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203 lines
4.1 KiB
203 lines
4.1 KiB
#include "PID.h"
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#include "Relays.h"
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#include "USART.h"
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#include "rs485.h"
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extern u16 tem;
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float cold_tem = 0;
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float red_tem = 0;
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float ti;
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float ki = 0.001;
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float kd = 340;
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extern u8 hot_clod_flag;
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extern u8 gpio_state;
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extern int T;
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unsigned int num = 0;
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PID pid;
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int min_speed_count = 1500;
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int max_speed_count = 6000;
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void PID_Init()
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{
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// pid.set_tem=tem;// user set temperature
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// if flash have not a vaild value, just set a default value
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if (pid.Kp < 1e-7) { pid.Kp = 9.6; }
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if (pid.Ki < 1e-7) { pid.Ki = 0.01; }
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if (pid.Kd < 1e-7) { pid.Kd = 340; }
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if (pid.tem_threshold < 0.0001) { pid.tem_threshold = 0.2; }
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pid.t = 1000; // PID calc period
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// pid.Ti=5000000;// integral time
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// pid.Td=1000;// differential time
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pid.pwmcycle = 200; // pwm cycle 200
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pid.OUT0 = 1;
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pid.C1ms = 0;
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}
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/**
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* set compressor speed count
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* range of speed count: 0-6000, if speed count lower than 1500, the compressor will stop
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*/
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void set_compressor_power(int speed) {
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u8 data[8] = {0x01, 0x06, 0x60, 0x00, 0x00, 0x09, 0xBB, 0xAA}; // speed control for compressor controller
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if (speed > 6000) {
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speed = 6000;
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}
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if (speed < 0) {
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speed = 0;
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}
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data[4] = speed / 256;
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data[5] = speed % 256;
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GetCRC16(data, 6, data + 6, data + 7);
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RS485_3_Init(9600);
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delay_xms(30);
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RS485_3_Send_Data(data, 8);
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delay_xms(30);
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RS485_1_Init(9600);
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}
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/**
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* set heater percent
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* range of heater percent: 0-100
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*/
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void set_heater_power(int percent) {
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u8 data[8] = { 0x10, 0x06, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00 };
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if (percent > 100) {
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percent = 100;
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}
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if (percent < 0) {
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percent = 0;
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}
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data[4] = percent / 256;
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data[5] = percent % 256;
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GetCRC16(data, 6, data + 6, data + 7);
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RS485_1_Init(9600);
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delay_xms(30);
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RS485_1_Send_Data(data, 8);
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delay_xms(30);
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}
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/**
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* heater power calc
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*/
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int calc_hp(float t_t, float t_c, float Error_calc, int p_hb, float pid_hp, float pid_hi) {
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int p_h = p_hb + pid_hp * (t_t - t_c) + pid_hi * Error_calc;
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if (p_h > 100) {
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return 100;
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}
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if (p_h < 0) {
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return 0;
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}
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return p_h;
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}
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/**
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* compressor power percent calc
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*/
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int calc_cp(float t_t, float t_c, int p_cb, float pid_cp) {
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int percent = p_cb + pid_cp * (t_c - t_t);
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if (percent > 100) {
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return 100;
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}
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if (percent < 0) {
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return 0;
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}
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return percent;
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}
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/**
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* compressor speed calc
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*/
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int calc_compressor_speed(int percent, int v_min, int v_max) {
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int v = percent * v_max / 100.0;
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if (v > v_max) {
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return v_max;
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}
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if (v < v_min) {
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return v_min;
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}
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return v;
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}
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void PID_Calc() // pid calc
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{
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float Kp = 19.2;
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float Ki = 0.08;
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int p_hb = 52;
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float DelEk; // The difference between the last two deviations
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// float td;
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float out;
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// if (pid.C1ms < (pid.t)) // The calculation cycle has not yet arrived
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// {
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// return;
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// }
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pid.Ek = pid.set_tem - pid.now_tem;
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pid.Pout = pid.Kp * pid.Ek; // Proportional output
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pid.SEk += pid.Ek; // Total historical deviation
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// SEk limit, updated func
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float delta_t = pid.set_tem - pid.now_tem;
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float pid_hp = Kp;
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float pid_hi = Ki;
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if (pid.SEk < - p_hb / pid_hi) {
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pid.SEk = - p_hb / pid_hi;
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}
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float Error_calc = pid.SEk;
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if (Error_calc < - (p_hb + pid_hp * delta_t) / pid_hi) {
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Error_calc = - (p_hb + pid_hp * delta_t) / pid_hi;
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}
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DelEk = pid.Ek - pid.Ek_1; // The difference between the last two deviations
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// ti=pid.t/pid.Ti;
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// ki=ti*pid.Kp;
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pid.Iout = pid.Ki * pid.SEk; // integral output
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// td=pid.Td/pid.t;
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// kd=pid.Kp*td;
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pid.Dout = pid.Kd * DelEk; // difference output
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if (pid.Dout < 0)
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{
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pid.Dout = 0 - pid.Dout;
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}
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// out= pid.Pout+pid.Iout+ pid.Dout;
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out = pid.Pout;
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if (out > pid.pwmcycle)
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{
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pid.OUT = pid.pwmcycle;
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}
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else if (out <= 0)
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{
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pid.OUT = pid.OUT0;
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}
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else
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{
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pid.OUT = out;
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}
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pid.Ek_1 = pid.Ek; // udpate difference
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pid.C1ms = 0;
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// heater percent
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int heater_percent = calc_hp(pid.set_tem, pid.now_tem, Error_calc, p_hb, pid_hp, pid_hi);
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int p_c = calc_cp(pid.set_tem, pid.now_tem, 32, Kp);
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int speed_count = calc_compressor_speed(p_c, 1500, 4500);
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// TODO:: temply, set Ki to speed count, Kd to heater_percent, use for data upload
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pid.Ki = speed_count;
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pid.Kd = heater_percent;
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set_compressor_power(speed_count);
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set_heater_power(heater_percent);
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}
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