arduino-fridge-powercontrol/main/main.ino

/* References:
 * https://lastminuteengineers.com/multiple-ds18b20-arduino-tutorial/
*/
#include "ArduinoJson.h"

#include <OneWire.h>
#include <DallasTemperature.h>

// Data wire is conntec to the Arduino digital pin 4
#define ONE_WIRE_BUS 2
#define MOSFET1 3
#define MOSFET2 4
// Setup a oneWire instance to communicate with any OneWire devices
OneWire oneWire(ONE_WIRE_BUS);

// Pass our oneWire reference to Dallas Temperature sensor 
DallasTemperature sensors(&oneWire);
DeviceAddress Thermometer;
int deviceCount = 0;

int analogPin = 2;
int data = 0;
char userInput;
char* commandVer;
// temperature values in °C 
float tempSensor1;
float tempSensor2;
// HighTemp - when to turn on the power
float HTemp1 = 12.0;
float HTemp2 = 16.0;
// LowTemp - when to turn of the power
float LTemp1 = 10.0;
float LTemp2 = 14.0;
bool fetState1;
bool fetState2;

uint8_t addrSensor1[8] = { 0x28, 0xFF, 0x64, 0x1F, 0x79, 0xD1, 0xB1, 0x75 };
uint8_t addrSensor2[8] = { 0x28, 0xFF, 0x64, 0x1F, 0x79, 0xD7, 0xDA, 0x9A };
/*

// countLowTemp
int cLTemp1 = 0;
int cLTemp2 = 0;
// countHighTemp
int cHTemp1 = 0;
int cHTemp2 = 0;
// loops to count temp before switching state
int cTemp = 5;

*/

void setup() {
  // put your setup code here, to run once:
  pinMode(MOSFET1, OUTPUT);
  pinMode(MOSFET2, OUTPUT);

 
  Serial.begin(9600);
  sensors.begin();


  // little welcome
  //Serial.println(".:: arduino-fridge-powercontrol by DeltaLima, 2023 ::.");
  // locate devices on the bus
  /*Serial.println("Locating devices...");
  Serial.print("Found ");
  deviceCount = sensors.getDeviceCount();
  Serial.print(deviceCount, DEC);
  Serial.println(" devices.");
  Serial.println("");
  
  Serial.println("Printing addresses...");
  for (int i = 0;  i < deviceCount;  i++)
  {
    Serial.print("Sensor ");
    Serial.print(i+1);
    Serial.print(" : ");
    sensors.getAddress(Thermometer, i);
    printAddress(Thermometer);
  }

  Serial.println("");
  Serial.print("MOSFET1 start temp: ");
  Serial.print(HTemp1);
  Serial.print("°C, stop temp: ");
  Serial.print(LTemp1);
  Serial.println("°C");
  Serial.print("MOSFET2 start temp: ");
  Serial.print(HTemp2);
  Serial.print("°C, stop temp: ");
  Serial.print(LTemp2);
  Serial.println("°C");
  */
}

void loop() {
  // put your main code here, to run repeatedly:

//if(Serial.available()>0) {

  sensors.requestTemperatures(); 

  
  tempSensor1 = sensors.getTempC(addrSensor1);
  if(tempSensor1 > HTemp1) {
    digitalWrite(MOSFET1, HIGH);
    fetState1 = 1;
  } else if(tempSensor1 < LTemp1) {
    digitalWrite(MOSFET1, LOW);
    fetState1 = 0;
  }
  
  tempSensor2 = sensors.getTempC(addrSensor2);
  if(tempSensor2 > HTemp2) {
    digitalWrite(MOSFET2, HIGH);
    fetState2 = 1;
  } else if(tempSensor1 < LTemp1) {
    digitalWrite(MOSFET2, LOW);
    fetState2 = 0;
  }


  /*
  Serial.print("Sens 1 ");  
  Serial.print("Celsius temperature: ");
  // Why "byIndex"? You can have more than one IC on the same bus. 0 refers to the first IC on the wire
  Serial.print(sensors.getTempC(addrSensor1)); 
  Serial.print(" - Fahrenheit temperature: ");
  Serial.print(sensors.getTempF(addrSensor1));
  Serial.print(" - MOSFET1 Sate: ");
  Serial.println(fetState1);

  Serial.print("Sens 2 ");  
  Serial.print("Celsius temperature: ");
  // Why "byIndex"? You can have more than one IC on the same bus. 0 refers to the first IC on the wire
  Serial.print(sensors.getTempC(addrSensor2)); 
  Serial.print(" - Fahrenheit temperature: ");
  Serial.print(sensors.getTempF(addrSensor2));
  Serial.print(" - MOSFET2 Sate: ");
  Serial.println(fetState2);
  */

  StaticJsonDocument<96> jsonOut;
  //jsonOut["sensor"] = "1";
  jsonOut[0]["temp"] = tempSensor1;
  jsonOut[0]["state"] = fetState1;

  //jsonOut["sensor"] = "2";
  jsonOut[1]["temp"] = tempSensor2;
  jsonOut[1]["state"] = fetState2;
  serializeJson(jsonOut, Serial);
  Serial.println();
  /*
  digitalWrite(MOSFET, HIGH);
  delay(2000);
  digitalWrite(MOSFET, LOW);
  delay(2000);
  */
  delay(5000);
//  }
  
}

void printAddress(DeviceAddress deviceAddress)
{ 
  for (uint8_t i = 0; i < 8; i++)
  {
    Serial.print("0x");
    if (deviceAddress[i] < 0x10) Serial.print("0");
    Serial.print(deviceAddress[i], HEX);
    if (i < 7) Serial.print(", ");
  }
  Serial.println("");
}
first working prototype. 2023-08-06 23:12:01 +02:00			`/* References:`
			`* https://lastminuteengineers.com/multiple-ds18b20-arduino-tutorial/`
			`*/`
arduino json 2023-08-02 01:04:39 +02:00			`#include "ArduinoJson.h"`

working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`#include <OneWire.h>`
			`#include <DallasTemperature.h>`

			`// Data wire is conntec to the Arduino digital pin 4`
			`#define ONE_WIRE_BUS 2`
first working prototype. 2023-08-06 23:12:01 +02:00			`#define MOSFET1 3`
			`#define MOSFET2 4`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`// Setup a oneWire instance to communicate with any OneWire devices`
			`OneWire oneWire(ONE_WIRE_BUS);`

			`// Pass our oneWire reference to Dallas Temperature sensor`
			`DallasTemperature sensors(&oneWire);`
first working prototype. 2023-08-06 23:12:01 +02:00			`DeviceAddress Thermometer;`
			`int deviceCount = 0;`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00
			`int analogPin = 2;`
Initial commit. Learning stuff 2023-08-01 23:38:12 +02:00			`int data = 0;`
			`char userInput;`
json enc end decode 2023-08-02 01:35:46 +02:00			`char* commandVer;`
first working prototype. 2023-08-06 23:12:01 +02:00			`// temperature values in °C`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`float tempSensor1;`
			`float tempSensor2;`
first working prototype. 2023-08-06 23:12:01 +02:00			`// HighTemp - when to turn on the power`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`float HTemp1 = 12.0;`
first working prototype. 2023-08-06 23:12:01 +02:00			`float HTemp2 = 16.0;`
			`// LowTemp - when to turn of the power`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`float LTemp1 = 10.0;`
first working prototype. 2023-08-06 23:12:01 +02:00			`float LTemp2 = 14.0;`
progress 2023-08-06 23:57:29 +02:00			`bool fetState1;`
			`bool fetState2;`
first working prototype. 2023-08-06 23:12:01 +02:00
			`uint8_t addrSensor1[8] = { 0x28, 0xFF, 0x64, 0x1F, 0x79, 0xD1, 0xB1, 0x75 };`
			`uint8_t addrSensor2[8] = { 0x28, 0xFF, 0x64, 0x1F, 0x79, 0xD7, 0xDA, 0x9A };`
			`/*`

working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`// countLowTemp`
			`int cLTemp1 = 0;`
			`int cLTemp2 = 0;`
			`// countHighTemp`
			`int cHTemp1 = 0;`
			`int cHTemp2 = 0;`
			`// loops to count temp before switching state`
			`int cTemp = 5;`
arduino json 2023-08-02 01:04:39 +02:00
first working prototype. 2023-08-06 23:12:01 +02:00			`*/`

Initial commit. Learning stuff 2023-08-01 23:38:12 +02:00			`void setup() {`
			`// put your setup code here, to run once:`
first working prototype. 2023-08-06 23:12:01 +02:00			`pinMode(MOSFET1, OUTPUT);`
progress 2023-08-07 00:44:15 +02:00			`pinMode(MOSFET2, OUTPUT);`

working simple temp control - WIP 2023-08-06 19:35:21 +02:00
Initial commit. Learning stuff 2023-08-01 23:38:12 +02:00			`Serial.begin(9600);`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`sensors.begin();`
first working prototype. 2023-08-06 23:12:01 +02:00
progress 2023-08-07 01:07:42 +02:00
			`// little welcome`
			`//Serial.println(".:: arduino-fridge-powercontrol by DeltaLima, 2023 ::.");`
progress 2023-08-07 00:44:15 +02:00			`// locate devices on the bus`
progress 2023-08-07 01:07:42 +02:00			`/*Serial.println("Locating devices...");`
first working prototype. 2023-08-06 23:12:01 +02:00			`Serial.print("Found ");`
			`deviceCount = sensors.getDeviceCount();`
			`Serial.print(deviceCount, DEC);`
			`Serial.println(" devices.");`
			`Serial.println("");`

			`Serial.println("Printing addresses...");`
			`for (int i = 0; i < deviceCount; i++)`
			`{`
			`Serial.print("Sensor ");`
			`Serial.print(i+1);`
			`Serial.print(" : ");`
			`sensors.getAddress(Thermometer, i);`
			`printAddress(Thermometer);`
			`}`
progress 2023-08-07 00:03:56 +02:00
			`Serial.println("");`
progress 2023-08-07 00:44:15 +02:00			`Serial.print("MOSFET1 start temp: ");`
			`Serial.print(HTemp1);`
			`Serial.print("°C, stop temp: ");`
			`Serial.print(LTemp1);`
			`Serial.println("°C");`
			`Serial.print("MOSFET2 start temp: ");`
			`Serial.print(HTemp2);`
			`Serial.print("°C, stop temp: ");`
			`Serial.print(LTemp2);`
			`Serial.println("°C");`
progress 2023-08-07 01:07:42 +02:00			`*/`
Initial commit. Learning stuff 2023-08-01 23:38:12 +02:00			`}`

			`void loop() {`
			`// put your main code here, to run repeatedly:`

working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`//if(Serial.available()>0) {`
arduino json 2023-08-02 01:04:39 +02:00
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`sensors.requestTemperatures();`
first working prototype. 2023-08-06 23:12:01 +02:00
working simple temp control - WIP 2023-08-06 19:35:21 +02:00
first working prototype. 2023-08-06 23:12:01 +02:00			`tempSensor1 = sensors.getTempC(addrSensor1);`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`if(tempSensor1 > HTemp1) {`
first working prototype. 2023-08-06 23:12:01 +02:00			`digitalWrite(MOSFET1, HIGH);`
progress 2023-08-06 23:57:29 +02:00			`fetState1 = 1;`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`} else if(tempSensor1 < LTemp1) {`
first working prototype. 2023-08-06 23:12:01 +02:00			`digitalWrite(MOSFET1, LOW);`
progress 2023-08-06 23:57:29 +02:00			`fetState1 = 0;`
first working prototype. 2023-08-06 23:12:01 +02:00			`}`

			`tempSensor2 = sensors.getTempC(addrSensor2);`
			`if(tempSensor2 > HTemp2) {`
			`digitalWrite(MOSFET2, HIGH);`
progress 2023-08-06 23:57:29 +02:00			`fetState2 = 1;`
first working prototype. 2023-08-06 23:12:01 +02:00			`} else if(tempSensor1 < LTemp1) {`
			`digitalWrite(MOSFET2, LOW);`
progress 2023-08-06 23:57:29 +02:00			`fetState2 = 0;`
Initial commit. Learning stuff 2023-08-01 23:38:12 +02:00			`}`
progress 2023-08-06 23:57:29 +02:00

progress 2023-08-07 00:44:15 +02:00			`/*`
progress 2023-08-06 23:57:29 +02:00			`Serial.print("Sens 1 ");`
			`Serial.print("Celsius temperature: ");`
			`// Why "byIndex"? You can have more than one IC on the same bus. 0 refers to the first IC on the wire`
			`Serial.print(sensors.getTempC(addrSensor1));`
			`Serial.print(" - Fahrenheit temperature: ");`
			`Serial.print(sensors.getTempF(addrSensor1));`
			`Serial.print(" - MOSFET1 Sate: ");`
			`Serial.println(fetState1);`

			`Serial.print("Sens 2 ");`
			`Serial.print("Celsius temperature: ");`
			`// Why "byIndex"? You can have more than one IC on the same bus. 0 refers to the first IC on the wire`
			`Serial.print(sensors.getTempC(addrSensor2));`
			`Serial.print(" - Fahrenheit temperature: ");`
			`Serial.print(sensors.getTempF(addrSensor2));`
			`Serial.print(" - MOSFET2 Sate: ");`
			`Serial.println(fetState2);`
progress 2023-08-07 00:44:15 +02:00			`*/`

			`StaticJsonDocument<96> jsonOut;`
			`//jsonOut["sensor"] = "1";`
progress 2023-08-07 01:07:42 +02:00			`jsonOut[0]["temp"] = tempSensor1;`
			`jsonOut[0]["state"] = fetState1;`
progress 2023-08-07 00:44:15 +02:00
			`//jsonOut["sensor"] = "2";`
progress 2023-08-07 01:07:42 +02:00			`jsonOut[1]["temp"] = tempSensor2;`
			`jsonOut[1]["state"] = fetState2;`
progress 2023-08-07 00:44:15 +02:00			`serializeJson(jsonOut, Serial);`
			`Serial.println();`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`/*`
			`digitalWrite(MOSFET, HIGH);`
			`delay(2000);`
			`digitalWrite(MOSFET, LOW);`
			`delay(2000);`
			`*/`
progress 2023-08-07 01:08:16 +02:00			`delay(5000);`
working simple temp control - WIP 2023-08-06 19:35:21 +02:00			`// }`

Initial commit. Learning stuff 2023-08-01 23:38:12 +02:00			`}`
first working prototype. 2023-08-06 23:12:01 +02:00
			`void printAddress(DeviceAddress deviceAddress)`
			`{`
			`for (uint8_t i = 0; i < 8; i++)`
			`{`
			`Serial.print("0x");`
			`if (deviceAddress[i] < 0x10) Serial.print("0");`
			`Serial.print(deviceAddress[i], HEX);`
			`if (i < 7) Serial.print(", ");`
			`}`
			`Serial.println("");`
			`}`