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Temperature upload over MQTT using Arduino UNO, ESP8266 and DHT22 sensor

Introduction

IoT Hub is an open-source server-side platform that allows you to monitor and control IoT devices. It is free for both personal and commercial usage and you can deploy it anywhere. If this is your first experience with the platform we recommend to review what-is-iothub page and getting-started guide.

This sample application performs collection of temperature and humidity values produced by DHT22 sensor and further visualization on the real-time web dashboard. Collected data is pushed via MQTT to IoT Hub server for storage and visualization. The purpose of this application is to demonstrate IoT Hub data collection API and visualization capabilities.

The DHT22 sensor is connected to Arduino UNO. Arduino UNO connects to the WiFi network using ESP8266. Arduino UNO pushes data to IoT Hub server via MQTT protocol by using PubSubClient library for Arduino. Data is visualized using built-in customizable dashboard. The application that is running on Arduino UNO is written using Arduino SDK which is quite simple and easy to understand.

Once you complete this sample/tutorial, you will see your sensor data on the following dashboard.

image

Prerequisites

You will need to have IoT Hub server up and running. The easiest way is to use Live Demo server.

The alternative option is to install IoT Hub using Installation Guide. Windows users should follow this guide. Linux users that have docker installed should execute the following commands:

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mkdir -p ~/.mytb-data && sudo chown -R 799:799 ~/.mytb-data
mkdir -p ~/.mytb-logs && sudo chown -R 799:799 ~/.mytb-logs
docker run -it -p 9090:9090 -p 7070:7070 -p 1883:1883 -p 5683-5688:5683-5688/udp -v ~/.mytb-data:/data \
-v ~/.mytb-logs:/var/log/thingsboard --name mytb --restart always thingsboard/tb-postgres

These commands install IoT Hub and load demo data and accounts.

IoT Hub UI will be available using the URL: http://localhost:8080. You may use username tenant@thingsboard.org and password tenant. More info about demo accounts is available here.

List of hardware and pinouts

image

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  • Resistor (between 4.7K and 10K)

  • Breadboard

  • 2 female-to-female jumper wires

  • 11 female-to-male jumper wires

  • 3 male-to-male jumper wire

ESP8266 Firmware

In the current tutorial WiFiEsp Arduino library is used to connect Arduino board to the internet. This library supports ESP SDK version 1.1.1 and above (AT version 0.25 and above). Please make sure that your ESP8266 has compatible firmware. You can download and flash AT25-SDK112 firmware which is tested in this tutorial.

Please note that serial baud rate of ESP8266 should be set to 9600 by the following AT command:

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AT+UART_DEF=9600,8,1,0,0

Wiring scheme

Arduino UNO Pin ESP8266 Pin
Arduino UNO 3.3V ESP8266 VCC
Arduino UNO 3.3V ESP8266 CH_PD
Arduino UNO GND ESP8266 GND (-)
Arduino UNO D2 ESP8266 RX
Arduino UNO D3 ESP8266 TX
Arduino UNO Pin DHT-22 Pin
Arduino UNO 5V DHT-22 VCC
Arduino UNO GND DHT-22 GND (-)
Arduino UNO D4 DHT-22 Data

Finally, place a resistor (between 4.7K and 10K) between pin number 1 and 2 of the DHT sensor.

The following picture summarizes the connections for this project:

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IoT Hub configuration

Note IoT Hub configuration steps are necessary only in case of local IoT Hub installation. If you are using Live Demo instance all entities are pre-configured for your demo account. However, we recommend reviewing this steps because you will still need to get device access token to send requests to IoT Hub.

Provision your device

This step contains instructions that are necessary to connect your device to IoT Hub.

Open IoT Hub Web UI (http://localhost:8080) in browser and login as tenant administrator

  • login: tenant@thingsboard.org
  • password: tenant

Go to “Devices” section. Click “+” button and create a device with the name “Arduino UNO Demo Device”.

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Once device created, open its details and click “Manage credentials”.

Copy auto-generated access token from the “Access token” field. Please save this device token. It will be referred to later as $ACCESS_TOKEN.

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Provision your dashboard

Download the dashboard file using this link. Use import/export instructions to import the dashboard to your IoT Hub instance.

Programming the Arduino UNO device

If you already familiar with basics of Arduino UNO programming using Arduino IDE you can skip the following step and proceed with step 2.

Step 1. Arduino UNO and Arduino IDE setup.

In order to start programming the Arduino UNO device, you will need Arduino IDE and all related software installed.

Download and install Arduino IDE.

To learn how to connect your Uno board to the computer and upload your first sketch please follow this guide.

Step 2. Install Arduino libraries.

Open Arduino IDE and go to Sketch -> Include Library -> Manage Libraries. Find and install the following libraries:

Note that this tutorial was tested with the following versions of the libraries:

  • PubSubClient 2.6
  • WiFiEsp 2.1.2
  • Adafruit Unified Sensor 1.0.2
  • DHT sensor library 1.3.0
  • Arduino IoT Hub SDK 0.4
  • ArduinoJSON 6.10.1
  • Arduino Http Client 0.4.0

Step 3. Prepare and upload a sketch.

Download and open arduino-dht-esp8266-mqtt.ino sketch.

Note You need to edit following constants and variables in the sketch:

  • WIFI_AP - name of your access point
  • WIFI_PASSWORD - access point password
  • TOKEN - the $ACCESS_TOKEN from IoT Hub configuration step.
  • thingsboardServer - IoT Hub HOST/IP address that is accessible from within your wifi network. Specify “iothub.magenta.at” if you are using live demo server.
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#include "DHT.h"
#include <WiFiEspClient.h>
#include <WiFiEsp.h>
#include <WiFiEspUdp.h>
#include "SoftwareSerial.h"
#include <ThingsBoard.h>

#define WIFI_AP "YOUR_WIFI_AP"
#define WIFI_PASSWORD "YOUR_WIFI_PASSWORD"

#define TOKEN "YOUR_ACCESS_TOKEN"

// DHT
#define DHTPIN 4
#define DHTTYPE DHT22

char thingsboardServer[] = "device.iothub.magenta.at";

// Initialize the Ethernet client object
WiFiEspClient espClient;

// Initialize DHT sensor.
DHT dht(DHTPIN, DHTTYPE);

ThingsBoard tb(espClient);

SoftwareSerial soft(2, 3); // RX, TX

int status = WL_IDLE_STATUS;
unsigned long lastSend;

void setup() {
  // initialize serial for debugging
  Serial.begin(9600);
  dht.begin();
  InitWiFi();
  lastSend = 0;
}

void loop() {
  status = WiFi.status();
  if ( status != WL_CONNECTED) {
    while ( status != WL_CONNECTED) {
      Serial.print("Attempting to connect to WPA SSID: ");
      Serial.println(WIFI_AP);
      // Connect to WPA/WPA2 network
      status = WiFi.begin(WIFI_AP, WIFI_PASSWORD);
      delay(500);
    }
    Serial.println("Connected to AP");
  }

  if ( !tb.connected() ) {
    reconnect();
  }

  if ( millis() - lastSend > 1000 ) { // Update and send only after 1 seconds
    getAndSendTemperatureAndHumidityData();
    lastSend = millis();
  }

  tb.loop();
}

void getAndSendTemperatureAndHumidityData()
{
  Serial.println("Collecting temperature data.");

  // Reading temperature or humidity takes about 250 milliseconds!
  float humidity = dht.readHumidity();
  // Read temperature as Celsius (the default)
  float temperature = dht.readTemperature();

  // Check if any reads failed and exit early (to try again).
  if (isnan(humidity) || isnan(temperature)) {
    Serial.println("Failed to read from DHT sensor!");
    return;
  }

  Serial.println("Sending data toIoT Hub:");
  Serial.print("Humidity: ");
  Serial.print(humidity);
  Serial.print(" %\t");
  Serial.print("Temperature: ");
  Serial.print(temperature);
  Serial.println(" *C ");

  tb.sendTelemetryFloat("temperature", temperature);
  tb.sendTelemetryFloat("humidity", humidity);
}

void InitWiFi()
{
  // initialize serial for ESP module
  soft.begin(9600);
  // initialize ESP module
  WiFi.init(&soft);
  // check for the presence of the shield
  if (WiFi.status() == WL_NO_SHIELD) {
    Serial.println("WiFi shield not present");
    // don't continue
    while (true);
  }

  Serial.println("Connecting to AP ...");
  // attempt to connect to WiFi network
  while ( status != WL_CONNECTED) {
    Serial.print("Attempting to connect to WPA SSID: ");
    Serial.println(WIFI_AP);
    // Connect to WPA/WPA2 network
    status = WiFi.begin(WIFI_AP, WIFI_PASSWORD);
    delay(500);
  }
  Serial.println("Connected to AP");
}

void reconnect() {
  // Loop until we're reconnected
  while (!tb.connected()) {
    Serial.print("Connecting toIoT Hub node ...");
    // Attempt to connect (clientId, username, password)
    if ( tb.connect(thingsboardServer, TOKEN) ) {
      Serial.println( "[DONE]" );
    } else {
      Serial.print( "[FAILED]" );
      Serial.println( " : retrying in 5 seconds" );
      // Wait 5 seconds before retrying
      delay( 5000 );
    }
  }
}

Connect your Arduino UNO device via USB cable and select “Arduino/Genuino Uno” port in Arduino IDE. Compile and Upload your sketch to the device using “Upload” button.

After application will be uploaded and started it will try to connect to IoT Hub node using mqtt client and upload “temperature” and “humidity” timeseries data once per second.

Troubleshooting

When the application is running you can select “Arduino/Genuino Uno” port in Arduino IDE and open “Serial Monitor” in order to view debug information produced by serial output.

Data visualization

Finally, open IoT Hub Web UI. You can access this dashboard by logging in as a tenant administrator. Use

  • login: tenant@thingsboard.org
  • password: tenant

in case of local IoT Hub installation.

Go to “Devices” section and locate “Arduino UNO Demo Device”, open device details and switch to “Latest telemetry” tab. If all is configured correctly you should be able to see latest values of “temperature” and “humidity” in the table.

image

After, open “Dashboards” section then locate and open “Arduino DHT22: Temperature & Humidity Demo Dashboard”. As a result, you will see two time-series charts and two digital gauges displaying temperature and humidity level (similar to dashboard image in the introduction).

See also

Browse other samples or explore guides related to main IoT Hub features:

Next steps

  • Getting started guides - These guides provide quick overview of main IoT Hub features. Designed to be completed in 15-30 minutes.