// IoT-based Irrigation System for ThingSpeak
// Based on ESP32 WOKWI Simulator by ThinkIOT
// ThingSpeak channel can be found here: https://thingspeak.com/channels/2383114
#include <WiFi.h>
#include "ThingSpeak.h"
#include "DHTesp.h"
const int SOIL_MOISTURE_PIN = 34;
const int SPRINKLER_CONTROL_PIN = 19;
const int SPRINKLER_CONTROL_PIN_1 = 18;
const int SPRINKLER_CONTROL_PIN_2 = 17;
const int DHT_PIN = 15;
int MOISTURE_THRESHOLD_LOW = 15; // Set Activation threshold in percentage
int MOISTURE_THRESHOLD_HIGH = 85; // Set Deactivation threshold in percentage
bool SPRINKLER_ACTIVATION_STATUS = false;
char* WIFI_NAME = "Wokwi-GUEST";
char* WIFI_PASSWORD = "";
int myChannelNumber = 2658279; // ThingSpeak channel ID
char* myApiKey = "1HCD4WYMP658U2FR"; // ThingSpeak channel write API key
const char* server = "api.thingspeak.com";
DHTesp dhtSensor;
WiFiClient client;
void setup()
{
Serial.begin(115200);
dhtSensor.setup(DHT_PIN, DHTesp::DHT22);
pinMode(SPRINKLER_CONTROL_PIN, OUTPUT);
pinMode(SPRINKLER_CONTROL_PIN_1, OUTPUT);
pinMode(SPRINKLER_CONTROL_PIN_2, OUTPUT);
WiFi.begin(WIFI_NAME, WIFI_PASSWORD);
Serial.println("Connecting...");
Serial.println("Wi-Fi connected");
Serial.println("Local IP: " + String(WiFi.localIP()));
Serial.println("-------------");
WiFi.mode(WIFI_STA);
ThingSpeak.begin(client);
//pinMode(SPRINKLER_CONTROL_PIN, OUTPUT);
}
void loop()
{
TempAndHumidity data = dhtSensor.getTempAndHumidity();
int soilMoisturePercentage = map(analogRead(SOIL_MOISTURE_PIN), 0, 4095, 0, 100);
ThingSpeak.setField(1, data.temperature);
ThingSpeak.setField(2, data.humidity);
ThingSpeak.setField(3, soilMoisturePercentage);
ThingSpeak.setField(4, SPRINKLER_ACTIVATION_STATUS);
int status = ThingSpeak.writeFields(myChannelNumber,myApiKey);
int x = ThingSpeak.writeFields(myChannelNumber, myApiKey);
//int soilMoisturePercentage = map(analogRead(SOIL_MOISTURE_PIN), 0, 4095, 0, 100);
Serial.println("Temp:" + String(data.temperature, 2) + "°C");
Serial.println("Humidity:" + String(data.humidity, 1) + "%");
Serial.print("Soil Moisture Percentage: ");
Serial.print(soilMoisturePercentage);
Serial.println("%");
Serial.print("Sprinkler: ");
Serial.println(SPRINKLER_ACTIVATION_STATUS ? "on" : "off");
// Sprinkler activation threshold check
if (soilMoisturePercentage < MOISTURE_THRESHOLD_LOW)
{
SPRINKLER_ACTIVATION_STATUS = true;
digitalWrite(SPRINKLER_CONTROL_PIN, HIGH); // Turn on sprinkler and LED
digitalWrite(SPRINKLER_CONTROL_PIN_2, LOW);
digitalWrite(SPRINKLER_CONTROL_PIN_1, LOW);
}
else if (soilMoisturePercentage > MOISTURE_THRESHOLD_HIGH)
{
SPRINKLER_ACTIVATION_STATUS = false;
digitalWrite(SPRINKLER_CONTROL_PIN, LOW); // Turn off sprinkler and LED
digitalWrite(SPRINKLER_CONTROL_PIN_2, LOW);
digitalWrite(SPRINKLER_CONTROL_PIN_1, HIGH);
}else if (soilMoisturePercentage > MOISTURE_THRESHOLD_LOW){
SPRINKLER_ACTIVATION_STATUS = true;
digitalWrite(SPRINKLER_CONTROL_PIN, LOW); // Turn off sprinkler and LED
digitalWrite(SPRINKLER_CONTROL_PIN_2, HIGH);
digitalWrite(SPRINKLER_CONTROL_PIN_1, LOW);
}else if(soilMoisturePercentage < MOISTURE_THRESHOLD_HIGH){
SPRINKLER_ACTIVATION_STATUS = true;
digitalWrite(SPRINKLER_CONTROL_PIN, LOW); // Turn off sprinkler and LED
digitalWrite(SPRINKLER_CONTROL_PIN_2, HIGH);
digitalWrite(SPRINKLER_CONTROL_PIN_1, LOW);
}
if(status == 200){
Serial.println("Data pushed successfully");
}else{
Serial.println("Push error" + String(status));
}
// Print status
//Serial.print("Soil Moisture Percentage: ");
//Serial.print(soilMoisturePercentage);
//Serial.println("%");
//Serial.print("Sprinkler: ");
//Serial.println(SPRINKLER_ACTIVATION_STATUS ? "on" : "off");
// Send data to ThingSpeak
//ThingSpeak.setField(3, soilMoisturePercentage);
//ThingSpeak.setField(4, SPRINKLER_ACTIVATION_STATUS);
//int x = ThingSpeak.writeFields(myChannelNumber, myApiKey);
Serial.println("-------------");
delay(10000); // Thingspeak allows for an update every 15 seconds
}