Consultant
Consultant
Project #30 – UNIHIKER – Ambient Light Sensor – Mk02
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#DonLucElectronics #DonLuc #UNIHIKER #Display #IoT #Project #Debian #Python #Thonny #Programming #Electronics #Microcontrollers #Consultant
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UNIHIKER Ambient Light Sensor
A light sensor is a photoelectric device that converts light energy (Photons) detected to electrical energy (Electrons). There is more to a light sensor than just its definition. It comes in different types and is used in various applications. This project provides a foundation for home lighting design, whether adjusting brightness levels in work areas or creating a cozy atmosphere in bedrooms, making it a practical tool. It measures the ambient light level of your surroundings and determines the suitable brightness of your screen.
DL2408Mk05
1 x UNIHIKER
1 x USB Battery Pack
1 x USB 3.1 Cable A to C
DL2408Mk05p
DL2408Mk05p.py
""" ****** Don Luc Electronics © ****** Software Version Information Project #30 - UNIHIKER - Ambient Light Sensor - Mk02 30-02 DL2408Mk05.py DL2408Mk05 1 x UNIHIKER 1 x USB Battery Pack 1 x USB 3.1 Cable A to C -*- coding: utf-8 -*- """ # Import the unihiker library from unihiker import GUI # Import the time library import time # Import the Board module from the pinpong.board package from pinpong.board import Board # Import all modules from the pinpong.extension.unihiker package from pinpong.extension.unihiker import * # Initialize the board by selecting the board type and port number; # if not specified, the program will automatically detect it Board().begin() # Instantiate the GUI class and create a gui object gui = GUI() # Display the initial background image 'dlemk02' img = gui.draw_image(x=0, y=0, w=240, h=320, image='DL2408Mk05p.png') # Ambient Light Sensor # Display the initial Ambient Light Sensor valueLight valueLight = gui.draw_text(x=30, y=151, text='0', font_size=18) while True: # Ambient Light Sensor # Read the light value AmbientLightSensor = light.read() # Update the displayed light value valueLight.config(text=AmbientLightSensor) # Delay for 1 second to keep the screen content displayed for a longer time time.sleep(1)
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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/
DFRobot Luc.Paquin: https://edu.dfrobot.com/dashboard/makelogs
Hackster.io: https://www.hackster.io/neosteam-labs
LinkedIn: https://www.linkedin.com/in/jlucpaquin/
Don Luc
Project #29 – DFRobot – MEMS Smoke – Mk26
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#DonLucElectronics #DonLuc #DFRobot #Smoke #CH4 #VOC #SHTC3 #FireBeetle2ESP32C6 #Display #EEPROM #ESP32 #IoT #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Fermion: MEMS Smoke Gas Detection Sensor
Fermion: MEMS Smoke Gas Detection Sensor employs state-of-the-art microelectromechanical system (MEMS) technology, endowing the sensor with compact dimensions, low power consumption, minimal heat generation, short preheating time, and swift response recovery. The sensor can measure smoke concentration qualitatively and is suitable for smoke alarm and other application scenarios. Kindly remove the protective film before usage. It is advisable to preheat the module for at least 24 hours. Detection range: 10-1000 ppm.
DL2408Mk04
1 x FireBeetle 2 ESP32-C6
1 x Fermion: MEMS Smoke Gas Detection Sensor
1 x Fermion: MEMS Methane CH4 Gas Detection Sensor
1 x Fermion: MEMS VOC Gas Detection Sensor
1 x Fermion: SHTC3 Temperature and Humidity Sensor
1 x Fermion: 2.0″ 320×240 IPS TFT LCD
1 x MicroSD 2 GB
1 x GDL Line 10 CM
1 x 1 x Lithium Ion Battery – 1000mAh
1 x USB 3.1 Cable A to C
FireBeetle 2 ESP32-C6
VOC – 2
CH4 – 3
SMO – 4
SCK – 23
MOSI – 22
MISO – 21
CS – 18
SCL – 20
SDA – 19
DC – 8
CS – 1
RST – 14
VIN – +3.3V
GND – GND
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DL2408Mk04p.ino
/****** Don Luc Electronics © ****** Software Version Information Project #29 - DFRobot - MEMS Smoke - Mk26 29-26 DL2408Mk04p.ino DL2408Mk04 1 x FireBeetle 2 ESP32-C6 1 x Fermion: MEMS Smoke Gas Detection Sensor 1 x Fermion: MEMS Methane CH4 Gas Detection Sensor 1 x Fermion: MEMS VOC Gas Detection Sensor 1 x Fermion: SHTC3 Temperature and Humidity Sensor 1 x Fermion: 2.0" 320x240 IPS TFT LCD 1 x MicroSD 2 GB 1 x GDL Line 10 CM 1 x 1 x Lithium Ion Battery - 1000mAh 1 x USB 3.1 Cable A to C */ // Include the Library Code // EEPROM Library to Read and Write EEPROM // with Unique ID for Unit #include "EEPROM.h" // DFRobot Display GDL API #include <DFRobot_GDL.h> // Arduino #include <Arduino.h> // Wire #include <Wire.h> // SHTC3 Temperature and Humidity Sensor #include "SHTSensor.h" // SD Card #include "FS.h" #include "SD.h" #include "SPI.h" // MEMS Smoke Gas int iSensorSmoke = 4; int iSensorValueSmoke = 0; int z = 0; // MEMS CH4 Gas int iSensorCH4 = 3; int iSensorValueCH4 = 0; int y = 0; // MEMS VOC Gas int iSensorVOC = 2; int iSensorValueVOC = 0; int x = 0; // MicroSD Card const int chipSelect = 18; String zzzzzz = ""; // SHTC3 Temperature and Humidity Sensor SHTSensor sht; // Temperature float T; // Humidity float H; // Defined ESP32 #define TFT_DC 8 #define TFT_CS 1 #define TFT_RST 14 /*dc=*/ /*cs=*/ /*rst=*/ // DFRobot Display 240x320 DFRobot_ST7789_240x320_HW_SPI screen(TFT_DC, TFT_CS, TFT_RST); // LED Green int iLEDGreen = 15; // EEPROM Unique ID Information #define EEPROM_SIZE 64 String uid = ""; // Software Version Information String sver = "29-26"; void loop() { // MEMS Smoke Gas isSmoke(); // MEMS CH4 Gas isCH4(); // MEMS VOC Gas isVOC(); // SHTC3 Temperature and Humidity Sensor isSHTC3(); // DFRobot Display 240x320 - Temperature and Humidity, VOC, CH4, Smoke isDisplayTH(); // MicroSD Card isSD(); // Delay 5 Second delay( 5000 ); }
getCH4.ino
// MEMS CH4 Gas // is CH4 void isCH4(){ // MEMS CH4 Gas y = analogRead( iSensorCH4 ); iSensorValueCH4 = map(y, 1, 4095, 1, 10000); }
getDisplay.ino
// DFRobot Display 240x320 // DFRobot Display 240x320 - UID void isDisplayUID() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // DFRobot Display screen.setCursor(0, 30); screen.println("DFRobot Display"); // Don Luc Electronics screen.setCursor(0, 60); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 90); screen.println("Version"); screen.setCursor(0, 120); screen.println( sver ); // EEPROM screen.setCursor(0, 150); screen.println("EEPROM"); screen.setCursor(0, 180); screen.println( uid ); } // DFRobot Display 240x320 - Temperature and Humidity, VOC, CH4, Smoke void isDisplayTH() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // Don Luc Electronics screen.setCursor(0, 30); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 60); screen.println( sver ); // Temperature screen.setCursor(0, 90); screen.println( "Temp: " ); screen.setCursor(60, 90); screen.println( T ); screen.setCursor(130, 90); screen.println("Celsius"); // Humidity screen.setCursor(0, 120); screen.println("Humi: "); screen.setCursor(60, 120); screen.println( H ); screen.setCursor(130, 120); screen.println("% RH"); // MEMS VOC Gas screen.setCursor(0, 150); screen.println( "VOC: " ); screen.setCursor(60, 150); screen.println( iSensorValueVOC ); screen.setCursor(130, 150); screen.println("ppm"); // MEMS CH4 Gas screen.setCursor(0, 180); screen.println( "CH4: " ); screen.setCursor(60, 180); screen.println( iSensorValueCH4 ); screen.setCursor(130, 180); screen.println("ppm"); // MEMS Smoke Gas screen.setCursor(0, 210); screen.println( "SMO: " ); screen.setCursor(60, 210); screen.println( iSensorValueSmoke ); screen.setCursor(130, 210); screen.println("ppm"); }
getEEPROM.ino
// EEPROM // isUID EEPROM Unique ID void isUID() { // Is Unit ID uid = ""; for (int x = 0; x < 7; x++) { uid = uid + char(EEPROM.read(x)); } }
getSD.ino
// MicroSD Card // MicroSD Setup void isSetupSD() { // MicroSD Card pinMode( chipSelect , OUTPUT ); if(!SD.begin( chipSelect )){ ; return; } uint8_t cardType = SD.cardType(); // CARD NONE if(cardType == CARD_NONE){ ; return; } // SD Card Type if(cardType == CARD_MMC){ ; } else if(cardType == CARD_SD){ ; } else if(cardType == CARD_SDHC){ ; } else { ; } // Size uint64_t cardSize = SD.cardSize() / (1024 * 1024); } // MicroSD Card void isSD() { zzzzzz = ""; //DFR|EEPROM Unique ID|Version| //Temperature C|% RH|VOC|CH4|Smoke|*\r zzzzzz = "DFR|" + uid + "|" + sver + "|" + String( T ) + "|" + String( H ) + "|" + String( iSensorValueVOC ) + "|" + String( iSensorValueCH4 ) + "|" + String( iSensorValueSmoke ) + "|*\r";; // msg + 1 char msg[zzzzzz.length() + 1]; zzzzzz.toCharArray(msg, zzzzzz.length() + 1); // Append File appendFile(SD, "/dfrdata.txt", msg ); } // List Dir void listDir(fs::FS &fs, const char * dirname, uint8_t levels){ // List Dir dirname; File root = fs.open(dirname); if(!root){ return; } if(!root.isDirectory()){ return; } File file = root.openNextFile(); while(file){ if(file.isDirectory()){ file.name(); if(levels){ listDir(fs, file.name(), levels -1); } } else { file.name(); file.size(); } file = root.openNextFile(); } } // Write File void writeFile(fs::FS &fs, const char * path, const char * message){ // Write File path; File file = fs.open(path, FILE_WRITE); if(!file){ return; } if(file.print(message)){ ; } else { ; } file.close(); } // Append File void appendFile(fs::FS &fs, const char * path, const char * message){ // Append File path; File file = fs.open(path, FILE_APPEND); if(!file){ return; } if(file.print(message)){ ; } else { ; } file.close(); }
getSHTC3.ino
// SHTC3 Temperature and Humidity Sensor // SHTC3 void isSHTC3(){ // SHTC3 Temperature and Humidity Sensor if (sht.readSample()) { // Temperature T = sht.getTemperature(); // Humidity H = sht.getHumidity(); } }
getSmoke.ino
// Smoke // isSmoke void isSmoke(){ // MEMS Smoke Gas z = analogRead( iSensorSmoke ); iSensorValueSmoke = map(x, 1, 4095, 1, 1000); }
getVOC.ino
// MEMS VOC Gas // is VOC void isVOC(){ // MEMS VOC Gas x = analogRead( iSensorVOC ); iSensorValueVOC = map(x, 1, 4095, 1, 500); }
setup.ino
// Setup void setup() { // Give display time to power on delay(100); // EEPROM Size EEPROM.begin(EEPROM_SIZE); // EEPROM Unique ID isUID(); // Delay delay( 100 ); // Wire Wire.begin(); // Delay delay( 100 ); // SHTC3 Temperature and Humidity Sensor sht.init(); // SHT3x sht.setAccuracy(SHTSensor::SHT_ACCURACY_MEDIUM); // Delay delay( 100 ); // DFRobot Display 240x320 screen.begin(); // Delay delay(100); // MicroSD Card isSetupSD(); // Initialize the LED Green pinMode(iLEDGreen, OUTPUT); // iLEDGreen HIGH digitalWrite(iLEDGreen, HIGH ); // DFRobot Display 240x320 - UID // Don Luc Electronics // Version // EEPROM isDisplayUID(); // Delay 5 Second delay( 5000 ); }
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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/
DFRobot Luc.Paquin: https://edu.dfrobot.com/dashboard/makelogs
Hackster.io: https://www.hackster.io/neosteam-labs
LinkedIn: https://www.linkedin.com/in/jlucpaquin/
Don Luc
Project #30 – UNIHIKER – Accelerometer and Gyroscope – Mk01
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#DonLucElectronics #DonLuc #UNIHIKER #Display #IoT #Project #Debian #Thonny #Programming #Electronics #Microcontrollers #Consultant
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UNIHIKER Accelerometer and Gyroscope
The UNIHIKER’s back panel is equipped with a 6-axis accelerometer-gyroscope sensor, capable of reading the X, Y, and Z values of acceleration individually, as well as the total strength in X, Y, and Z directions, and the X, Y, and Z values of the gyroscope.
DL2408Mk03
1 x UNIHIKER
1 x USB Battery Pack
1 x USB 3.1 Cable A to C
DL2408Mk03p
DL2408Mk03p.py
""" ****** Don Luc Electronics © ****** Software Version Information Project #30 - UNIHIKER - Accelerometer and Gyroscope - Mk01 30-01 DL2408Mk03p.py DL2408Mk03 1 x UNIHIKER 1 x USB Battery Pack 1 x USB 3.1 Cable A to C -*- coding: utf-8 -*- """ # Import the unihiker library from unihiker import GUI # Import the time library import time # Import the Board module from the pinpong.board package from pinpong.board import Board # Import all modules from the pinpong.extension.unihiker package from pinpong.extension.unihiker import * # Initialize the board by selecting the board type and port number; # if not specified, the program will automatically detect it Board().begin() # Instantiate the GUI class and create a gui object gui = GUI() # Display the initial background image 'dlemk02' img = gui.draw_image(x=0, y=0, w=240, h=320, image='dlemk02.png') # Accelerometer # Display the initial Accelerometer X valueAX valueAX = gui.draw_text(x=60, y=145, text='0', font_size=10) # Display the initial Accelerometer Y valueAY valueAY = gui.draw_text(x=60, y=170, text='0', font_size=10) # Display the initial Accelerometer Z valueAZ valueAZ = gui.draw_text(x=60, y=195, text='0', font_size=10) # Gyroscope # Display the initial Gyroscope X valueGX valueGX = gui.draw_text(x=60, y=240, text='0', font_size=10) # Display the initial Gyroscope Y valueGY valueGY = gui.draw_text(x=60, y=260, text='0', font_size=10) # Display the initial Gyroscope Z valueGZ valueGZ = gui.draw_text(x=60, y=285, text='0', font_size=10) while True: # Accelerometer # Display the Accelerometer X AX = accelerometer.get_x() # Update the displayed Accelerometer X valueAX valueAX.config(text=AX) # Display the Accelerometer Y AY = accelerometer.get_y() # Update the displayed Accelerometer Y valueAY valueAY.config(text=AY) # Display the Accelerometer Z AZ = accelerometer.get_z() # Update the displayed Accelerometer Z valueAZ valueAZ.config(text=AZ) # Gyroscope # Display the Gyroscope X GX = gyroscope.get_x() # Update the displayed Gyroscope X valueAX valueGX.config(text=GX) # Display the Gyroscope Y GY = gyroscope.get_y() # Update the displayed Gyroscope Y valueAY valueGY.config(text=GY) # Display the Gyroscope Z GZ = gyroscope.get_z() # Update the displayed Gyroscope Z valueAZ valueGZ.config(text=GZ) # Delay for 1 second to keep the screen content displayed for a longer time time.sleep(1)
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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/
DFRobot Luc.Paquin: https://edu.dfrobot.com/dashboard/makelogs
Hackster.io: https://www.hackster.io/neosteam-labs
LinkedIn: https://www.linkedin.com/in/jlucpaquin/
Don Luc
Project #29 – DFRobot – MEMS CH4 – Mk25
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#DonLucElectronics #DonLuc #DFRobot #CH4 #VOC #SHTC3 #FireBeetle2ESP32C6 #Display #EEPROM #ESP32 #IoT #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Fermion: MEMS Methane CH4 Gas Detection Sensor
Fermion: MEMS Methane CH4 Gas Detection Sensor employs state-of-the-art micro-electromechanical system (MEMS) technology, endowing the sensor with compact dimensions, low power consumption, minimal heat generation, short preheating time, and swift response recovery. The sensor can qualitatively measure methane gas concentration and is suitable for combustible gas leakage monitoring devices, gas leak detectors, fire/safety detection systems and other applications. Detection range: 1-10000 ppm. It is advisable to preheat the module for at least 24 hours.
DL2408Mk02
1 x FireBeetle 2 ESP32-C6
1 x Fermion: MEMS Methane CH4 Gas Detection Sensor
1 x Fermion: MEMS VOC Gas Detection Sensor
1 x Fermion: SHTC3 Temperature and Humidity Sensor
1 x Fermion: 2.0″ 320×240 IPS TFT LCD
1 x MicroSD 2 GB
1 x GDL Line 10 CM
1 x 1 x Lithium Ion Battery – 1000mAh
1 x USB 3.1 Cable A to C
FireBeetle 2 ESP32-C6
VOC – 2
CH4 – 3
SCK – 23
MOSI – 22
MISO – 21
CS – 18
SCL – 20
SDA – 19
DC – 8
CS – 1
RST – 14
VIN – +3.3V
GND – GND
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DL2408Mk02p.ino
/****** Don Luc Electronics © ****** Software Version Information Project #29 - DFRobot - MEMS CH4 - Mk25 29-25 DL2408Mk02p.ino DL2408Mk02 1 x FireBeetle 2 ESP32-C6 1 x Fermion: MEMS Methane CH4 Gas Detection Sensor 1 x Fermion: MEMS VOC Gas Detection Sensor 1 x Fermion: SHTC3 Temperature and Humidity Sensor 1 x Fermion: 2.0" 320x240 IPS TFT LCD 1 x MicroSD 2 GB 1 x GDL Line 10 CM 1 x 1 x Lithium Ion Battery - 1000mAh 1 x USB 3.1 Cable A to C */ // Include the Library Code // EEPROM Library to Read and Write EEPROM // with Unique ID for Unit #include "EEPROM.h" // DFRobot Display GDL API #include <DFRobot_GDL.h> // Arduino #include <Arduino.h> // Wire #include <Wire.h> // SHTC3 Temperature and Humidity Sensor #include "SHTSensor.h" // SD Card #include "FS.h" #include "SD.h" #include "SPI.h" // MEMS CH4 Gas int iSensorCH4 = 3; int iSensorValueCH4 = 0; int y = 0; // MEMS VOC Gas int iSensorVOC = 2; int iSensorValueVOC = 0; int x = 0; // MicroSD Card const int chipSelect = 18; String zzzzzz = ""; // SHTC3 Temperature and Humidity Sensor SHTSensor sht; // Temperature float T; // Humidity float H; // Defined ESP32 #define TFT_DC 8 #define TFT_CS 1 #define TFT_RST 14 /*dc=*/ /*cs=*/ /*rst=*/ // DFRobot Display 240x320 DFRobot_ST7789_240x320_HW_SPI screen(TFT_DC, TFT_CS, TFT_RST); // LED Green int iLEDGreen = 15; // EEPROM Unique ID Information #define EEPROM_SIZE 64 String uid = ""; // Software Version Information String sver = "29-25"; void loop() { // MEMS CH4 Gas isCH4(); // MEMS VOC Gas isVOC(); // SHTC3 Temperature and Humidity Sensor isSHTC3(); // DFRobot Display 240x320 - Temperature and Humidity, VOC, CH4 isDisplayTH(); // MicroSD Card isSD(); // Delay 5 Second delay( 5000 ); }
getCH4.ino
// MEMS CH4 Gas // is CH4 void isCH4(){ // MEMS CH4 Gas y = analogRead( iSensorCH4 ); iSensorValueCH4 = map(y, 1, 4095, 1, 10000); }
getDisplay.ino
// DFRobot Display 240x320 // DFRobot Display 240x320 - UID void isDisplayUID() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // DFRobot Display screen.setCursor(0, 30); screen.println("DFRobot Display"); // Don Luc Electronics screen.setCursor(0, 60); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 90); screen.println("Version"); screen.setCursor(0, 120); screen.println( sver ); // EEPROM screen.setCursor(0, 150); screen.println("EEPROM"); screen.setCursor(0, 180); screen.println( uid ); } // DFRobot Display 240x320 - Temperature and Humidity, VOC, CH4 void isDisplayTH() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // Don Luc Electronics screen.setCursor(0, 30); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 60); screen.println( sver ); // Temperature screen.setCursor(0, 90); screen.println( "Temp: " ); screen.setCursor(60, 90); screen.println( T ); screen.setCursor(130, 90); screen.println("Celsius"); // Humidity screen.setCursor(0, 120); screen.println("Humi: "); screen.setCursor(60, 120); screen.println( H ); screen.setCursor(130, 120); screen.println("% RH"); // MEMS VOC Gas screen.setCursor(0, 150); screen.println( "VOC: " ); screen.setCursor(60, 150); screen.println( iSensorValueVOC ); screen.setCursor(130, 150); screen.println("ppm"); // MEMS CH4 Gas screen.setCursor(0, 180); screen.println( "CH4: " ); screen.setCursor(60, 180); screen.println( iSensorValueCH4 ); screen.setCursor(130, 180); screen.println("ppm"); }
getEEPROM.ino
// EEPROM // isUID EEPROM Unique ID void isUID() { // Is Unit ID uid = ""; for (int x = 0; x < 7; x++) { uid = uid + char(EEPROM.read(x)); } }
getSD.ino
// MicroSD Card // MicroSD Setup void isSetupSD() { // MicroSD Card pinMode( chipSelect , OUTPUT ); if(!SD.begin( chipSelect )){ ; return; } uint8_t cardType = SD.cardType(); // CARD NONE if(cardType == CARD_NONE){ ; return; } // SD Card Type if(cardType == CARD_MMC){ ; } else if(cardType == CARD_SD){ ; } else if(cardType == CARD_SDHC){ ; } else { ; } // Size uint64_t cardSize = SD.cardSize() / (1024 * 1024); } // MicroSD Card void isSD() { zzzzzz = ""; //DFR|EEPROM Unique ID|Version| //Temperature C|% RH|VOC|CH4|*\r zzzzzz = "DFR|" + uid + "|" + sver + "|" + String( T ) + "|" + String( H ) + "|" + String( iSensorValueVOC ) + "|" + String( iSensorValueCH4 ) + "|*\r"; // msg + 1 char msg[zzzzzz.length() + 1]; zzzzzz.toCharArray(msg, zzzzzz.length() + 1); // Append File appendFile(SD, "/dfrdata.txt", msg ); } // List Dir void listDir(fs::FS &fs, const char * dirname, uint8_t levels){ // List Dir dirname; File root = fs.open(dirname); if(!root){ return; } if(!root.isDirectory()){ return; } File file = root.openNextFile(); while(file){ if(file.isDirectory()){ file.name(); if(levels){ listDir(fs, file.name(), levels -1); } } else { file.name(); file.size(); } file = root.openNextFile(); } } // Write File void writeFile(fs::FS &fs, const char * path, const char * message){ // Write File path; File file = fs.open(path, FILE_WRITE); if(!file){ return; } if(file.print(message)){ ; } else { ; } file.close(); } // Append File void appendFile(fs::FS &fs, const char * path, const char * message){ // Append File path; File file = fs.open(path, FILE_APPEND); if(!file){ return; } if(file.print(message)){ ; } else { ; } file.close(); }
getSHTC3.ino
// SHTC3 Temperature and Humidity Sensor // SHTC3 void isSHTC3(){ // SHTC3 Temperature and Humidity Sensor if (sht.readSample()) { // Temperature T = sht.getTemperature(); // Humidity H = sht.getHumidity(); } }
getVOC.ino
// MEMS VOC Gas // is VOC void isVOC(){ // MEMS VOC Gas x = analogRead( iSensorVOC ); iSensorValueVOC = map(x, 1, 4095, 1, 500); }
setup.ino
// Setup void setup() { // Give display time to power on delay(100); // EEPROM Size EEPROM.begin(EEPROM_SIZE); // EEPROM Unique ID isUID(); // Delay delay( 100 ); // Wire Wire.begin(); // Delay delay( 100 ); // SHTC3 Temperature and Humidity Sensor sht.init(); // SHT3x sht.setAccuracy(SHTSensor::SHT_ACCURACY_MEDIUM); // Delay delay( 100 ); // DFRobot Display 240x320 screen.begin(); // Delay delay(100); // MicroSD Card isSetupSD(); // Initialize the LED Green pinMode(iLEDGreen, OUTPUT); // iLEDGreen HIGH digitalWrite(iLEDGreen, HIGH ); // DFRobot Display 240x320 - UID // Don Luc Electronics // Version // EEPROM isDisplayUID(); // 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/
DFRobot Luc.Paquin: https://edu.dfrobot.com/dashboard/makelogs
Hackster.io: https://www.hackster.io/neosteam-labs
LinkedIn: https://www.linkedin.com/in/jlucpaquin/
Don Luc
Project #29 – DFRobot – UNIHIKER – Mk24
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#DonLucElectronics #DonLuc #DFRobot #UNIHIKER #Display #IoT #Project #Programming #Electronics #Microcontrollers #Consultant
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UNIHIKER
UNIHIKER is a single-board computer that brings you brand new experience. It features a 2.8-inch touchscreen, Wi-Fi and Bluetooth. It is equipped with light sensor, accelerometer, gyroscope and microphone. With built-in co-processor, it is able to communicate with various analog/digital/I2C/UART/SPI sensors and acuators.
UNIHIKER brings a whole new experience for developers with its pre-installed software, allowing for an incredibly fast and easy start. Featuring a built-in developers can program the single board computer using a smartphone or tablet. Of course, just like other single board computers, UNIHIKER supports Mu Editor, Jupyter Notebook, VS Code, VIM, and Thonny. The integrated PinPong control library allows developers to directly control UNIHIKER’s built-in sensors and hundreds of connected sensors and actuators using Python.
The built-in SIoT service on UNIHIKER allows users to store data through the MQTT protocol and provides real-time web data access. The best part is that all data is stored within the device itself. Compact, feature-rich, and user-friendly, UNIHIKER offers an innovative development experience for learning, coding, and creating. Unleash your imagination and embark on a new journey with UNIHIKER.
DL2408Mk01
1 x UNIHIKER
1 x USB 3.1 Cable A to C
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
Project #29 – DFRobot – MEMS VOC – Mk23
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#DonLucElectronics #DonLuc #DFRobot #VOC #SHTC3 #FireBeetle2ESP32C6 #Display #EEPROM #ESP32 #IoT #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Fermion: MEMS Volatile Organic Compounds VOC Gas Detection Sensor
Fermion: MEMS Volatile Organic Compounds VOC Gas Sensor employs state-of-the-art microelectromechanical system (MEMS) technology, endowing the sensor with compact dimensions, low power consumption, minimal heat generation, short preheating time, and swift response recovery. The sensor can qualitatively measure VOC gas concentration and is suitable for indoor air quality detection, fresh air system, air purifier and other application scenarios. Kindly remove the protective film before usage. Gas detected: ethanol, formaldehyde, toluene, etc. Detection range: 1-500 ppm. It is advisable to preheat the module for at least 24 hours.
DL2407Mk07
1 x FireBeetle 2 ESP32-C6
1 x Fermion: MEMS VOC Gas Detection Sensor
1 x Fermion: SHTC3 Temperature and Humidity Sensor
1 x Fermion: 2.0″ 320×240 IPS TFT LCD
1 x MicroSD 2 GB
1 x GDL Line 10 CM
1 x 1 x Lithium Ion Battery – 1000mAh
1 x USB 3.1 Cable A to C
FireBeetle 2 ESP32-C6
VOC – 2
SCK – 23
MOSI – 22
MISO – 21
CS – 18
SCL – 20
SDA – 19
DC – 8
CS – 1
RST – 14
VIN – +3.3V
GND – GND
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DL2407Mk07p.ino
/****** Don Luc Electronics © ****** Software Version Information Project #29 - DFRobot - MEMS VOC - Mk23 29-23 DL2407Mk07p.ino DL2407Mk07 1 x FireBeetle 2 ESP32-C6 1 x Fermion: MEMS VOC Gas Detection Sensor 1 x Fermion: SHTC3 Temperature and Humidity Sensor 1 x Fermion: 2.0" 320x240 IPS TFT LCD 1 x MicroSD 2 GB 1 x GDL Line 10 CM 1 x 1 x Lithium Ion Battery - 1000mAh 1 x USB 3.1 Cable A to C */ // Include the Library Code // EEPROM Library to Read and Write EEPROM // with Unique ID for Unit #include "EEPROM.h" // DFRobot Display GDL API #include <DFRobot_GDL.h> // Arduino #include <Arduino.h> // Wire #include <Wire.h> // SHTC3 Temperature and Humidity Sensor #include "SHTSensor.h" // SD Card #include "FS.h" #include "SD.h" #include "SPI.h" // MEMS VOC Gas int iSensorVOC = 2; int iSensorValueVOC = 0; int x = 0; // MicroSD Card const int chipSelect = 18; String zzzzzz = ""; // SHTC3 Temperature and Humidity Sensor SHTSensor sht; // Temperature float T; // Humidity float H; // Defined ESP32 #define TFT_DC 8 #define TFT_CS 1 #define TFT_RST 14 /*dc=*/ /*cs=*/ /*rst=*/ // DFRobot Display 240x320 DFRobot_ST7789_240x320_HW_SPI screen(TFT_DC, TFT_CS, TFT_RST); // LED Green int iLEDGreen = 15; // EEPROM Unique ID Information #define EEPROM_SIZE 64 String uid = ""; // Software Version Information String sver = "29-23"; void loop() { // MEMS VOC Gas isVOC(); // SHTC3 Temperature and Humidity Sensor isSHTC3(); // DFRobot Display 240x320 - Temperature and Humidity isDisplayTH(); // MicroSD Card isSD(); // Delay 5 Second delay( 5000 ); }
getDisplay.ino
// DFRobot Display 240x320 // DFRobot Display 240x320 - UID void isDisplayUID() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // DFRobot Display screen.setCursor(0, 30); screen.println("DFRobot Display"); // Don Luc Electronics screen.setCursor(0, 60); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 90); screen.println("Version"); screen.setCursor(0, 120); screen.println( sver ); // EEPROM screen.setCursor(0, 150); screen.println("EEPROM"); screen.setCursor(0, 180); screen.println( uid ); } // DFRobot Display 240x320 - Temperature and Humidity void isDisplayTH() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // Don Luc Electronics screen.setCursor(0, 30); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 60); screen.println( sver ); // Temperature screen.setCursor(0, 90); screen.println( "Temp: " ); screen.setCursor(60, 90); screen.println( T ); screen.setCursor(125, 90); screen.println("Celsius"); // Humidity screen.setCursor(0, 120); screen.println("Humi: "); screen.setCursor(60, 120); screen.println( H ); screen.setCursor(125, 120); screen.println("% RH"); // MEMS VOC Gas screen.setCursor(0, 150); screen.println( "VOC: " ); screen.setCursor(60, 150); screen.println( iSensorValueVOC ); screen.setCursor(125, 150); screen.println("ppm"); }
getEEPROM.ino
// EEPROM // isUID EEPROM Unique ID void isUID() { // Is Unit ID uid = ""; for (int x = 0; x < 7; x++) { uid = uid + char(EEPROM.read(x)); } }
getSD.ino
// MicroSD Card // MicroSD Setup void isSetupSD() { // MicroSD Card pinMode( chipSelect , OUTPUT ); if(!SD.begin( chipSelect )){ ; return; } uint8_t cardType = SD.cardType(); // CARD NONE if(cardType == CARD_NONE){ ; return; } // SD Card Type if(cardType == CARD_MMC){ ; } else if(cardType == CARD_SD){ ; } else if(cardType == CARD_SDHC){ ; } else { ; } // Size uint64_t cardSize = SD.cardSize() / (1024 * 1024); } // MicroSD Card void isSD() { zzzzzz = ""; //DFR|EEPROM Unique ID|Version| //Temperature C|% RH|VOC|*\r zzzzzz = "DFR|" + uid + "|" + sver + "|" + String( T ) + "|" + String( H ) + "|" + String( iSensorValueVOC ) + "|*\r"; // msg + 1 char msg[zzzzzz.length() + 1]; zzzzzz.toCharArray(msg, zzzzzz.length() + 1); // Append File appendFile(SD, "/dfrdata.txt", msg ); } // List Dir void listDir(fs::FS &fs, const char * dirname, uint8_t levels){ // List Dir dirname; File root = fs.open(dirname); if(!root){ return; } if(!root.isDirectory()){ return; } File file = root.openNextFile(); while(file){ if(file.isDirectory()){ file.name(); if(levels){ listDir(fs, file.name(), levels -1); } } else { file.name(); file.size(); } file = root.openNextFile(); } } // Write File void writeFile(fs::FS &fs, const char * path, const char * message){ // Write File path; File file = fs.open(path, FILE_WRITE); if(!file){ return; } if(file.print(message)){ ; } else { ; } file.close(); } // Append File void appendFile(fs::FS &fs, const char * path, const char * message){ // Append File path; File file = fs.open(path, FILE_APPEND); if(!file){ return; } if(file.print(message)){ ; } else { ; } file.close(); }
getSHTC3.ino
// SHTC3 Temperature and Humidity Sensor // SHTC3 void isSHTC3(){ // SHTC3 Temperature and Humidity Sensor if (sht.readSample()) { // Temperature T = sht.getTemperature(); // Humidity H = sht.getHumidity(); } }
getVOC.ino
// MEMS VOC Gas // is VOC void isVOC(){ // MEMS VOC Gas x = analogRead( iSensorVOC ); iSensorValueVOC = map(x, 1, 4095, 1, 500); }
setup.ino
// Setup void setup() { // Give display time to power on delay(100); // EEPROM Size EEPROM.begin(EEPROM_SIZE); // EEPROM Unique ID isUID(); // Delay delay( 100 ); // Wire Wire.begin(); // Delay delay( 100 ); // SHTC3 Temperature and Humidity Sensor sht.init(); // SHT3x sht.setAccuracy(SHTSensor::SHT_ACCURACY_MEDIUM); // Delay delay( 100 ); // DFRobot Display 240x320 screen.begin(); // Delay delay(100); // MicroSD Card isSetupSD(); // Initialize the LED Green pinMode(iLEDGreen, OUTPUT); // iLEDGreen HIGH digitalWrite(iLEDGreen, HIGH ); // DFRobot Display 240x320 - UID // Don Luc Electronics // Version // EEPROM isDisplayUID(); // 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
Project #29 – DFRobot – SD Card – Mk22
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#DonLucElectronics #DonLuc #DFRobot #SHTC3 #FireBeetle2ESP32C6 #Display #EEPROM #ESP32 #IoT #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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SD Card
Secure Digital, officially abbreviated as SD, is a proprietary, non-volatile, flash memory card format the SD Association (SDA) developed for use in portable devices. Because of their small physical dimensions, SD cards became widely used in many consumer electronic devices, such as Arduino, digital cameras, camcorders, video game consoles, mobile phones, action cameras such as the GoPro Hero series, and camera drones.
DL2407Mk06
1 x FireBeetle 2 ESP32-C6
1 x Fermion: SHTC3 Temperature and Humidity Sensor
1 x Fermion: 2.0″ 320×240 IPS TFT LCD
1 x MicroSD 2 GB
1 x GDL Line 10 CM
1 x 1 x Lithium Ion Battery – 1000mAh
1 x USB 3.1 Cable A to C
FireBeetle 2 ESP32-C6
SCK – 23
MOSI – 22
MISO – 21
CS – 18
SCL – 20
SDA – 19
DC – 8
CS – 1
RST – 14
VIN – +3.3V
GND – GND
——
DL2407Mk06p.ino
/****** Don Luc Electronics © ****** Software Version Information Project #29 - DFRobot - SD Card - Mk22 29-22 DL2407Mk06p.ino DL2407Mk06 1 x FireBeetle 2 ESP32-C6 1 x Fermion: SHTC3 Temperature and Humidity Sensor 1 x Fermion: 2.0" 320x240 IPS TFT LCD 1 x MicroSD 2 GB 1 x GDL Line 10 CM 1 x 1 x Lithium Ion Battery - 1000mAh 1 x USB 3.1 Cable A to C */ // Include the Library Code // EEPROM Library to Read and Write EEPROM // with Unique ID for Unit #include "EEPROM.h" // DFRobot Display GDL API #include <DFRobot_GDL.h> // Arduino #include <Arduino.h> // Wire #include <Wire.h> // SHTC3 Temperature and Humidity Sensor #include "SHTSensor.h" // SD Card #include "FS.h" #include "SD.h" #include "SPI.h" // MicroSD Card const int chipSelect = 18; String zzzzzz = ""; // SHTC3 Temperature and Humidity Sensor SHTSensor sht; // Temperature float T; // Humidity float H; // Defined ESP32 #define TFT_DC 8 #define TFT_CS 1 #define TFT_RST 14 /*dc=*/ /*cs=*/ /*rst=*/ // DFRobot Display 240x320 DFRobot_ST7789_240x320_HW_SPI screen(TFT_DC, TFT_CS, TFT_RST); // LED Green int iLEDGreen = 15; // EEPROM Unique ID Information #define EEPROM_SIZE 64 String uid = ""; // Software Version Information String sver = "29-22"; void loop() { // SHTC3 Temperature and Humidity Sensor isSHTC3(); // DFRobot Display 240x320 - Temperature and Humidity isDisplayTH(); // MicroSD Card isSD(); // Delay 5 Second delay( 5000 ); }
getDisplay.ino
// DFRobot Display 240x320 // DFRobot Display 240x320 - UID void isDisplayUID() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // DFRobot Display screen.setCursor(0, 30); screen.println("DFRobot Display"); // Don Luc Electronics screen.setCursor(0, 60); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 90); screen.println("Version"); screen.setCursor(0, 120); screen.println( sver ); // EEPROM screen.setCursor(0, 150); screen.println("EEPROM"); screen.setCursor(0, 180); screen.println( uid ); } // DFRobot Display 240x320 - Temperature and Humidity void isDisplayTH() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // Don Luc Electronics screen.setCursor(0, 30); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 60); screen.println( sver ); // Temperature // Text Color => red screen.setTextColor(0xf800); screen.setCursor(0, 90); screen.println( "Temperature" ); screen.setCursor(0, 120); screen.println( T ); screen.setCursor(100, 120); screen.println("Celsius"); // Humidity // Text Color => blue screen.setTextColor(0x001f); screen.setCursor(0, 150); screen.println("Humidity"); screen.setCursor(0, 180); screen.println( H ); screen.setCursor(100, 180); screen.println("% RH"); }
getEEPROM.ino
// EEPROM // isUID EEPROM Unique ID void isUID() { // Is Unit ID uid = ""; for (int x = 0; x < 7; x++) { uid = uid + char(EEPROM.read(x)); } }
getSD.ino
// MicroSD Card // MicroSD Setup void isSetupSD() { // MicroSD Card pinMode( chipSelect , OUTPUT ); if(!SD.begin( chipSelect )){ ; return; } uint8_t cardType = SD.cardType(); // CARD NONE if(cardType == CARD_NONE){ ; return; } // SD Card Type if(cardType == CARD_MMC){ ; } else if(cardType == CARD_SD){ ; } else if(cardType == CARD_SDHC){ ; } else { ; } // Size uint64_t cardSize = SD.cardSize() / (1024 * 1024); } // MicroSD Card void isSD() { zzzzzz = ""; //DFR|EEPROM Unique ID|Version| //Temperature C|% RH|*\r zzzzzz = "DFR|" + uid + "|" + sver + "|" + String( T ) + "|" + String( H ) + "|*\r"; // msg + 1 char msg[zzzzzz.length() + 1]; zzzzzz.toCharArray(msg, zzzzzz.length() + 1); // Append File appendFile(SD, "/dfrdata.txt", msg ); } // List Dir void listDir(fs::FS &fs, const char * dirname, uint8_t levels){ // List Dir dirname; File root = fs.open(dirname); if(!root){ return; } if(!root.isDirectory()){ return; } File file = root.openNextFile(); while(file){ if(file.isDirectory()){ file.name(); if(levels){ listDir(fs, file.name(), levels -1); } } else { file.name(); file.size(); } file = root.openNextFile(); } } // Write File void writeFile(fs::FS &fs, const char * path, const char * message){ // Write File path; File file = fs.open(path, FILE_WRITE); if(!file){ return; } if(file.print(message)){ ; } else { ; } file.close(); } // Append File void appendFile(fs::FS &fs, const char * path, const char * message){ // Append File path; File file = fs.open(path, FILE_APPEND); if(!file){ return; } if(file.print(message)){ ; } else { ; } file.close(); }
getSHTC3.ino
// SHTC3 Temperature and Humidity Sensor // SHTC3 void isSHTC3(){ // SHTC3 Temperature and Humidity Sensor if (sht.readSample()) { // Temperature T = sht.getTemperature(); // Humidity H = sht.getHumidity(); } }
setup.ino
// Setup void setup() { // Give display time to power on delay(100); // EEPROM Size EEPROM.begin(EEPROM_SIZE); // EEPROM Unique ID isUID(); // Delay delay( 100 ); // Wire Wire.begin(); // Delay delay( 100 ); // SHTC3 Temperature and Humidity Sensor sht.init(); // SHT3x sht.setAccuracy(SHTSensor::SHT_ACCURACY_MEDIUM); // Delay delay( 100 ); // DFRobot Display 240x320 screen.begin(); // Delay delay(100); // MicroSD Card isSetupSD(); // Initialize the LED Green pinMode(iLEDGreen, OUTPUT); // iLEDGreen HIGH digitalWrite(iLEDGreen, HIGH ); // DFRobot Display 240x320 - UID // Don Luc Electronics // Version // EEPROM isDisplayUID(); // 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
Project #29 – DFRobot – SHTC3 – Mk21
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#DonLucElectronics #DonLuc #DFRobot #SHTC3 #FireBeetle2ESP32C6 #Display #EEPROM #ESP32 #IoT #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Fermion: SHTC3 Temperature and Humidity Sensor
The SHTC3 digital humidity sensor from Sensirion builds on the success of the proven SHTC1 sensor and offers consistent high accuracy within the measuring range. The sensor covers a humidity measurement range of 0 to 100% RH and a temperature detection range of -40 Celsius to 125 Celsius with a typical accuracy of ±2% RH and ±0.2 Celsius. The board supply voltage of 3.3 Volt to 5 Volt and a current consumption below 0.15mA in low power mode make the SHTC3 perfectly suitable for mobile or wireless battery-driven applications.
DL2407Mk05
1 x FireBeetle 2 ESP32-C6
1 x Fermion: SHTC3 Temperature and Humidity Sensor
1 x Fermion: 2.0″ 320×240 IPS TFT LCD
1 x GDL Line 10 CM
1 x 1 x Lithium Ion Battery – 1000mAh
1 x USB 3.1 Cable A to C
FireBeetle 2 ESP32-C6
SCL – 20
SDA – 19
DC – 8
CS – 1
RST – 14
VIN – +3.3V
GND – GND
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DL2407Mk05p.ino
/****** Don Luc Electronics © ****** Software Version Information Project #29 - DFRobot - SHTC3 - Mk21 29-21 DL2407Mk05p.ino DL2407Mk05 1 x FireBeetle 2 ESP32-C6 1 x Fermion: SHTC3 Temperature and Humidity Sensor 1 x Fermion: 2.0" 320x240 IPS TFT LCD 1 x GDL Line 10 CM 1 x 1 x Lithium Ion Battery - 1000mAh 1 x USB 3.1 Cable A to C */ // Include the Library Code // EEPROM Library to Read and Write EEPROM // with Unique ID for Unit #include "EEPROM.h" // DFRobot Display GDL API #include <DFRobot_GDL.h> // Arduino #include <Arduino.h> // Wire #include <Wire.h> // SHTC3 Temperature and Humidity Sensor #include "SHTSensor.h" // SHTC3 Temperature and Humidity Sensor SHTSensor sht; // Temperature float T; // Humidity float H; // Defined ESP32 #define TFT_DC 8 #define TFT_CS 1 #define TFT_RST 14 /*dc=*/ /*cs=*/ /*rst=*/ // DFRobot Display 240x320 DFRobot_ST7789_240x320_HW_SPI screen(TFT_DC, TFT_CS, TFT_RST); // LED Green int iLEDGreen = 15; // EEPROM Unique ID Information #define EEPROM_SIZE 64 String uid = ""; // Software Version Information String sver = "29-21"; void loop() { // SHTC3 Temperature and Humidity Sensor isSHTC3(); // DFRobot Display 240x320 - Temperature and Humidity isDisplayTH(); // Delay 5 Second delay( 5000 ); }
getDisplay.ino
// DFRobot Display 240x320 // DFRobot Display 240x320 - UID void isDisplayUID() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // DFRobot Display screen.setCursor(0, 30); screen.println("DFRobot Display"); // Don Luc Electronics screen.setCursor(0, 60); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 90); screen.println("Version"); screen.setCursor(0, 120); screen.println( sver ); // EEPROM screen.setCursor(0, 150); screen.println("EEPROM"); screen.setCursor(0, 180); screen.println( uid ); } // DFRobot Display 240x320 - Temperature and Humidity void isDisplayTH() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => black screen.fillScreen(0x0000); // Text Color => white screen.setTextColor(0xffff); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // Don Luc Electronics screen.setCursor(0, 30); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 60); screen.println( sver ); // Temperature // Text Color => red screen.setTextColor(0xf800); screen.setCursor(0, 90); screen.println( "Temperature" ); screen.setCursor(0, 120); screen.println( T ); screen.setCursor(100, 120); screen.println("Celsius"); // Humidity // Text Color => blue screen.setTextColor(0x001f); screen.setCursor(0, 150); screen.println("Humidity"); screen.setCursor(0, 180); screen.println( H ); screen.setCursor(100, 180); screen.println("% RH"); }
getEEPROM.ino
// EEPROM // isUID EEPROM Unique ID void isUID() { // Is Unit ID uid = ""; for (int x = 0; x < 7; x++) { uid = uid + char(EEPROM.read(x)); } }
getSHTC3.ino
// SHTC3 Temperature and Humidity Sensor // SHTC3 void isSHTC3(){ // SHTC3 Temperature and Humidity Sensor if (sht.readSample()) { // Temperature T = sht.getTemperature(); // Humidity H = sht.getHumidity(); } }
setup.ino
// Setup void setup() { // Give display time to power on delay(100); // EEPROM Size EEPROM.begin(EEPROM_SIZE); // EEPROM Unique ID isUID(); // Delay delay( 100 ); // Wire Wire.begin(); // Delay delay( 100 ); // SHTC3 Temperature and Humidity Sensor sht.init(); // SHT3x sht.setAccuracy(SHTSensor::SHT_ACCURACY_MEDIUM); // Delay delay( 100 ); // DFRobot Display 240x320 screen.begin(); // Initialize the LED Green pinMode(iLEDGreen, OUTPUT); // iLEDGreen HIGH digitalWrite(iLEDGreen, HIGH ); // DFRobot Display 240x320 - UID // Don Luc Electronics // Version // EEPROM isDisplayUID(); // Delay 5 Second delay( 5000 ); }
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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/
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LinkedIn: https://www.linkedin.com/in/jlucpaquin/
Don Luc
Project #29 – DFRobot – ESP32-C6 and LCD Display – Mk20
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#DonLucElectronics #DonLuc #DFRobot #FireBeetle2ESP32C6 #Display #EEPROM #ESP32 #IoT #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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FireBeetle 2 ESP32-C6
The FireBeetle 2 ESP32-C6 is a versatile low-power IoT controller board designed for Smart Home Automation, control and monitoring system. It features a 160MHz RISC-V 32-bit processor, providing excellent energy efficiency and flexibility for Internet of Things (IoT) projects. The board supports multiple communication protocols, including Wi-Fi 6, Bluetooth 5, Zigbee 3.0, and Thread 1.3, enabling versatile wireless connectivity.
Fermion: 2.0″ 320×240 IPS TFT LCD
This 2.0 inches LCD display adopts ST7789V driver chip and has 320 x 240 color pixels, performing excellently in the angle of view. It supports SPI communication mode and GDI port, plug, and play. The module can be powered by 3.3 Volt ~ 5 Volt, compatible with multiple main-controllers like Arduino UNO, Leonardo, ESP32, ESP8266, FireBeetle M0, and so on. Besides, there is an onboard MicroSD card slot for displaying more pictures.
DL2407Mk04
1 x FireBeetle 2 ESP32-C6
1 x Fermion: 2.0″ 320×240 IPS TFT LCD
1 x GDL Line 10 CM
1 x 1 x Lithium Ion Battery – 1000mAh
1 x USB 3.1 Cable A to C
FireBeetle 2 ESP32-C6
DC – 8
CS – 1
RST – 14
VIN – +3.3V
GND – GND
DL2407Mk04p.ino
/****** Don Luc Electronics © ****** Software Version Information Project #29 - DFRobot - ESP32-C6 and LCD Display - Mk20 29-20 DL2407Mk04p.ino DL2407Mk04 1 x FireBeetle 2 ESP32-C6 1 x Fermion: 2.0" 320x240 IPS TFT LCD 1 x GDL Line 10 CM 1 x 1 x Lithium Ion Battery - 1000mAh 1 x USB 3.1 Cable A to C */ // Include the Library Code // EEPROM Library to Read and Write EEPROM // with Unique ID for Unit #include "EEPROM.h" // DFRobot Display GDL API #include <DFRobot_GDL.h> // Defined ESP32 #define TFT_DC 8 #define TFT_CS 1 #define TFT_RST 14 /*dc=*/ /*cs=*/ /*rst=*/ // DFRobot Display 240x320 DFRobot_ST7789_240x320_HW_SPI screen(TFT_DC, TFT_CS, TFT_RST); // VID int VID = 0; String zzzzzz = ""; // LED Green int iLEDGreen = 15; // EEPROM Unique ID Information #define EEPROM_SIZE 64 String uid = ""; // Software Version Information String sver = "29-20"; void loop() { // VID VID = VID + 1; // DFRobot Display 240x320 - VID isDisplayVID(); // Delay 5 Second delay( 5000 ); }
getDisplay.ino
// DFRobot Display 240x320 // DFRobot Display 240x320 - UID void isDisplayUID() { // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => ghostwhite screen.fillScreen(0xf7bf); // Text Color => black screen.setTextColor(0x0000); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // DFRobot Display screen.setCursor(0, 30); screen.println("DFRobot Display"); // Don Luc Electronics screen.setCursor(0, 60); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 90); screen.println("Version"); screen.setCursor(0, 120); screen.println( sver ); // EEPROM screen.setCursor(0, 150); screen.println("EEPROM"); screen.setCursor(0, 180); screen.println( uid ); } // DFRobot Display 240x320 - VID void isDisplayVID() { // zzzzzz = VID zzzzzz = String(VID); // DFRobot Display 240x320 // Text Display // Text Wrap screen.setTextWrap(false); // Rotation screen.setRotation(3); // Fill Screen => ghostwhite screen.fillScreen(0xf7bf); // Text Color => black screen.setTextColor(0x0000); // Font => Free Mono 9pt screen.setFont(&FreeMono9pt7b); // TextSize => 1.5 screen.setTextSize(1.5); // DFRobot Display screen.setCursor(0, 30); screen.println("DFRobot Display"); // Don Luc Electronics screen.setCursor(0, 60); screen.println("Don Luc Electronics"); // Version screen.setCursor(0, 90); screen.println( sver ); // EEPROM screen.setCursor(0, 120); screen.println( uid ); // Text Color => red screen.setTextColor(0xf800); // VID screen.setCursor(0, 150); screen.println("VID"); screen.setCursor(0, 180); screen.println( zzzzzz ); }
getEEPROM.ino
// EEPROM // isUID EEPROM Unique ID void isUID() { // Is Unit ID uid = ""; for (int x = 0; x < 7; x++) { uid = uid + char(EEPROM.read(x)); } }
setup.ino
// Setup void setup() { // Give display time to power on delay(100); // EEPROM Size EEPROM.begin(EEPROM_SIZE); // EEPROM Unique ID isUID(); // Delay delay( 100 ); // Delay delay( 100 ); // DFRobot Display 240x320 screen.begin(); // Initialize the LED Green pinMode(iLEDGreen, OUTPUT); // iLEDGreen HIGH digitalWrite(iLEDGreen, HIGH ); // DFRobot Display 240x320 - UID // Don Luc Electronics // Version // EEPROM isDisplayUID(); // Delay 5 Second delay( 5000 ); }
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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
Project #16: Sound – Music Shield – Mk25
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#DonLucElectronics #DonLuc #ArduinoUno #Seeed #MusicShield #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Seeed Studio: Music Shield V1.2
The Music Shield is a professional audio codec. It can work with Arduino, Seeeduino, Seeeduino Mega and Arduino Mega. It is based on VS1053b IC, and can play a variety of music formats stored on MicroSD cards with Seeed the provided Arduino Library. Recording is only supported on Seeeduino Mega and Arduino Mega for now.
- Arduino, Seeeduino, Arduino Mega, and Seeeduino Mega compatible
- 2 control-push buttons and 1 knob switch
- Plays music from micro SD cards Decodes: MP3, WAV, MIDI, Ogg Vorbis
- I2S interface for external DAC
- Headphone/Line Out for playback
- Line In for recording in OGG format
- Excellent sound quality with ±1 dB Frequency Response
- FCC verification
Insert the Micro SD card and the earphone. Plug the Music Shield onto the Arduino. Connect the board to PC using USB cable.
DL2407Mk01
1 x Arduino Uno – R3
1 x Seeed Music Shield V1.1
1 x MicroSD 2 GB
1 x Speakers
1 x SparkFun Cerberus USB Cable
Arduino Uno – R3
VOU – 3
RNS – 4
RP&S – 5
RPS – 6
VOD – 7
LED – 8
SPI – 10
MOSI – 11
MISO – 12
SCK – 13
RES – A0
VS1 – A1
VS2 – A2
VS3 – A3
VIN – +5V
GND – GND
DL2407Mk01p.ino
/****** Don Luc Electronics © ****** Software Version Information Project #16: Sound – Music Shield – Mk25 16-25 DL2407Mk01p.ino DL2407Mk01 1 x Arduino Uno - R3 1 x Seeed Music Shield V1.1 1 x MicroSD 2 GB 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // Fat 16 #include <Fat16.h> #include <Fat16Util.h> // New SPI #include <NewSPI.h> // Arduino #include <arduino.h> // Seeed Music Player #include "pins_config.h" #include "vs10xx.h" #include "newSDLib.h" #include "MusicPlayer.h" // Seeed Music Player MusicPlayer myplayer; // Software Version Information String sver = "16-25"; void loop() { // Seeed Music Player isMusicPlayer(); }
getMusicPlayer.ino
// Seeed Music Player // is Music Player void isMusicPlayer() { // Seeed Music Player // Set mode to play shuffle myplayer.setPlayMode(MODE_SHUFFLE); //Otherwise it will add the current song to the new playlist. //If the current playlist is empty,it will add all the songs // in the root directory to the playlist. myplayer.creatPlaylist(); // Play List myplayer.playList(); // While while(1); }
setup.ino
// Setup void setup() { // Give display time to power on delay(100); // Seeed Music Player // Will initialize the hardware and set default mode to be normal myplayer.begin(); // Delay 5 Second delay( 5000 ); }
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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