Temperature Humidity
Project #29 – DFRobot – Temperature Humidity – Mk09
——
#DonLucElectronics #DonLuc #DFRobot #SHT40 #FireBeetle2ESP32E #ESP32 #IoT #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
——
——
——
——
Temperature Humidity Relationship
Temperature is something that tells us about the coldness or warmness of any object which is generally measured in Celsius. It determines the intensity of the heat whereas if we talk about humidity, it talks about the water content that is present in the air, or simply we can say it determines the moisture of the air. These two concepts are different but show a great impact on each other. We will see the relation between temperature and humidity further below. Before that, let’s understand more about humidity and its types.
Absolute Humidity and Relative Humidity
There are generally two types of humidity ie. absolute and relative. The former tells the humidity present in a parcel of air without taking temperature into consideration whereas the latter tells the humidity present in the air concerning the temperature of the air. The former defines the amount of water content by dividing the weight of the parcel by its volume whereas the latter is calculated by dividing the amount of water content present divided by the total capacity of the parcel of the air to hold multiplied by 100. The former decreases with height whereas the latter when reaching 100%, the air gets saturated.
Relation Between Relative Humidity and Temperature
We have already learned what is temperature and what is humidity and we have also learned two types of humidity. As we know, both these two concepts ie. Temperature and Humidity are different but they are related to each other. The relation between humidity and temperature formula simply says they are inversely proportional. If temperature increases it will lead to a decrease in relative humidity, thus the air will become drier whereas when temperature decreases, the air will become wet means the relative humidity will increase.
DL2403Mk05
1 x DFRobot FireBeetle 2 ESP32-E
1 x Fermion: SHT40 Temperature & Humidity Sensor
1 x Fermion: BLE Sensor Beacon
1 x CR2032 Coin Cell Battery
1 x 1 x Lithium Ion Battery – 1000mAh
1 x Rocker Switch – SPST
1 x Resistor 10K Ohm
1 x SparkFun Serial Basic Breakout – CH340G
1 x SparkFun Cerberus USB Cable
1 x USB 3.1 Cable A to C
DFRobot FireBeetle 2 ESP32-E
LED – 2
RSW – 17
VIN – +3.3V
GND – GND
——
DL2403Mk05p.ino
/****** Don Luc Electronics © ****** Software Version Information Project #29 - DFRobot - Temperature Humidity - Mk09 29-09 DL2403Mk05p.ino 1 x DFRobot FireBeetle 2 ESP32-E 1 x Fermion: SHT40 Temperature & Humidity Sensor 1 x Fermion: BLE Sensor Beacon 1 x CR2032 Coin Cell Battery 1 x 1 x Lithium Ion Battery - 1000mAh 1 x Rocker Switch - SPST 1 x Resistor 10K Ohm 1 x SparkFun Serial Basic Breakout - CH340G 1 x SparkFun Cerberus USB Cable 1 x USB 3.1 Cable A to C */ // Include the Library Code // Bluetooth LE keyboard #include <BleKeyboard.h> // Arduino #include <Arduino.h> // BLE Device #include <BLEDevice.h> // BLE Utils #include <BLEUtils.h> // BLEScan #include <BLEScan.h> // BLE Advertised Device #include <BLEAdvertisedDevice.h> // BLE Eddystone URL #include <BLEEddystoneURL.h> // BLE Eddystone TLM #include <BLEEddystoneTLM.h> // BLE Beacon #include <BLEBeacon.h> // ENDIAN_CHANGE #define ENDIAN_CHANGE_U16(x) ((((x)&0xFF00) >> 8) + (((x)&0xFF) << 8)) // Bluetooth LE Keyboard BleKeyboard bleKeyboard; String sKeyboard = ""; // Send Size byte sendSize = 0; // Fermion: SHT40 Temperature & Humidity Sensor // Temperature float TemperatureData; float Temperature; // Humidity float HumidityData; float Humidity; // In seconds int scanTime = 5; // BLE Scan BLEScan *pBLEScan; // My Advertised Device Callbacks class MyAdvertisedDeviceCallbacks : public BLEAdvertisedDeviceCallbacks { // onResult void onResult(BLEAdvertisedDevice advertisedDevice) { // Advertised Device if (advertisedDevice.haveName()) { // Name: Fermion: Sensor Beacon if(String(advertisedDevice.getName().c_str()) == "SHT40"){ // strManufacturerData std::string strManufacturerData = advertisedDevice.getManufacturerData(); uint8_t cManufacturerData[100]; strManufacturerData.copy((char *)cManufacturerData, strManufacturerData.length(), 0); // strManufacturerData.length for (int i = 0; i < strManufacturerData.length(); i++) { // cManufacturerData[i] cManufacturerData[i]; } // TemperatureData TemperatureData = int(cManufacturerData[2]<<8 | cManufacturerData[3]); // HumidityData HumidityData = int(cManufacturerData[5]<<8 | cManufacturerData[6]); } } } }; // The number of the Rocker Switch pin int iSwitch = 17; // Variable for reading the button status int SwitchState = 0; // Define LED int iLED = 2; // Software Version Information String sver = "29-09"; void loop() { // ScanResults isBLEScanResults(); // Fermion: SHT40 Temperature & Humidity Sensor isSHT40(); // Read the state of the Switch value: SwitchState = digitalRead(iSwitch); // Check if the button is pressed. If it is, the SwitchState is HIGH: if (SwitchState == HIGH) { // Bluetooth LE Keyboard isBluetooth(); } // Delay 2 Second delay(2000); }
getBLEScan.ino
// getBLEScan // Setup BLE Scan void isSetupBLEScan(){ // BLE Device BLEDevice::init(""); // Create new scan pBLEScan = BLEDevice::getScan(); // Set Advertised Device Callbacks pBLEScan->setAdvertisedDeviceCallbacks(new MyAdvertisedDeviceCallbacks()); // Active scan uses more power, but get results faster pBLEScan->setActiveScan(true); // Set Interval pBLEScan->setInterval(100); // Less or equal setInterval value pBLEScan->setWindow(99); } // BLE Scan Results void isBLEScanResults(){ // Put your main code here, to run repeatedly: BLEScanResults foundDevices = pBLEScan->start(scanTime, false); // Delete results fromBLEScan buffer to release memory pBLEScan->clearResults(); }
getBleKeyboard.ino
// Ble Keyboard // Bluetooth // isBluetooth void isBluetooth() { // ESP32 BLE Keyboard if(bleKeyboard.isConnected()) { // Send Size Length sendSize = sKeyboard.length(); // Send Size, charAt for(byte i = 0; i < sendSize+1; i++){ // Write bleKeyboard.write(sKeyboard.charAt(i)); delay(50); } bleKeyboard.write(KEY_RETURN); } }
getSHT40.ino
// Fermion: SHT40 Temperature & Humidity Sensor // SHT40 Temperature & Humidity void isSHT40(){ // Fermion: SHT40 Temperature & Humidity Sensor // Temperature Temperature = (175 * TemperatureData/65535) - 45; // Humidity Humidity = (125 * HumidityData/65535) - 6; // DFR|Version|Temperature|Humidity|* sKeyboard = "DFR|" + sver + "|" + String(Temperature) + "C|" + String(Humidity) + "%|*"; }
setup.ino
// Setup void setup() { // Give display time to power on delay(100); // Bluetooth LE keyboard bleKeyboard.begin(); // Give display time to power on delay(100); // Setup BLE Scan isSetupBLEScan(); // Initialize the Switch pin as an input pinMode(iSwitch, INPUT); // Initialize digital pin iLED as an output pinMode(iLED, OUTPUT); // Outputting high, the LED turns on digitalWrite(iLED, HIGH); // Delay 5 Second delay( 5000 ); }
——
People can contact us: https://www.donluc.com/?page_id=1927
Teacher, Instructor, E-Mentor, R&D and Consulting
- Programming Language
- Single-Board Microcontrollers (PIC, Arduino, Raspberry Pi, Arm, Silicon Labs, Espressif, Etc…)
- IoT
- Wireless (Radio Frequency, Bluetooth, WiFi, Etc…)
- Robotics
- Automation
- Camera and Video Capture Receiver Stationary, Wheel/Tank and Underwater Vehicle
- Unmanned Vehicles Terrestrial and Marine
- Machine Learning
- Artificial Intelligence (AI)
- RTOS
- Sensors, eHealth Sensors, Biosensor, and Biometric
- Research & Development (R & D)
- Consulting
Follow Us
Luc Paquin – Curriculum Vitae – 2024
https://www.donluc.com/luc/
Web: https://www.donluc.com/
Facebook: https://www.facebook.com/neosteam.labs.9/
YouTube: https://www.youtube.com/@thesass2063
Twitter: https://twitter.com/labs_steam
Pinterest: https://www.pinterest.com/NeoSteamLabs/
Instagram: https://www.instagram.com/neosteamlabs/
LinkedIn: https://www.linkedin.com/in/jlucpaquin/
Don Luc