esp32_amg8833
介绍
用基于ESP32+amg8833模块开发的红外热成像测温仪,开发板用的是TTGO T-Display ESP32,测温模块用的是AMG8833 IR 8x8红外热像传感器。
在新冠战疫的环境下,不仅一罩(口罩)难求,还有一枪(测温枪)难求。咱就自己搞个测温枪吧。
最初的想法是红外测温枪+人脸识别,放在学校门口,就可以为师生每天自动记录体温了。趁全国人民做月子期间,试着做做吧。
接线说明
| AMG8833 | ESP32 | 说明 |
|---|---|---|
| VIM | 5V | |
| GND | GND | |
| SDA | 21 | wire_sda |
| SCL | 22 | wire_scl |
我淘来的amg8833板子有两排针脚的。刚开始想不明白为什么为么多针脚,了解了才知道,AMG8833字那排针脚没有啥实际意义的,就是为了方便固定用的。有针脚说明那排才有意义。
开发环境
我用的是vs code+platformio,也可以直接用arduino ide。
安装Adafruit AMG88xx Library库,人家已经为你写好驱动库了,调用即可
本代码基于example里的thermal_cam_interpolate
AMG8833的分辨是88的,要显示成图像的话,就看到一个88的格子,很粗,很粗,很粗。根本成不了像,thermal_cam_interpolate里的算法,是根据格子单的温度做拆分的,形成更细的分辨率,有兴趣的同学可以看看interpolate_image,该部分功能在项目里我放到了interpolation.cpp .h里了。
程序中增加了温度对比条显示,中心点温度、最高温度、最低温度。
代码在gitee仓库自行取。
测温效果
测个水杯的温度
测个手的温度
我用测温枪实测对比后,发现温度还是挺准的。
这个红红的外壳请忽视,做其它项目时的半成品。
main代码
#include <Arduino.h>
#include <TFT_eSPI.h>
#include <Button2.h>
#include <SPI.h>
#include <Wire.h>
#include <Adafruit_AMG88xx.h>
#include "interpolation.h"
TFT_eSPI tft = TFT_eSPI();
Button2 btn1(35);
Button2 btn2(0);
/*256位的温度颜色对照表*/
const uint16_t camColors[] = {0x480F,
0x400F,0x400F,0x400F,0x4010,0x3810,0x3810,0x3810,0x3810,0x3010,0x3010,
0x3010,0x2810,0x2810,0x2810,0x2810,0x2010,0x2010,0x2010,0x1810,0x1810,
0x1811,0x1811,0x1011,0x1011,0x1011,0x0811,0x0811,0x0811,0x0011,0x0011,
0x0011,0x0011,0x0011,0x0031,0x0031,0x0051,0x0072,0x0072,0x0092,0x00B2,
0x00B2,0x00D2,0x00F2,0x00F2,0x0112,0x0132,0x0152,0x0152,0x0172,0x0192,
0x0192,0x01B2,0x01D2,0x01F3,0x01F3,0x0213,0x0233,0x0253,0x0253,0x0273,
0x0293,0x02B3,0x02D3,0x02D3,0x02F3,0x0313,0x0333,0x0333,0x0353,0x0373,
0x0394,0x03B4,0x03D4,0x03D4,0x03F4,0x0414,0x0434,0x0454,0x0474,0x0474,
0x0494,0x04B4,0x04D4,0x04F4,0x0514,0x0534,0x0534,0x0554,0x0554,0x0574,
0x0574,0x0573,0x0573,0x0573,0x0572,0x0572,0x0572,0x0571,0x0591,0x0591,
0x0590,0x0590,0x058F,0x058F,0x058F,0x058E,0x05AE,0x05AE,0x05AD,0x05AD,
0x05AD,0x05AC,0x05AC,0x05AB,0x05CB,0x05CB,0x05CA,0x05CA,0x05CA,0x05C9,
0x05C9,0x05C8,0x05E8,0x05E8,0x05E7,0x05E7,0x05E6,0x05E6,0x05E6,0x05E5,
0x05E5,0x0604,0x0604,0x0604,0x0603,0x0603,0x0602,0x0602,0x0601,0x0621,
0x0621,0x0620,0x0620,0x0620,0x0620,0x0E20,0x0E20,0x0E40,0x1640,0x1640,
0x1E40,0x1E40,0x2640,0x2640,0x2E40,0x2E60,0x3660,0x3660,0x3E60,0x3E60,
0x3E60,0x4660,0x4660,0x4E60,0x4E80,0x5680,0x5680,0x5E80,0x5E80,0x6680,
0x6680,0x6E80,0x6EA0,0x76A0,0x76A0,0x7EA0,0x7EA0,0x86A0,0x86A0,0x8EA0,
0x8EC0,0x96C0,0x96C0,0x9EC0,0x9EC0,0xA6C0,0xAEC0,0xAEC0,0xB6E0,0xB6E0,
0xBEE0,0xBEE0,0xC6E0,0xC6E0,0xCEE0,0xCEE0,0xD6E0,0xD700,0xDF00,0xDEE0,
0xDEC0,0xDEA0,0xDE80,0xDE80,0xE660,0xE640,0xE620,0xE600,0xE5E0,0xE5C0,
0xE5A0,0xE580,0xE560,0xE540,0xE520,0xE500,0xE4E0,0xE4C0,0xE4A0,0xE480,
0xE460,0xEC40,0xEC20,0xEC00,0xEBE0,0xEBC0,0xEBA0,0xEB80,0xEB60,0xEB40,
0xEB20,0xEB00,0xEAE0,0xEAC0,0xEAA0,0xEA80,0xEA60,0xEA40,0xF220,0xF200,
0xF1E0,0xF1C0,0xF1A0,0xF180,0xF160,0xF140,0xF100,0xF0E0,0xF0C0,0xF0A0,
0xF080,0xF060,0xF040,0xF020,0xF800,};
//low range of the sensor (this will be blue on the screen)
#define MINTEMP 14
//high range of the sensor (this will be red on the screen)
#define MAXTEMP 30
/*32*32为优化后的分辨率,不宜太高,提升分辨率修改此处即可*/
#define INTERPOLATED_COLS 32
#define INTERPOLATED_ROWS 32
#define AMG_COLS 8
#define AMG_ROWS 8
Adafruit_AMG88xx amg;
unsigned long delayTime;
float pixels[AMG_COLS * AMG_ROWS];
uint16_t displayPixelWidth, displayPixelHeight;
uint16_t displayPixelX, displayPixelY;
/* 画温度颜色对比条 */
void drawTemperateBar () {
const int colorSize = 256;
const int barHeight = 128;
const int barWidth = 10;
const int posY = (tft.height()-barHeight)/2-1;
for(int i=0; i<colorSize; i++) {
int x = i/barHeight;
tft.drawLine(14+x*barWidth, barHeight-i%barHeight+posY, 14+x*barWidth+barWidth, barHeight-i%barHeight+posY, camColors[i]);
}
tft.setTextSize(1);
tft.setTextDatum(BL_DATUM);
tft.setTextColor(camColors[0]);
tft.drawString(String(MINTEMP), 0, tft.height());
tft.setTextColor(camColors[barHeight]);
tft.drawString(String(MINTEMP+int(MAXTEMP-MINTEMP)/2), 38, tft.height());
tft.setTextDatum(TL_DATUM);
tft.setTextColor(camColors[barHeight-1]);
tft.drawString(String(MINTEMP+int(MAXTEMP-MINTEMP)/2), 0, 0);
tft.setTextColor(camColors[colorSize-1]);
tft.drawString(String(MAXTEMP), 38, 0);
}
/* 画热成像素点 */
void drawpixels(float *p, uint8_t rows, uint8_t cols, uint8_t boxWidth, uint8_t boxHeight, boolean showVal) {
int colorTemp;
float curMax = get_point(p, rows, cols, 0, 0),
curMin = get_point(p, rows, cols, 0, 0),
curMid = get_point(p, rows, cols, cols/2, rows/2);
uint16_t colorMax = camColors[0],
colorMin = camColors[0],
colorMid = camColors[0];
//画热成像
for (int y=0; y<rows; y++) {
for (int x=0; x<cols; x++) {
float val = get_point(p, rows, cols, x, y);
if(val >= MAXTEMP)
colorTemp = MAXTEMP;
else if(val <= MINTEMP)
colorTemp = MINTEMP;
else
colorTemp = val;
uint8_t colorIndex = map(colorTemp, MINTEMP, MAXTEMP, 0, 255);
colorIndex = constrain(colorIndex, 0, 255);
//draw the pixels!
tft.fillRect(displayPixelX + boxWidth * x, displayPixelY + boxHeight * y, boxWidth, boxHeight, camColors[colorIndex]);
//取最大值
if(val >= curMax){
curMax = val;
colorMax = camColors[colorIndex];
}
//取最小值
if(val <= curMin){
curMin = val;
colorMin = camColors[colorIndex];
}
//取中心点
if(y == rows/2 && x == cols/2){
colorMid = camColors[colorIndex];
}
if (showVal) {
tft.setCursor(boxWidth * y + boxWidth/2 - 12, 40 + boxHeight * x + boxHeight/2 - 4);
tft.setTextSize(1);
tft.setTextColor(TFT_WHITE);
tft.print(val,1);
}
}
}
//画中心点十字
uint8_t midX = displayPixelX+cols*boxWidth/2;
uint8_t midY = displayPixelY+rows*boxHeight/2;
tft.drawLine(midX-10, midY, midX+10, midY, TFT_WHITE);
tft.drawLine(midX, midY-10, midX, midY+10, TFT_WHITE);
char temp[7];
tft.setTextSize(1);
tft.setTextColor(TFT_WHITE);
//显示最高温度
tft.setTextDatum(TL_DATUM);
tft.drawString(F("MAX"), tft.width()-40, 0);
tft.fillRect(tft.width()-45, 10, 40, 30, colorMax);
tft.setTextDatum(CL_DATUM);
memset(temp, 0, sizeof(temp));
sprintf(temp, "%0.1f", curMax);
tft.drawString(String(temp), tft.width()-40, 25);
//显示最低温度
tft.setTextDatum(TL_DATUM);
tft.drawString(F("MIN"), tft.width()-40, 47);
tft.fillRect(tft.width()-45, 57, 40, 30, colorMin);
tft.setTextDatum(CL_DATUM);
memset(temp, 0, sizeof(temp));
sprintf(temp, "%0.1f", curMin);
tft.drawString(String(temp), tft.width()-40, 72);
//显示中心点温度
tft.setTextDatum(TL_DATUM);
tft.drawString(F("POINT"), tft.width()-40, 94);
tft.fillRect(tft.width()-45, 104, 40, 30, colorMid);
tft.setTextDatum(CL_DATUM);
memset(temp, 0, sizeof(temp));
sprintf(temp, "%0.1f", curMid);
tft.drawString(String(temp), tft.width()-40, 119);
}
void setup() {
Serial.begin(9600);
//初始化屏幕
tft.init();
tft.setRotation(1);
tft.fillScreen(TFT_BLACK);
tft.setTextColor(TFT_WHITE);
tft.setTextSize(2);
tft.setTextDatum(MC_DATUM);
tft.drawString(F("Thermal Camera"), tft.width()/2, tft.height()/2);
delay(2000);
tft.fillScreen(TFT_BLACK);
displayPixelWidth = tft.height() / 8;
displayPixelHeight = tft.height() / 8;
displayPixelX = (tft.width() - displayPixelWidth*8)/2;
displayPixelY = (tft.height() - displayPixelHeight*8)/2;
drawTemperateBar();
bool status;
// default settings
status = amg.begin();
if (!status) {
Serial.println("Could not find a valid AMG8833 sensor, check wiring!");
while (1);
}
Serial.println("-- Thermal Camera Test --");
delay(100); // let sensor boot up
}
void loop() {
//read all the pixels
amg.readPixels(pixels);
/* for(int i=0; i<AMG88xx_PIXEL_ARRAY_SIZE; i++){
uint8_t colorIndex = map(pixels[i], MINTEMP, MAXTEMP, 0, 255);
colorIndex = constrain(colorIndex, 0, 255);
//draw the pixels!
tft.fillRect(displayPixelX+displayPixelHeight * floor(i / 8), displayPixelY+displayPixelWidth * (i % 8),
displayPixelHeight, displayPixelWidth, camColors[colorIndex]);
} */
/* Serial.print("[");
for(int i=1; i<=AMG88xx_PIXEL_ARRAY_SIZE; i++){
Serial.print(pixels[i-1]);
Serial.print(", ");
if( i%8 == 0 ) Serial.println();
}
Serial.println("]");
Serial.println(); */
float dest_2d[INTERPOLATED_ROWS * INTERPOLATED_COLS];
//int32_t t = millis();
interpolate_image(pixels, AMG_ROWS, AMG_COLS, dest_2d, INTERPOLATED_ROWS, INTERPOLATED_COLS);
/* Serial.print("Interpolation took ");
Serial.print(millis()-t);
Serial.println(" ms"); */
uint16_t boxsize = min(tft.width() / INTERPOLATED_COLS, tft.height() / INTERPOLATED_COLS);
drawpixels(dest_2d, INTERPOLATED_ROWS, INTERPOLATED_COLS, boxsize, boxsize, false);
//delay(100);
}
待完成内容
加个锂电池,再加上电源管理代码,能在屏上再显示个电量。
用smartconfig一键配置连接wifi,把测温数据上传服务器。
加个外壳,用3D打印机打印。
高大上的32*32分辨率的物联网红外成像测温仪就完成了。
