Arduino and Soil Moisture Sensor -Interfacing Tutorial

jojo March 10, 2017 2 Comments

In this article, we are going to interface a Soil moisture sensor FC-28 with Arduino. This sensor measures the volumetric content of water inside the soil and gives us the moisture level as output. The sensor is equipped with both analog and digital output, so it can be used in both analog and digital mode. In this article, we are going to interface the sensor in both modes. So let’s begin our tutorial on interfacing Arduino and Soil moisture sensor.

Working of Sensor

The soil moisture sensor consists of two probes which are used to measure the volumetric content of water. The two probes allow the current to pass through the soil and then it gets the resistance value to measure the moisture value.

When there is more water, the soil will conduct more electricity which means that there will be less resistance. Therefore, the moisture level will be higher. Dry soil conducts electricity poorly, so when there will be less water, then the soil will conduct less electricity which means that there will be more resistance. Therefore, the moisture level will be lower.

This sensor can be connected in two modes; Analog mode and digital mode. First, we will connect it in Analog mode and then we will use it in Digital mode.

Specifications

The specifications of the soil moisture sensor FC-28 are as follows

Input Voltage3.3 – 5V
Output Voltage0 – 4.2V
Input Current35mA
Output SignalBoth Analog and Digital

 Pin Out – Soil Moisture Sensor

The soil Moisture sensor FC-28 has four pins

  • VCC: For power
  • A0: Analog output
  • D0: Digital output
  • GND: Ground

The Module also contains a potentiometer which will set the threshold value and then this threshold value will be compared by the LM393 comparator. The output LED will light up and down according to this threshold value.

Pin Out Diagram - Soil Moisture Sensor

Pin Out – Diagram

Analog Mode – Interfacing Soil Moisture Sensor and Arduino

To connect the sensor in the analog mode, we will need to use the analog output of the sensor. When taking the analog output from the soil moisture sensor FC-28, the sensor gives us the value from 0-1023. The moisture is measured in percentage, so we will map these values from 0 -100 and then we will show these values on the serial monitor.

You can further set different ranges of the moisture values and turn on or off the water pump according to it.

Circuit Diagram

The connections for connecting the soil moisture sensor FC-28 to the Arduino are as follows.

  • VCC of FC-28 to 5V of Arduino
  • GND of FC-28 to GND of Arduino
  • A0 of FC-28 to A0 of Arduino
Interface Soil Moisture Sensor and Arduino

Circuit Diagram – Analog Mode

Analog Code 

int sensor_pin = A0;

int output_value ;

void setup() {

   Serial.begin(9600);

   Serial.println("Reading From the Sensor ...");

   delay(2000);

   }

void loop() {

   output_value= analogRead(sensor_pin);

   output_value = map(output_value,550,0,0,100);

   Serial.print("Mositure : ");

   Serial.print(output_value);

   Serial.println("%");

   delay(1000);

   }

Code Explanation

First of all, we have defined two variables; one for the soil moisture sensor pin and the other for storing the output of the sensor.

int sensor_pin = A0; // Soil Sensor input at Analog PIN A0

int output_value ;

In the setup function, the “Serial.begin(9600)” command will help in communication between the Arduino and serial monitor. Then, we will print the “Reading From the Sensor …” on the serial monitor.

void setup() {

   Serial.begin(9600);

   Serial.println("Reading From the Sensor ...");

   delay(2000);

   }

In the loop function, we will read from the sensor analog pin and will store the values in the “output_ value” variable. Then, we will map the output values to 0-100, because the moisture is measured in percentage. When we took the readings from the dry soil, then the sensor value was 550 and in the wet soil, the sensor value was 10. So, we mapped these values to get the moisture. After that, we printed these values on the serial monitor.

void loop() {

   output_value= analogRead(sensor_pin);

   output_value = map(output_value,550,10,0,100);

   Serial.print("Mositure : ");

   Serial.print(output_value);

   Serial.println("%");

   delay(1000);

   }

Digital Mode – Interfacing Arduino and Soil Moisture Sensor

To connect the soil moisture sensor FC-28 in the digital mode, we will connect the digital output of the sensor to the digital pin of the Arduino. The Sensor module contains a potentiometer with it, which is used to set the threshold value. This threshold value is then compared with the sensor output value using the LM393 comparator which is placed on the sensor module.

The LM393 comparator will compare the sensor output value and the threshold value and then gives us the output through the digital pin. When the sensor value will be greater than the threshold value, then the digital pin will give us 5V and the LED on the sensor will light up and when the sensor value will be less than this threshold value, then the digital pin will give us 0V and the light will go down.

Circuit Diagram

The connections for connecting the soil moisture sensor FC-28 to the Arduino in digital mode are as follows.

  • VCC of FC-28 to 5V of Arduino
  • GND of FC-28 to GND of Arduino
  • D0 of FC-28 to pin 12 of Arduino
  • LED positive to pin 13 of Arduino
  • LED negative to GND of Arduino
Interface Arduino and Soil Moisture Sensor

Circuit Diagram – Digital Mode

Digital Code

int led_pin =13;

int sensor_pin =8;

void setup() {

  pinMode(led_pin, OUTPUT);

  pinMode(sensor_pin, INPUT);

}

void loop() {

  if(digitalRead(sensor_pin) == HIGH){

    digitalWrite(led_pin, HIGH);

  } else {

    digitalWrite(led_pin, LOW);

    delay(1000);

  }

}

 

Code Explanation

First of all, we have initialized two variable for connecting the LED pin and the Sensor digital pin.

int led_pin =13;

int sensor_pin =8;

In the setup function, we have declared the LED pin as the output pin because; we will power the LED through that pin. Then, we declared the sensor pin as input pin because the Arduino will take the values from the sensor through that pin.

void setup() {

  pinMode(led_pin, OUTPUT);

  pinMode(sensor_pin, INPUT);

}

In the loop function, we have read from the sensor pin. If the output value of the sensor will be higher than the threshold value, then the digital pin will be high and the LED will light up. If the sensor value will be lower than the threshold value, then the LED will go down.

void loop() {

  if(digitalRead(sensor_pin) == HIGH){

    digitalWrite(led_pin, HIGH);

  } else {

    digitalWrite(led_pin, LOW);

    delay(1000);

  } }

So that finishes our tutorial on interfacing Arduino and Soil moisture sensor.If you got any doubts, please ask in comments section.

Photographs

Video

Comments
  • sadiq
    March 25, 2017

    Thanks Jijo. I got this working with your help.
    I doubt though. My moisture sensor is not giving a consistent reading. It starts with low %age, reaches a level then starts dropping again.
    Any Idea on how to stabilise the readings?

    • jojo
      April 5, 2017

      Which sensor are you using? You might have to calibrate the sensor. Read the sensor datasheet.

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