Andrew Klimenyuk
STM32F103C8T6_WIFI_Heating_system
Dependencies: mbed mbed-STM32F103C8T6 eeprom_flash Watchdog PinDetect DS1820
- Bluepill STM32F103C8T6 Heating system
- _This project is core part of bigger heating system project!_
Features
- Reading temperature from four DS18B20 sensors
- Making a decision about switching on/off heater and pomp
- Executing simple user commands from UART
- Storing state parameters to program memory (EEPROM emulation)
temp_controller/temp_controller.cpp
- Committer:
- andrewklmn
- Date:
- 2018-10-07
- Revision:
- 57:9bf4c8142958
- Parent:
- 55:3378972851fd
- Child:
- 58:70930f201f97
File content as of revision 57:9bf4c8142958:
#include "temp_controller.h"
extern Serial pc;
extern Watchdog wd;
extern DigitalOut myled;
extern DigitalOut pomp_OFF;
extern DigitalOut heater_OFF;
extern EventQueue queue;
extern unsigned int eeprom_config_value;
#define MIN_MEBEL_TEMP 15
#define MIN_LITOS_TEMP 10
#define MIN_BACK_WATER_TEMP 10
#define MAX_HOT_WATER_TEMP 35
//unsigned int epprom_config_value = 0x0F0A0A23;
/*
epprom_config_value:
1 unsigned char - Min mebel temp (default +15)
2 unsigned char Min litos temp (default +10)
3 unsigned char Min back water temp (default +10)
4 unsigned char Max hot water temp (default +35)
*/
float current_temp[5] = {
// current work temperature is maximum
85, // OUTDOOR
85, // LITOS
85, // MEBEL
85, // HOT WATER
85 // BACK WATER
};
float temp[5] = {
// initial temperature is maximum
85, // OUTDOOR
85, // LITOS
85, // MEBEL
85, // HOT WATER
85 // BACK WATER
};
float simulated_temp[5] = {
// initial temperature for simulator
7, // OUTDOOR
10, // LITOS
14, // MEBEL
33, // HOT WATER
18 // BACK WATER
};
int temp_error[5] = {
1,1,1,1,1 // initial state is no sensors
// 0 - sensor present
// 1 - no sensor
// 2 - sensor CRC error
};
string labels[5] = {
"OUTDOOR",
"LITOS",
"MEBEL",
"HOT WATER",
"BACK WATER"
};
DS1820 ds1820[5] = {
DS1820(PA_9), // substitute PA_9 with actual mbed pin name connected to the OUTDOOR
DS1820(PA_8), // substitute PA_8 with actual mbed pin name connected to the INDOOR LITOS
DS1820(PA_7), // substitute PA_7 with actual mbed pin name connected to the INDOOR MEBEL
DS1820(PA_6), // substitute PA_6 with actual mbed pin name connected to the HOT WATER
DS1820(PA_5) // substitute PA_6 with actual mbed pin name connected to the HOT WATER
};
int error_count = 0; // counts temp sensor errors
unsigned char working_mode = 1; // default mode after powerup is ECO
// 0 - OFF - heating off, pomp and heater are OFF
// 1 - ECO - eco heating
// 2 - STANDART - standart heating
// 3 - ECO SIMULATOR - eco simulator mode - work on eco simulated_temp
// 4 - SIMULATOR - simulator mode - work on simulated_temp
// 5 - POMP - pomp is ON, heater is OFF
// 6 - EMERGENCY - pomp and heater are ON
char pomp_was_delayed = 0;
void delayed_pomp_off(){
if (pomp_was_delayed == 1) {
pomp_OFF = 1;
};
pomp_was_delayed = 0;
//pc.printf("delayed_pomp_off\r\n");
};
void start_temp(){
__disable_irq();
for ( int j=0; j < 5; j++ ) {
if(ds1820[j].begin()) {
ds1820[j].startConversion();
//pc.printf("%s sensor present!\r\n", labels[j].c_str());
};// else {
//pc.printf("No %s sensor found!\r\n", labels[j].c_str());
//};
};
__enable_irq();
};
void check_temp(){
int error_flag = 0;
myled = 0; // turn the LED on
// kick the watchdog
wd.Service();
__disable_irq();
for ( int j=0; j < 5; j++ ) {
temp_error[j] = ds1820[j].read(current_temp[j]); // read temperature from DS1820 and perform cyclic redundancy check (CRC)
if ( temp_error[j] == 0 ) {
temp[j] = current_temp[j];
} else {
error_flag++;
};
ds1820[j].startConversion(); // start temperature conversion from analog to digital before next reading
};
if (error_flag > 0 && ( working_mode==1 || working_mode==2 ) ){
error_count++;
if ( error_count > 10 ) {
// if sensor reading error repeats more than 10 times - EMERGENCY MODE
//============================================================================================DEVELOPMENT
//working_mode = 6;
};
} else if ( error_flag == 0 ) {
// if all sensors are readable set no errors
error_count = 0;
};
// save new config if it was changed
if (readEEPROMWord(0) != eeprom_config_value ||
readEEPROMWord(4) != (unsigned int)working_mode) {
save_new_config();
//pc.printf("Tram=%x Teeprom=%x\r\n", readEEPROMWord(0), eeprom_config_value);
//pc.printf("Mram=%x Meeprom=%x\r\n", readEEPROMWord(4), working_mode);
};
__enable_irq();
myled = 1; // turn the LED off
};
void process_temp() {
//pc.printf("State %d|%d|%d|%d|%d\r\n", temp_error[0], temp_error[1], temp_error[2], temp_error[3], temp_error[4] );
//pc.printf("Temp %3.1f|%3.1f|%3.1f|%3.1f|%3.1f\r\n", temp[0], temp[1], temp[2], temp[3], temp[4] );
//pc.printf("RAM_config=%X, FLASH_config=%X\r\n", eeprom_config_value ,readEEPROMWord(0));
//pc.printf("=======================================");
switch(working_mode) {
case 0:
// 0 - OFF - heating off, pomp and heater are OFF
pomp_OFF = 1;
heater_OFF = 1;
break;
case 1:
// 1 - ECO - eco heating
set_pomp_and_heater_eco_mode(temp);
break;
case 2:
// 2 - STANDART - standart heating
set_pomp_and_heater_by(temp);
break;
case 3:
// 3 - ECO SIMULATOR - simulator mode - work on simulated_temp
set_pomp_and_heater_eco_mode(simulated_temp);
break;
case 4:
// 4 - SIMULATOR - simulator mode - work on simulated_temp
set_pomp_and_heater_by(simulated_temp);
break;
case 5:
// 5 - POMP - pomp is ON, heater is OFF
pomp_OFF = 0;
heater_OFF = 1;
break;
case 6:
// 6 - FULL - pomp and heater are ON
pomp_OFF = 0;
heater_OFF = 0;
break;
default:
pomp_OFF = 1;
heater_OFF = 1;
};
};
void save_new_config() {
enableEEPROMWriting();
writeEEPROMWord(0,eeprom_config_value);
writeEEPROMWord(4,(unsigned int)working_mode);
disableEEPROMWriting();
};
unsigned int get_temp_config_value(){
unsigned int v = readEEPROMWord(0);
if ( v == 0xFFFFFFFF ) {
// if eeprom config value is not initialized
// set default value 0x0F0A0A23;
v = MIN_MEBEL_TEMP;
v = ( v << 8 ) | MIN_LITOS_TEMP;
v = ( v << 8 ) | MIN_BACK_WATER_TEMP;
v = ( v << 8 ) | MAX_HOT_WATER_TEMP;
};
return v;
};
unsigned int get_mode_config_value(){
unsigned int v = readEEPROMWord(4);
if ( v > 6 ) {
// if eeprom mode value is not initialized
// set default value 0x01; ECO mode
v = 1;
};
return v;
};
void set_pomp_and_heater_by(float * work_temp) {
// temp config array = outdoor|litos|mebel|hot_water|back_water
/*
eeprom_config_value:
1 unsigned char - Min mebel temp (default +15)
2 unsigned char Min litos temp (default +10)
3 unsigned char Min back water temp (default +10)
4 unsigned char Max hot water temp (default +35)
*/
unsigned char min_mebel_temp = eeprom_config_value >> 24;
unsigned char min_litos_temp = ( 0x00FF0000 & eeprom_config_value) >> 16;
unsigned char min_back_water_temp = ( 0x0000FF00 & eeprom_config_value) >> 8;
unsigned char max_hot_water_temp = 0x000000FF & eeprom_config_value;
//__disable_irq();
//pc.printf("Level %d|%d|%d|%d\r\n", min_mebel_temp, min_litos_temp, min_back_water_temp, max_hot_water_temp);
//__enable_irq();
float outdoor = *(work_temp);
float litos = *(work_temp + 1);
float mebel = *(work_temp + 2);
float hot_water = *(work_temp + 3);
float back_water = *(work_temp + 4);
if (outdoor > min_litos_temp) {
// ============================================= SUMMER MODE
// system off
if ( heater_OFF == 0 ) {
queue.call_in( 10000, delayed_pomp_off );
pomp_was_delayed = 1;
} else {
if ( pomp_was_delayed == 0 ) {
pomp_OFF = 1;
};
};
heater_OFF = 1;
} else if ( outdoor < 3) {
// ============================================== WINTER MODE
// pomp is always on
pomp_OFF = 0;
if (mebel < min_mebel_temp ||
litos < min_litos_temp ||
back_water < min_back_water_temp) {
// when if somewhere is colder than it must be
if (hot_water > max_hot_water_temp) {
heater_OFF = 1;
} else {
if ( heater_OFF == 1 ) {
if (hot_water < (max_hot_water_temp - 10)) {
heater_OFF = 0;
} else {
heater_OFF = 1;
};
} else {
heater_OFF = 0;
};
};
} else {
heater_OFF = 1;
};
} else {
// ======================================== DEMI SEASON MODE
if (mebel < min_mebel_temp ||
litos < min_litos_temp ||
back_water < min_back_water_temp) {
// when if somewhere is colder than it must be
pomp_OFF = 0;
if ( hot_water > (max_hot_water_temp-10) ) {
heater_OFF = 1;
} else {
if ( heater_OFF == 1 ) {
if ( hot_water < (min_back_water_temp + 2) ) {
heater_OFF = 0;
} else {
heater_OFF = 1;
};
} else {
heater_OFF = 0;
};
};
} else {
heater_OFF = 1;
if ( hot_water > min_back_water_temp ) {
pomp_OFF = 0;
} else {
pomp_OFF = 1;
};
};
};
//__disable_irq();
//pc.printf("Temp %3.1f|%3.1f|%3.1f|%3.1f|%3.1f\r\n", *(work_temp), *(work_temp + 1), *(work_temp + 2), *(work_temp + 3), *(work_temp + 4) );
//__enable_irq();
};
void set_pomp_and_heater_eco_mode(float * work_temp){
unsigned char min_mebel_temp = 10;
unsigned char min_litos_temp = 7;
unsigned char min_back_water_temp = 7;
unsigned char max_hot_water_temp = 25;
float outdoor = *(work_temp);
float litos = *(work_temp + 1);
float mebel = *(work_temp + 2);
float hot_water = *(work_temp + 3);
float back_water = *(work_temp + 4);
if (outdoor > min_litos_temp) {
//============================================ summer mode
// system off
if ( heater_OFF == 0 ) {
queue.call_in( 10000, delayed_pomp_off );
pomp_was_delayed = 1;
} else {
if ( pomp_was_delayed == 0 ) {
pomp_OFF = 1;
};
};
heater_OFF = 1;
} else if (outdoor < 3) {
//============================================ winter mode
pomp_OFF = 0;
if (mebel < min_mebel_temp ||
litos < min_litos_temp ||
back_water < min_back_water_temp) {
// when if somewhere is colder than it must be
if (hot_water > max_hot_water_temp) {
heater_OFF = 1;
} else {
if ( heater_OFF == 1 ) {
if (hot_water < (max_hot_water_temp - 10)) {
heater_OFF = 0;
} else {
heater_OFF = 1;
};
} else {
heater_OFF = 0;
};
};
} else {
heater_OFF = 1;
};
} else {
//========================================demi season mode
if (mebel < min_mebel_temp ||
litos < min_litos_temp ||
back_water < min_back_water_temp) {
// when if somewhere is colder than it must be
pomp_OFF = 0;
if ( hot_water > (max_hot_water_temp - 5) ) {
heater_OFF = 1;
} else {
if ( heater_OFF == 1 ) {
if ( hot_water < (min_back_water_temp + 3) ) {
heater_OFF = 0;
} else {
heater_OFF = 1;
};
} else {
heater_OFF = 0;
};
};
} else {
heater_OFF = 1;
if ( hot_water > min_back_water_temp ) {
pomp_OFF = 0;
} else {
pomp_OFF = 1;
};
};
};
};