# Post DHT 11 Data with Push Button In this project, you will use the **Antares Shield Workshop** on the **ESP8266** module. In this **Antares Shield Workshop**, there are temperature, humidity (DHT11), relay, LED and push button sensors. You will monitor the temperature and humidity with a push button as a trigger sender.

Picture of WEMOSD1R2 Attached to Antares Shield

## Prerequisites The materials required follow the **General Prerequisites** on the previous page. If you have not prepared the requirements on that page, then you can visit the following page. {% content-ref url="/pages/FfvYH4773vShlmvxo6Gj" %} [General Prerequisites ESP8266 Wi-Fi](/en/code-and-library-examples/esp8266-wi-fi/general-prerequisites-esp8266-wi-fi.md) {% endcontent-ref %} The additional materials specific to this project are as follows. 1. Shield Workshop Antares 2. Antares ESP HTTP Library. This documentation uses the **Antares ESP HTTP library version 1.4.0.** {% hint style="info" %} If you have not installed **Antares ESP HTTP 1.4.0**, please follow these steps. [Antares Wi-Fi HTTP](/en/getting-started/arduino-library-installation/antares-wi-fi-http.md) {% endhint %} 3. DHT11 Library. This documentation uses **DHT11 Sensor Library version 1.4.4.** {% hint style="info" %} If you have not installed the DHT11 Sensor Library version 1.4.4. you can follow the steps in the following link. [DHT11 Sensor Library](/en/getting-started/arduino-library-installation/dht11-sensor-library.md) {% endhint %} ## Follow These Steps ### **1.** Launch the Arduino IDE application ### **2.** Opening Sample Programme {% hint style="info" %} You can open the programme code in the Arduino IDE via **File > Example > Antares ESP HTTP > ESP8266-Simple-Project > POST\_DATA\_DHT11\_PUSHBUTTON.** {% endhint %} Here is the programme code of the example **POST\_DATA\_DHT11\_PUSHBUTTON** ```cpp #include // Include the AntaresESP2866HTTP library for connecting to the Antares platform #include "DHT.h" // Include the DHT sensor library #define DHTPIN D1 // Define the pin number for the DHT sensor (connected to pin D1) #define DHTTYPE DHT11 // Define the DHT sensor type as DHT11 #define ACCESSKEY "YOUR-ACCESS-KEY" // Replace with your Antares account access key #define WIFISSID "YOUR-WIFI-SSID" // Replace with your Wi-Fi SSID #define PASSWORD "YOUR-WIFI-PASSWORD" // Replace with your Wi-Fi password #define projectName "YOUR-APPLICATION-NAME" // Replace with the Antares application name that was created #define deviceName "YOUR-DEVICE-NAME" // Replace with the Antares device name that was created AntaresESPHTTP antares(ACCESSKEY); // Create an AntaresESP2866HTTP object to interact with Antares DHT dht(DHTPIN, DHTTYPE); // Create a DHT object for the DHT sensor #define pushButtonPin A0 // Define the pin number for the push button (connected to pin 32) #define ledPin D2 // Define the pin number for the LED (connected to pin 12) bool ledState = false; // Variable to store the state of the LED (ON or OFF) bool lastButtonState = false; // Variable to store the previous state of the push button void setup() { Serial.begin(115200); // Initialize serial communication with baudrate 115200 antares.setDebug(true); // Enable debug mode for AntaresESP32HTTP (messages will be displayed in the serial monitor) // Reset WiFi cache before connecting WiFi.disconnect(); antares.wifiConnection(WIFISSID, PASSWORD); // Connect to Wi-Fi with the specified SSID and password dht.begin(); // Initialize the DHT sensor pinMode(pushButtonPin, INPUT); // Set the push button pin as input with internal pull-up resistor pinMode(ledPin, OUTPUT); // Set the LED pin as output digitalWrite(ledPin, LOW); // Turn off the LED initially } void loop() { // Read the current state of the push button int analogValue = analogRead(A0); bool currentButtonState = (analogValue < 512); // Adjust the threshold as needed // Check if the button state has changed (button press detected) if (currentButtonState != lastButtonState && currentButtonState == LOW) { Serial.println("The button is pressed"); // Toggle state of the LED (ON to OFF or OFF to ON) ledState = !ledState; digitalWrite(ledPin, ledState); // Read temperature and humidity from the DHT sensor float hum = dht.readHumidity(); float temp = dht.readTemperature(); // Check if the sensor reading is valid if (isnan(hum) || isnan(temp)) { Serial.println("Failed to read DHT sensor!"); return; } // Print temperature and humidity values to the serial monitor Serial.println("Temperature: " + (String)temp + " *C"); Serial.println("Humidity: " + (String)hum + " %"); // Add temperature and humidity data to the Antares storage buffer antares.add("temperature", temp); antares.add("humidity", hum); // Send the data from the storage buffer to Antares antares.send(projectName, deviceName); // Add some delay to avoid multiple data sending due to button debouncing delay(1000); } // Update the last button state for the next iteration lastButtonState = currentButtonState; } ``` ### **3.** Set WiFi Credential and Antares Credential in Program Code Change the HTTP Protocol parameters in the following variables **\*ACCESSKEY, \*WIFISSID, \*PASSWORD, \*projectName,** and **\*deviceName**. Adjust to the parameters in the Antares console. ```cpp #define ACCESSKEY "YOUR-ACCESS-KEY" // Replace with your Antares account access key #define WIFISSID "YOUR-WIFI-SSID" // Replace with your Wi-Fi SSID #define PASSWORD "YOUR-WIFI-PASSWORD" // Replace with your Wi-Fi password #define projectName "YOUR-APPLICATION-NAME" // Replace with the Antares application name that was created #define deviceName "YOUR-DEVICE-NAME" // Replace with the Antares device name that was created ``` {% hint style="info" %} The **\*Access key** parameter is obtained from your Antares account page. {% endhint %}

Access Key Location on Antares Account Page

{% hint style="info" %} The **WIFISSID** parameter is obtained from the name of the **Wifi / Hotspot** that is currently being used by you. for example in the image below. {% endhint %}

{% hint style="info" %} The **\*PASSWORD** parameter is obtained from the **WiFi password** you are currently using. {% endhint %} {% hint style="info" %} The parameters **\*projectName** and **\*deviceName** are obtained from the **Application Name** and **Device Name** that have been created in the Antares account. {% endhint %}

### **4. Compile and Upload Program** Connect **ESP 8266 WEMOS D1R2** with your computer and make sure the **Communication Port** is read. {% hint style="info" %} On Windows operating systems, the check can be done via **Device Manager**. If your **ESP 8266 WEMOS D1R2** is read, the **USB-Serial CH340** appears with the port adjusting the port availability (in this case it reads **COM4**). {% endhint %}

Set up the **ESP8266 WEMOS D1R2** board by clicking **Tools > Board > esp8266** in the Arduino IDE, then make sure the one used is **LOLIN (WEMOS) D1 R2 & min**i. Select the port according to the communication port that is read (in this case COM4). The result will look like the following picture.

After all the setup is complete, upload the programme by pressing the arrow icon as shown below. Wait for the compile and upload process to finish.

Image of the Verify and Upload icons in the Arduino IDE.

{% hint style="info" %} **The Tick icon** on the Arduino IDE is just the verify process. Usually used to **compile** the programme to find out if there are errors or not. \ **The arrow icon** on the Arduino IDE is the verify and upload process. Usually used to **compile** the programme as well as flash the programme on the target board. {% endhint %} If the programme upload is successful, it will look like the following image.

Arduino IDE page image after successful upload.

After uploading the programme, you can view the **serial monitor** to debug the programme. The **serial monitor** icon is shown in the following image.

Image of the Serial Monitor Icon in the Arduino IDE.

Set the **serial baud** **rate** to 115200 and select BothNL & CR. The result will look like the following image. {% hint style="danger" %} Make sure the **serial baud rate** matches the value defined in the programme code. If the **serial baud rate** is not the same between **the programme code** and **the serial monitor**, the ASCII characters will not be read properly. {% endhint %}

### **5.** Check Data in Antares After uploading the programme successfully, then open the device antares page and see if the data has been successfully sent.

Console Page Image When Data Successfully Received

{% hint style="info" %} Data sent from **ESP8266** with HTTP protocol in the form of temperature and humidity variables. {% endhint %} --- # Agent Instructions: Querying This Documentation If you need additional information that is not directly available in this page, you can query the documentation dynamically by asking a question. Perform an HTTP GET request on the current page URL with the `ask` query parameter: ``` GET https://docs.antares.id/en/code-and-library-examples/esp8266-wi-fi/esp8266-wi-fi-http-protocol/simple-project-esp8266-http-antares/post-dht-11-data-with-push-button.md?ask= ``` The question should be specific, self-contained, and written in natural language. The response will contain a direct answer to the question and relevant excerpts and sources from the documentation. Use this mechanism when the answer is not explicitly present in the current page, you need clarification or additional context, or you want to retrieve related documentation sections.