OUTPUT);
//pinMode(TFT_RST, OUTPUT);
pinMode(TFT_RS, OUTPUT);
pinMode(TFT_MOSI, OUTPUT);
pinMode(TFT_SCK , OUTPUT);
//ポートの初期化
GPIO_CS(1);//CS=1
//GPIO_RESET(1);//RESET=1
GPIO_RS(0);//RS=0
delay(500); //0.5秒待つ
//液晶の初期化処理
TXDT144TF_ST7735S_Init();
//画面の書き込み開始
//display();
return true; // Success
}//begin
//点の表示
void NA_ST7735_P::drawPixel(int16_t x, int16_t y, uint16_t color) {
if ((x >= 0) && (x < width()) && (y >= 0) && (y < height())) {
// Pixel is in-bounds. Rotate coordinates if needed.
switch (getRotation()) {
case 1:
NA_ST7735_P_swap(x, y);
x = WIDTH - x - 1;
break;
case 2:
x = WIDTH - x - 1;
y = HEIGHT - y - 1;
break;
case 3:
NA_ST7735_P_swap(x, y);
y = HEIGHT - y - 1;
break;
}
switch (color) {
case NA_ST7735_P_WHITE:
//0 239
//1 238
//2 237
//x = (WIDTH - 1) - x;
buffer[(x / 8) + (y * 26) ] |= (1 << (7 - (x & 7)));
break;
case NA_ST7735_P_BLACK:
//x = (WIDTH - 1) - x;
buffer[(x / 8) + (y * 26) ] &= ~(1 << (7 - (x & 7)));
break;
case NA_ST7735_P_INVERSE:
//x = (WIDTH - 1) - x;
buffer[(x / 8) + (y * 26) ] ^= (1 << (7 - (x & 7)));
break;
}
}
}
//バッファのクリア
void NA_ST7735_P::clearDisplay(void) {
for(int ii=0;ii<( ((WIDTH)/8)*HEIGHT );ii++){
buffer[ii]=0;
}//for
}
bool NA_ST7735_P::getPixel(int16_t x, int16_t y) {
if ((x >= 0) && (x < width()) && (y >= 0) && (y < height())) {
// Pixel is in-bounds. Rotate coordinates if needed.
switch (getRotation()) {
case 1:
NA_ST7735_P_swap(x, y);
x = WIDTH - x - 1;
break;
case 2:
x = WIDTH - x - 1;
y = HEIGHT - y - 1;
break;
case 3:
NA_ST7735_P_swap(x, y);
y = HEIGHT - y - 1;
break;
}
//x = (WIDTH - 1) - x;
return (buffer[(x / 8) + (y * 26) ] & (1 << (7 - (x & 7))));
}
return false; // Pixel out of bounds
}
uint8_t *NA_ST7735_P::getBuffer(void) {
return buffer;
}
//TFT_CS PA12(仮)
//TFT_CS PA0(本番)
// Cm c
// 5432109876543210
#define GPIO_CS_0() GPIOA->ODR=0b0000000000000000;
// Cm c
// 5432109876543210
#define GPIO_CS_1() GPIOA->ODR=0b0000000000000001;
//#define WR_D(xx) GPIO_CS(0);SPI_WRITE8(xx);GPIO_CS(1);
#define WR_D(xx) GPIO_CS_0();SPI_WRITE8_A(xx);GPIO_CS_1();
void g_line20() {
//16dot
for (int ooi = 0; ooi < 15; ooi++) {
WR_D(0b00000110);
WR_D(0b11100000);
}//ooi
WR_D(0b00000000);
WR_D(0b0000000);
for (int ppj = 0; ppj < 240 - 16 - 16; ppj++) {
WR_D(0);
WR_D(0);
} //j
//16dot
WR_D(0b00000000);
WR_D(0b00000000);
for (int ooi = 0; ooi < 15; ooi++) {
WR_D(0b00000110);
WR_D(0b11100000);
}//ooi
}//g_line20()
void NA_ST7735_P::display(void) {
//画面の書き込み開始
LCD_Write_CMD(0x2C); //memory write
GPIO_RS(1); //A0=1; 9
delay(4);
int jjk = 0, vg = 0;
int hp[8] = {0x80, 0x40, 0x20, 0x10, 0x08, 0x04, 0x02, 0x01};
//20line
for (int ooi = 0; ooi < (20); ooi++) {
g_line20();
}
for (int i = 0; i < HEIGHT; i++) {
//16dot
for (int ooi = 0; ooi < 15; ooi++) {
WR_D(0b00000110);
WR_D(0b11100000);
}//ooi
WR_D(0b00000000);
WR_D(0b0000000);
//240-16-16
for (int j = 0; j < ((WIDTH / 8)); j++) {
//8dot
vg = buffer[jjk];
for (int k = 0; k < 8; k++) {
if ( ( vg & hp[k]) == 0 ) {
WR_D(0);
WR_D(0);
} else {
WR_D(0xff);
WR_D(0xff);
}//end if
}//k
jjk++;
} //j
//16dot
WR_D(0b00000000);
WR_D(0b00000000);
for (int ooi = 0; ooi < 15; ooi++) {
WR_D(0b00000110);
WR_D(0b11100000);
}//ooi
}//i
//20line
for (int ooi = 0; ooi < (20); ooi++) {
g_line20();
}//ooi
}//display
hh.h
hh.h
#ifndef _NA_ST7735_P_H_
#define _NA_ST7735_P_H_
#include <Adafruit_GFX.h>
#ifndef NO_ADAFRUIT_NA_ST7735_P_COLOR_COMPATIBILITY
#define BLACK NA_ST7735_P_BLACK ///< Draw 'off' pixels
#define WHITE NA_ST7735_P_WHITE ///< Draw 'on' pixels
#define INVERSE NA_ST7735_P_INVERSE ///< Invert pixels
#endif
/// fit into the SSD1306_ naming scheme
#define NA_ST7735_P_BLACK 0 ///< Draw 'off' pixels
#define NA_ST7735_P_WHITE 1 ///< Draw 'on' pixels
#define NA_ST7735_P_INVERSE 2 ///< Invert pixels
class NA_ST7735_P : public Adafruit_GFX {
public:
NA_ST7735_P(uint16_t w, uint16_t h);
~NA_ST7735_P(void);
bool begin(void);
void display(void);
void clearDisplay(void);
void drawPixel(int16_t x, int16_t y, uint16_t color);
bool getPixel(int16_t x, int16_t y);
uint8_t *getBuffer(void);
void GPIO_8BIT(uint8_t s);
void LCD_Write_CMD(uint8_t ww);
void LCD_Write_Data(uint8_t ii);
void TXDT144TF_ST7735S_Init(void);
protected:
uint8_t *buffer; ///< Buffer data used for display buffer. Allocated when
///< begin method is called.
};
#endif // _NA_ST7735_P_H_