update arduino/Betas/RGB_V1.5/main/main.ino.

master
慕炎 2022-02-23 07:26:44 +00:00 committed by Gitee
parent 5d71101d50
commit 7827234a25
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1 changed files with 126 additions and 80 deletions

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@ -1,5 +1,5 @@
/**
RGB HW:Ver 1.5 FW:Ver 1.1.1
RGB HW:Ver 1.5 FW:Ver 1.2.1
EDA https://oshwhub.com/muyan2020/zi-ping-heng-di-lai-luo-san-jiao_10-10-ban-ben_copy
RGB https://gitee.com/muyan3000/RGBFOC 基于45°(https://gitee.com/coll45/foc/)程序修改
arduino-FOChttps://gitee.com/ream_d/Deng-s-foc-controller并安装Kalman。
@ -11,7 +11,8 @@
90TA90eeprom0 wifieeprom
使 BLDCMotor(5) /2
12V, voltage_power_supply , voltage_limit
PID GB2204 使PID
V1PID GB2204 使PID
V22715
*/
#include <SimpleFOC.h>
#include "Command.h"
@ -59,7 +60,7 @@ int touchDetected[4] = {}; //通过touchdetected持续计数判断是否按键
bool touch_touched[4] = {}; //单击判断
int touch_touched_times[4] = {}; //单击次数,单击切换模式,双击
int touch_touching_time[4] = {}; //持续触摸秒数,用于判断长按事件,长按关闭,长按开启,开启状态长按调光,
bool touch_STATE[4] = {1, 1, 1, 1}; // 定义按键触发对象状态变量初始值为true默认开启
bool touch_STATE[4] = {1, 1, 1, 1}; // 定义按键触发对象状态变量初始值为true默认开启 T2 T3 T4
const char *username = "admin"; //web用户名
const char *userpassword = "reuleaux123"; //web用户密码
@ -119,17 +120,17 @@ float LQR_K4_2 = 1.5; //
float LQR_K4_3 = 1.42; //
//电机参数
BLDCMotor motor = BLDCMotor(5);
BLDCMotor motor = BLDCMotor(5); //电机极数
BLDCDriver3PWM driver = BLDCDriver3PWM(32, 33, 25, 22);
float target_velocity = 0; //目标速度
float target_angle = 90; //平衡角度 例如TA89.3 设置平衡角度89.3
float target_angle = 89.3; //平衡角度 例如TA89.3 设置平衡角度89.3
float target_voltage = 0; //目标电压
float swing_up_voltage = 1.8; //摇摆电压 左右摇摆的电压,越大越快到平衡态,但是过大会翻过头
float swing_up_angle = 20; //摇摆角度 离平衡角度还有几度时候,切换到自平衡控制
float v_i_1 = 20; //非稳态速度环I
float v_p_1 = 0.7; //非稳态速度环P
float v_p_1 = 0.5; //非稳态速度环P
float v_i_2 = 10; //稳态速度环I
float v_p_2 = 0.3; //稳态速度环P
float v_p_2 = 0.2; //稳态速度环P
//命令设置
Command comm;
bool Motor_enable_flag = 0;
@ -227,6 +228,61 @@ void Debug_Log_func(String debuglog, bool debug_control = debug_log_control) {
}
}
bool AutoWifiConfig()
{
//wifi初始化
WiFi.mode(WIFI_AP);
while (!WiFi.softAP(ssid, password)) {}; //启动AP
Serial.println("AP启动成功");
Serial.println("Ready");
Serial.print("IP address: ");
Serial.println(WiFi.softAPIP());
byte mac[6];
WiFi.macAddress(mac);
WiFi.setHostname(ServerName);
Serial.printf("macAddress 0x%02X:0x%02X:0x%02X:0x%02X:0x%02X:0x%02X\r\n", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
while (!udp.listen(localUdpPort)) //等待udp监听设置成功
{
}
udp.onPacket(onPacketCallBack); //注册收到数据包事件
ArduinoOTA.setHostname(ServerName);
//以下是启动OTA可以通过WiFi刷新固件
ArduinoOTA.onStart([]() {
String type;
if (ArduinoOTA.getCommand() == U_FLASH) {
type = "sketch";
} else { // U_SPIFFS
type = "filesystem";
}
// NOTE: if updating SPIFFS this would be the place to unmount SPIFFS using SPIFFS.end()
Serial.println("Start updating " + type);
});
ArduinoOTA.onEnd([]() {
Serial.println("\nEnd");
});
ArduinoOTA.onProgress([](unsigned int progress, unsigned int total) {
Serial.printf("Progress: %u%%\r", (progress / (total / 100)));
});
ArduinoOTA.onError([](ota_error_t error) {
Serial.printf("Error[%u]: ", error);
if (error == OTA_AUTH_ERROR) {
Serial.println("Auth Failed");
} else if (error == OTA_BEGIN_ERROR) {
Serial.println("Begin Failed");
} else if (error == OTA_CONNECT_ERROR) {
Serial.println("Connect Failed");
} else if (error == OTA_RECEIVE_ERROR) {
Serial.println("Receive Failed");
} else if (error == OTA_END_ERROR) {
Serial.println("End Failed");
}
});
ArduinoOTA.begin();
}
void onPacketCallBack(AsyncUDPPacket packet)
{
char* da;
@ -274,7 +330,7 @@ void setup() {
Serial.println("Failed to initialise EEPROM");
Serial.println("Restarting...");
delay(1000);
ESP.restart();
esp_restart();
}
// eeprom 读取
int k, j;
@ -351,62 +407,17 @@ void setup() {
FastLED.show();
delay(15);
}
delay(500);
delay(300);
}
sprintf(mac_tmp, "%02X\r\n", (uint32_t)(ESP.getEfuseMac() >> (24) ));
sprintf(mac_tmp, "ESP32-%c%c%c%c%c%c", mac_tmp[4], mac_tmp[5], mac_tmp[2], mac_tmp[3], mac_tmp[0], mac_tmp[1] );
//wifi初始化
WiFi.mode(WIFI_AP);
while (!WiFi.softAP(ssid, password)) {}; //启动AP
Serial.println("AP启动成功");
Serial.println("Ready");
Serial.print("IP address: ");
Serial.println(WiFi.softAPIP());
byte mac[6];
WiFi.macAddress(mac);
WiFi.setHostname(ServerName);
Serial.printf("macAddress 0x%02X:0x%02X:0x%02X:0x%02X:0x%02X:0x%02X\r\n", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
while (!udp.listen(localUdpPort)) //等待udp监听设置成功
{
if ( touch_STATE[3] ) {
AutoWifiConfig();
StartWebServer();
}
udp.onPacket(onPacketCallBack); //注册收到数据包事件
ArduinoOTA.setHostname(ServerName);
//以下是启动OTA可以通过WiFi刷新固件
ArduinoOTA.onStart([]() {
String type;
if (ArduinoOTA.getCommand() == U_FLASH) {
type = "sketch";
} else { // U_SPIFFS
type = "filesystem";
}
// NOTE: if updating SPIFFS this would be the place to unmount SPIFFS using SPIFFS.end()
Serial.println("Start updating " + type);
});
ArduinoOTA.onEnd([]() {
Serial.println("\nEnd");
});
ArduinoOTA.onProgress([](unsigned int progress, unsigned int total) {
Serial.printf("Progress: %u%%\r", (progress / (total / 100)));
});
ArduinoOTA.onError([](ota_error_t error) {
Serial.printf("Error[%u]: ", error);
if (error == OTA_AUTH_ERROR) {
Serial.println("Auth Failed");
} else if (error == OTA_BEGIN_ERROR) {
Serial.println("Begin Failed");
} else if (error == OTA_CONNECT_ERROR) {
Serial.println("Connect Failed");
} else if (error == OTA_RECEIVE_ERROR) {
Serial.println("Receive Failed");
} else if (error == OTA_END_ERROR) {
Serial.println("End Failed");
}
});
ArduinoOTA.begin();
// kalman mpu6050 init
Wire.begin(19, 18, 400000); // Set I2C frequency to 400kHz
@ -460,16 +471,16 @@ void setup() {
motor.PID_velocity.I = v_i_1;
//最大电机限制电压
motor.voltage_limit = 6;
motor.voltage_limit = 12; // [V]s
//速度低通滤波时间常数
motor.LPF_velocity.Tf = 0.01f;
motor.LPF_velocity.Tf = 0.02;
// angle P controller
motor.P_angle.P = 20;
//设置最大速度限制
motor.velocity_limit = 40;
motor.velocity_limit = 180; // [rad/s]
motor.useMonitoring(Serial);
@ -493,7 +504,6 @@ void setup() {
Serial.println("SPIFFS Failed to Start.");
}
StartWebServer();
Serial.print("System is ready \t Free Heap: ");
Serial.println(ESP.getFreeHeap());
@ -508,7 +518,11 @@ long loop_count = 0;
double last_pitch;
void loop() {
Debug_Log_func("loop");
ArduinoOTA.handle();
if ( touch_STATE[3] ) {
ESP32Server.handleClient();
//delay(1);//allow the cpu to switch to other tasks
ArduinoOTA.handle();
}
motor.loopFOC();
while (i2cRead(0x3B, i2cData, 14));
@ -547,8 +561,8 @@ void loop() {
if (abs(pendulum_angle) < swing_up_angle) // if angle small enough stabilize 0.5~30°,1.5~90°
{
target_velocity = controllerLQR(pendulum_angle, gyroZrate, motor.shaftVelocity());
if (abs(target_velocity) > 140)
target_velocity = _sign(target_velocity) * 140;
if (abs(target_velocity) > motor.velocity_limit)
target_velocity = _sign(target_velocity) * motor.velocity_limit;
motor.controller = MotionControlType::velocity;
motor.move(target_velocity);
@ -629,6 +643,13 @@ void loop() {
touch_touched[2] = false;
}
if (touch_touched[3]) {
//Serial.print("\nLight2 touched ");
//Serial.println(touch_touched_times[2]);
touch_touched[3] = false;
}
//灯光及按键处理
if ( touch_STATE[1] ) {
pride();
@ -638,7 +659,7 @@ void loop() {
FastLED.clearData();
FastLED.show();
}
TenthSecondsSinceStartTask();
}
@ -696,7 +717,7 @@ float controllerLQR(float p_angle, float p_vel, float m_vel)
// - k = [13.3, 21, 0.3]
// - x = [pendulum angle, pendulum velocity, motor velocity]'
if (abs(p_angle) > 3) //摆角大于2.5则进入非稳态,记录非稳态时间
if (abs(p_angle) > 2.5) //摆角大于2.5则进入非稳态,记录非稳态时间
{
last_unstable_time = millis();
if (stable) //如果是稳态进入非稳态则调整为目标角度
@ -706,7 +727,7 @@ float controllerLQR(float p_angle, float p_vel, float m_vel)
stable = 0;
}
}
if ((millis() - last_unstable_time) > 500 && !stable) //非稳态进入稳态超过500ms检测更新目标角为目标角+摆角,假设进入稳态
if ((millis() - last_unstable_time) > 1000 && !stable) //非稳态进入稳态超过500ms检测更新目标角为目标角+摆角,假设进入稳态
{
//target_angle -= _sign(target_velocity) * 0.4;
target_angle = target_angle+p_angle;
@ -754,8 +775,6 @@ unsigned long LastMillis = 0;
void TenthSecondsSinceStartTask() //100ms
{
unsigned long CurrentMillis = millis();
ESP32Server.handleClient();
delay(1);//allow the cpu to switch to other tasks
if (abs(int(CurrentMillis - LastMillis)) > 100)
{
LastMillis = CurrentMillis;
@ -793,8 +812,8 @@ void OnSecond()
//Serial.println(DateTimeStr);
#if defined(BAT_VOLTAGE_SENSE_PIN) //电池电压检测
//driver.voltage_power_supply = return_voltage_value(BAT_VOLTAGE_SENSE_PIN);
bat_voltage = return_voltage_value(BAT_VOLTAGE_SENSE_PIN);
//driver.voltage_power_supply = bat_voltage;
//Serial.println(driver.voltage_power_supply);
if (bat_voltage < min_voltage && !battery_low)
{
@ -821,28 +840,42 @@ void OnSecond()
//battery_low = 0;
} else { //电池电压低闪灯
if (millis() % 500 < 250)
digitalWrite(ACTIVE_PIN, 1);
else
digitalWrite(ACTIVE_PIN, 0);
else
digitalWrite(ACTIVE_PIN, 1);
}
}
}
#endif
for (byte i = 0; i < 3; i++) {
for (byte i = 0; i < 4; i++) {
if (touchDetected[i] > 0) { //检测到触摸中,一秒计数一次,未触摸则清零
touch_touching_time[i]++;
//长按事件处理
if (touch_touching_time[1] % 2 == 0) { //按住大于2秒关灯或者开灯
if (touch_touching_time[i] % 2 == 0) { //按住大于2秒
switch (i) {
case 0:
break;
case 1:
touch_STATE[i] = !touch_STATE[i]; //灯光状态反处理
Serial.println("LIGHTS_ON/OFF");
break;
case 2:
case 3:
digitalWrite(ACTIVE_PIN, 1);
delay(500);
if(touch_STATE[i]==1){
ESP32Server.close();//关闭网络服务
WiFi.disconnect();
WiFi.mode(WIFI_OFF);
Serial.println("WIFI_OFF");
}else{
AutoWifiConfig();
StartWebServer();
Serial.println("WIFI_ON");
}
touch_STATE[i] = !touch_STATE[i]; //状态反处理
break;
}
}
@ -864,6 +897,7 @@ void OnTenthSecond() // 100ms 十分之一秒
//Serial.println(rgb_brightness);
FastLED.setBrightness(rgb_brightness);
}
}
if (TenthSecondsSinceStart % 10 == 0) //10次为1秒
@ -902,8 +936,6 @@ String ProcessUpdate() //页面更新
ReturnString += ",";
ReturnString += test_flag;
ReturnString += ",";
ReturnString += bat_voltage;
ReturnString += ",";
ReturnString += EEPROM.readFloat(0);
ReturnString += ",";
ReturnString += swing_up_voltage;
@ -917,6 +949,8 @@ String ProcessUpdate() //页面更新
ReturnString += v_i_2;
ReturnString += ",";
ReturnString += v_p_2;
ReturnString += ",";
ReturnString += bat_voltage;
if (log_control) {
ReturnString += ",";
@ -936,7 +970,7 @@ String ProcessUpdate() //页面更新
ReturnString += ",";
ReturnString += gyroZangle;
} else {
ReturnString += ",,,,,,,,";
ReturnString += "0,0,0,0,0,0,0,0,0";
}
ReturnString += ",";
@ -1237,6 +1271,7 @@ double return_voltage_value(int pin_no)
double tmp;
double ADCVoltage;
double inputVoltage;
analogSetPinAttenuation(pin_no, ADC_6db);
for (int i = 0; i < 20; i++)
{
@ -1248,6 +1283,17 @@ double return_voltage_value(int pin_no)
inputVoltage = tmp / 20;
if(inputVoltage!=0)
inputVoltage = inputVoltage + 0.001;
/*
for (int i = 0; i < 20; i++)
{
tmp = tmp + analogRead(pin_no);
}
tmp = tmp / 20;
ADCVoltage = ((tmp * 3.3) / 4095.0) + 0.165;
inputVoltage = ADCVoltage / (R2_VOLTAGE / (R1_VOLTAGE + R2_VOLTAGE)); // formula for calculating voltage in i.e. GND
*/
return inputVoltage;
}
@ -1272,4 +1318,4 @@ void touchAttach(int touchID, uint8_t touchPin) {
touch_touching_time[touchID] = 0; //持续触摸时间清零
touchDetected[touchID] = 0; //持续触摸计数清零
}
}
}