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OTGateway/src/SensorsTask.h
Yurii 229628fdc5 Many changes. 
1. Migrate from microDS18B20 to DallasTemperature
2. Refactoring of sensors: added an external temperature sensor inside the house, added an "offset" parameter for sensors
3. Fixed PID
4. New parameters added:
- settings.heating.minTemp
- settings.heating.maxTemp
- settings.dhw.minTemp
- settings.dhw.maxTemp
- settings.pid.minTemp
- settings.pid.maxTemp
- settings.sensors.outdoor.type
- settings.sensors.outdoor.pin
- settings.sensors.outdoor.offset
- settings.sensors.indoor.type
- settings.sensors.indoor.pin
- settings.sensors.indoor.offset
5. Fixed and updated HomeAssistantHelper
7. Added check for validity of settings. After some updates, the settings may be reset to default, but this will prevent the settings from being distorted.
2023-09-21 05:18:05 +03:00

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4.4 KiB
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#include <OneWire.h>
#include <DallasTemperature.h>
class SensorsTask: public LeanTask {
public:
SensorsTask(bool _enabled = false, unsigned long _interval = 0): LeanTask(_enabled, _interval) {}
protected:
OneWire* oneWireOutdoorSensor;
OneWire* oneWireIndoorSensor;
DallasTemperature* outdoorSensor;
DallasTemperature* indoorSensor;
bool initOutdoorSensor = false;
unsigned long startConversionTime = 0;
float filteredOutdoorTemp = 0;
bool emptyOutdoorTemp = true;
bool initIndoorSensor = false;
float filteredIndoorTemp = 0;
bool emptyIndoorTemp = true;
void setup() {}
void loop() {
if ( settings.sensors.outdoor.type == 2 ) {
outdoorTemperatureSensor();
}
if ( settings.sensors.indoor.type == 2 ) {
indoorTemperatureSensor();
}
}
void outdoorTemperatureSensor() {
if ( !initOutdoorSensor ) {
oneWireOutdoorSensor = new OneWire(settings.sensors.outdoor.pin);
outdoorSensor = new DallasTemperature(oneWireOutdoorSensor);
outdoorSensor->begin();
outdoorSensor->setResolution(12);
outdoorSensor->setWaitForConversion(false);
outdoorSensor->requestTemperatures();
startConversionTime = millis();
initOutdoorSensor = true;
}
unsigned long estimateConversionTime = millis() - startConversionTime;
if ( estimateConversionTime < outdoorSensor->millisToWaitForConversion() ) {
return;
}
bool completed = outdoorSensor->isConversionComplete();
if ( !completed && estimateConversionTime >= 1000 ) {
// fail, retry
outdoorSensor->requestTemperatures();
startConversionTime = millis();
ERROR("[SENSORS][OUTDOOR] Could not read temperature data (no response)");
}
if ( !completed ) {
return;
}
float rawTemp = outdoorSensor->getTempCByIndex(0);
if (rawTemp == DEVICE_DISCONNECTED_C) {
ERROR("[SENSORS][OUTDOOR] Could not read temperature data (not connected)");
} else {
DEBUG_F("[SENSORS][OUTDOOR] Raw temp: %f \n", rawTemp);
if (emptyOutdoorTemp) {
filteredOutdoorTemp = rawTemp;
emptyOutdoorTemp = false;
} else {
filteredOutdoorTemp += (rawTemp - filteredOutdoorTemp) * EXT_SENSORS_FILTER_K;
}
filteredOutdoorTemp = floor(filteredOutdoorTemp * 100) / 100;
if (fabs(vars.temperatures.outdoor - filteredOutdoorTemp) > 0.099) {
vars.temperatures.outdoor = filteredOutdoorTemp + settings.sensors.outdoor.offset;
INFO_F("[SENSORS][OUTDOOR] New temp: %f \n", filteredOutdoorTemp);
}
}
outdoorSensor->requestTemperatures();
startConversionTime = millis();
}
void indoorTemperatureSensor() {
if ( !initIndoorSensor ) {
oneWireIndoorSensor = new OneWire(settings.sensors.indoor.pin);
indoorSensor = new DallasTemperature(oneWireIndoorSensor);
indoorSensor->begin();
indoorSensor->setResolution(12);
indoorSensor->setWaitForConversion(false);
indoorSensor->requestTemperatures();
startConversionTime = millis();
initIndoorSensor = true;
}
unsigned long estimateConversionTime = millis() - startConversionTime;
if ( estimateConversionTime < indoorSensor->millisToWaitForConversion() ) {
return;
}
bool completed = indoorSensor->isConversionComplete();
if ( !completed && estimateConversionTime >= 1000 ) {
// fail, retry
indoorSensor->requestTemperatures();
startConversionTime = millis();
ERROR("[SENSORS][INDOOR] Could not read temperature data (no response)");
}
if ( !completed ) {
return;
}
float rawTemp = indoorSensor->getTempCByIndex(0);
if (rawTemp == DEVICE_DISCONNECTED_C) {
ERROR("[SENSORS][INDOOR] Could not read temperature data (not connected)");
} else {
DEBUG_F("[SENSORS][INDOOR] Raw temp: %f \n", rawTemp);
if (emptyIndoorTemp) {
filteredIndoorTemp = rawTemp;
emptyIndoorTemp = false;
} else {
filteredIndoorTemp += (rawTemp - filteredIndoorTemp) * EXT_SENSORS_FILTER_K;
}
filteredIndoorTemp = floor(filteredIndoorTemp * 100) / 100;
if (fabs(vars.temperatures.indoor - filteredIndoorTemp) > 0.099) {
vars.temperatures.indoor = filteredIndoorTemp + settings.sensors.indoor.offset;
INFO_F("[SENSORS][INDOOR] New temp: %f \n", filteredIndoorTemp);
}
}
indoorSensor->requestTemperatures();
startConversionTime = millis();
}
};
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