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Module 8: IOT Platform

Blynk

Introduction

Blynk is a platform that allows you to create and control IoT applications using a smartphone, tablet, or web browser. You can use Blynk to connect various hardware devices, such as Arduino, Raspberry Pi, ESP8266, ESP32, and others, to the internet and interact with them through a graphical user interface. Blynk provides a widget library that you can drag and drop to design your application, including buttons, sliders, displays, charts, and more. You can also use Blynk to monitor and analyze data from your sensors, send notifications, and integrate with third-party services.

By using Blynk with the ESP32, you can easily and quickly prototype your IoT projects without writing complex code or dealing with network protocols. You can use Blynk to control ESP32 outputs, such as LEDs, relays, motors, and more, as well as read inputs from sensors like temperature, humidity, light, and others. Blynk also allows you to create custom functions and logic for your ESP32, such as timers, triggers, and actions.

Setting Up Blynk

Please download the Blynk app on your smartphone. For more information on how to register an account, create a template, configure datastreams, set up the web dashboard, and configure the mobile dashboard, you can watch this video tutorial.

Blynk Syntax

Blynk events are actions that occur when you interact with your Blynk application or when your hardware sends or receives data from the Blynk server. You can use Blynk events to control the logic and behavior of your ESP32, such as turning devices on or off, reading or writing data, performing calculations, and more. You can handle Blynk events using Blynk library functions and Arduino sketches.

The Blynk library provides several functions you can use to handle Blynk events, such as:

  • Blynk.begin(): This function initializes the Blynk connection and connects your ESP32 to your Blynk project. You need to call this function in the setup() function of your Arduino sketch and provide your WiFi credentials and Blynk authentication token as parameters. Example:

    void setup() {
      Serial.begin(115200);
      // Initialize Blynk connection
      Blynk.begin(auth, ssid, pass);
    }
    
  • Blynk.run(): This function runs the Blynk process and handles communication between your ESP32 and your Blynk project. You need to call this function in the loop() function of your Arduino sketch, ensuring it is not blocked by long-running code. Example:

    void loop() {
      // Run Blynk process
      Blynk.run();
    }
    
  • BLYNK_WRITE(): This function is a macro that defines a callback function executed when a widget writes a value to a pin on your ESP32. You can use this function to handle events triggered by your Blynk app, such as pressing a button, moving a slider, or sending a command. You need to specify the pin number as a parameter and use the BlynkParam object to access the value. Example:

    // Define a callback function for pin V1
    BLYNK_WRITE(V1) {
      // Get value from widget
      int value = param.asInt();
      // Do something with the value
      Serial.println(value);
    }
    
  • Blynk.virtualWrite(): This function writes a value to a virtual pin in your Blynk project. You can use this function to send data from your ESP32 to your Blynk app, such as sensor readings, status updates, or custom messages. You need to specify the virtual pin number and the value as parameters. You can also specify the data type, such as int, float, string, or array. Example:

    // Write value to pin V2
    Blynk.virtualWrite(V2, 123);
    // Write string to pin V3
    Blynk.virtualWrite(V3, "Hello Blynk");
    // Write array to pin V4
    int array[] = {1, 2, 3, 4, 5};
    Blynk.virtualWrite(V4, array, 5);
    
  • BLYNK_READ(): This function is a macro that defines a callback function executed when a widget reads a value from a pin on your ESP32. You can use this function to handle events triggered by your Blynk app, such as sensor value requests, display updates, or chart refreshes. You need to specify the pin number as a parameter and use the Blynk.virtualWrite() function to send the value. Example:

    // Define a callback function for pin V5
    BLYNK_READ(V5) {
      // Read value from sensor
      int value = analogRead(A0);
      // Send value to widget
      Blynk.virtualWrite(V5, value);
    }
    

Example Code

Before running this code, you need to install the Blynk library in the Arduino IDE. Screenshot 2024-11-14 at 10.54.17.png

In this example, we will use Blynk and ESP32 to monitor temperature and humidity in a room using the DHT11 sensor (if used, don’t forget to install the DHT library first). We will also display the sensor readings on the LCD widget and gauge widget in the Blynk app. Additionally, we will use the LED widget to indicate the connection status of the ESP32. The circuit diagram and code can be seen below:

// Include the Blynk and DHT libraries
#include <BlynkSimpleEsp32.h>
#include <DHT.h>
#include <WiFi.h>
#include <WiFiClient.h>

// Define Blynk authentication token
#define BLYNK_TEMPLATE_ID "YourTemplateID"
#define BLYNK_DEVICE_NAME "YourDeviceName"
#define BLYNK_AUTH_TOKEN "YourToken"

// Define WiFi credentials
char ssid[] = "YourNetworkName";
char pass[] = "YourPassword";

// Define DHT sensor type and pin
#define DHTTYPE DHT11
#define DHTPIN 4

// Create DHT object
DHT dht(DHTPIN, DHTTYPE);

// Define virtual pins for widgets
#define LED_VPIN V0
#define LCD_VPIN V1
#define GAUGE_VPIN V2

// Define LED pin
#define LED_PIN 25

// Define update interval in milliseconds
#define UPDATE_INTERVAL 2000

// Create a timer object
BlynkTimer timer;

// Define function to read and send sensor data
void sendSensorData() {
  // Read temperature and humidity from sensor
  float temperature = dht.readTemperature();
  float humidity = dht.readHumidity();

  // Check if readings are valid
  if (isnan(temperature) || isnan(humidity)) {
    // Display error message on LCD widget
    Blynk.virtualWrite(LCD_VPIN, "clear");
    Blynk.virtualWrite(LCD_VPIN, 0, 0, "DHT Sensor");
    Blynk.virtualWrite(LCD_VPIN, 0, 1, "error");
  } else {
    // Display readings on LCD widget
    Blynk.virtualWrite(LCD_VPIN, "clear");
    Blynk.virtualWrite(LCD_VPIN, 0, 0, "Temp: " + String(temperature) + " C");
    Blynk.virtualWrite(LCD_VPIN, 0, 1, "Humidity: " + String(humidity) + " %");
    // Display readings on gauge widget
    Blynk.virtualWrite(GAUGE_VPIN, temperature);
  }
}

// Define function to indicate connection status
void indicateConnection() {
  // Check if ESP32 is connected to Blynk
  if (Blynk.connected()) {
    // Turn on LED widget
    Blynk.virtualWrite(LED_VPIN, 255);
  } else {
    // Turn off LED widget
    Blynk.virtualWrite(LED_VPIN, 0);
  }
}

// Define function to handle button events
BLYNK_WRITE(25) {
  // Get the value from the button widget
  int value = param.asInt();
  // Write value to LED pin
  digitalWrite(LED_PIN, value);
}

void setup() {
  // Initialize serial communication
  Serial.begin(115200);

  // Initialize Blynk connection
  Blynk.begin(BLYNK_AUTH_TOKEN, ssid, pass);

  // Initialize DHT sensor
  dht.begin();

  // Initialize LED pin
  pinMode(LED_PIN, OUTPUT);

  // Set LED widget to off
  Blynk.virtualWrite(LED_VPIN, 0);

  // Clear LCD widget
  Blynk.virtualWrite(LCD_VPIN, "clear");

  // Set gauge widget to 0
  Blynk.virtualWrite(GAUGE_VPIN, 0);

  // Set timer to call sendSensorData function every UPDATE_INTERVAL milliseconds
  timer.setInterval(UPDATE_INTERVAL, sendSensorData);

  // Set timer to call indicateConnection function every 100 milliseconds
  timer.setInterval(100, indicateConnection);
}

void loop() {
  // Run Blynk process
  Blynk.run();
  // Run timer process
  timer.run();
}

Instructions for the Blynk app:

  1. Open the Blynk app and create a new project with the ESP32 device model and WiFi connection type. Copy the authentication token and paste it into the code.
  2. Add an LED widget and assign it to pin V0. Set the color to green.
  3. Add an LCD widget and assign it to pin V1. Set the advanced mode to ON and the text color to blue.
  4. Add a gauge widget and assign it to pin V2. Set the range to 0-50 and the text color to red.
  5. Select a button widget. Tap the button widget to open its settings. Set the name to "LED Control" and the color to green. Set the output to digital pin 25 and the mode to switch. This will link the button to the LED pin on the ESP32.
  6. Upload the code to the ESP32 and run the project. You should see temperature and humidity readings on the LCD and gauge widgets. You should also see the LED widget light up when the ESP32 is connected to Blynk.