Project #29 – DFRobot – L3G4200D – Mk18
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#DonLucElectronics #DonLuc #DFRobot #L3G4200D #HMC5883L #ADXL335 #GPS #FireBeetle2ESP32E #EEPROM #RTC #SD #Display #SparkFun #ESP32 #IoT #Arduino #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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SparkFun Tri-Axis Gyroscope – L3G4200D
This is a breakout board for the L3G4200D low-power three-axis angular rate sensor. The L3G4200D is a MEMS motion sensor and has a full scale of dps and is capable of measuring rates with a user-selectable bandwidth. These work great in gaming and virtual reality input devices, motion control with MMI, GPS navigation systems, appliances and robotics. The L3G4200D is a low-power three-axis angular rate sensor able to provide unprecedented stablility of zero rate level and sensitivity over temperature and time. It includes a sensing element and an IC interface capable of providing the measured angular rate to the external world through a digital interface.
DL2406Mk05
1 x DFRobot FireBeetle 2 ESP32-E
1 x Adafruit SHARP Memory Display
1 x Adafruit MicroSD card breakout board+
1 x MicroSD 16 GB
1 x SparkFun Triple Axis Accelerometer ADXL335
1 x SparkFun Triple Axis Magnetometer HMC5883L
1 x SparkFun Tri-Axis Gyroscope L3G4200D
1 x GPS Receiver – GP-20U7
2 x Switch
1 x 1K Ohm
1 x 1 x Lithium Ion Battery – 1000mAh
1 x Green LED
1 x USB 3.1 Cable A to C
DFRobot FireBeetle 2 ESP32-E
LED – 2
DSCK – 4
DMOSI – 16
DSS – 17
SCK – 22
MOSI – 23
MISO – 19
CS – 13
GPR – 26
GPT – 25
SCL – 21
SDA – 22
LED – 14
SWI – 3
XAC – A0
YAC – A1
ZAC – A2
VIN – +3.3V
GND – GND
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DL2406Mk05p.ino
/****** Don Luc Electronics © ****** Software Version Information Project #29 - DFRobot - L3G4200D - Mk18 29-18 DL2406Mk05p.ino DL2406Mk05 1 x DFRobot FireBeetle 2 ESP32-E 1 x Adafruit SHARP Memory Display 1 x Adafruit MicroSD card breakout board+ 1 x MicroSD 16 GB 1 x SparkFun Triple Axis Magnetometer HMC5883L 1 x SparkFun Triple Axis Accelerometer ADXL335 1 x SparkFun Tri-Axis Gyroscope L3G4200D 1 x GPS Receiver - GP-20U7 2 x Switch 1 x 1K Ohm 1 x 1 x Lithium Ion Battery - 1000mAh 1 x Green LED 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" // Wire #include <Wire.h> // SD Card #include "FS.h" #include "SD.h" #include "SPI.h" // SHARP Memory Display #include <Adafruit_SharpMem.h> #include <Adafruit_GFX.h> // GPS Receiver #include <TinyGPS++.h> // ESP32 Hardware Serial #include <HardwareSerial.h> // Triple Axis Magnetometer #include <HMC5883L.h> // Gyroscope #include <L3G4200D.h> // Gyroscope L3G4200D gyroscope; // Timers unsigned long timer = 0; float timeStep = 0.01; // Pitch, Roll and Yaw values float pitch = 0; float roll = 0; float yaw = 0; // Triple Axis Magnetometer HMC5883L compass; // Triple Axis Magnetometer int mX = 0; int mY = 0; int mZ = 0; // Accelerometer ADXL335 int iX = A0; int iY = A1; int iZ = A2; // Accelerometer int X = 0; int Y = 0; int Z = 0; // ESP32 HardwareSerial HardwareSerial tGPS(2); // GPS Receiver #define gpsRXPIN 26 // This one is unused and doesnt have a conection #define gpsTXPIN 25 // The TinyGPS++ object TinyGPSPlus gps; // Latitude float TargetLat; // Longitude float TargetLon; // GPS Date, Time, Speed, Altitude // GPS Date String TargetDat; // GPS Time String TargetTim; // GPS Speeds M/S String TargetSMS; // GPS Speeds Km/h String TargetSKH; // GPS Altitude Meters String TargetALT; // GPS Status String GPSSt = ""; // MicroSD Card const int chipSelect = 13; String zzzzzz = ""; // SHARP Memory Display #define SHARP_SCK 4 #define SHARP_MOSI 16 #define SHARP_SS 17 // Set the size of the display here, e.g. 144x168! Adafruit_SharpMem display(SHARP_SCK, SHARP_MOSI, SHARP_SS, 144, 168); // The currently-available SHARP Memory Display (144x168 pixels) // requires > 4K of microcontroller RAM; it WILL NOT WORK on Arduino Uno // or other <4K "classic" devices. #define BLACK 0 #define WHITE 1 // LED Green int iLEDGreen = 2; // Define LED int iLED = 14; // Switch int iSwitch = 3; // Variable for reading the Switch status int iSwitchState = 0; // EEPROM Unique ID Information #define EEPROM_SIZE 64 String uid = ""; // Software Version Information String sver = "29-18"; void loop() { // isGPS isGPS(); // Accelerometer ADXL335 isADXL335(); // Magnetometer isMagnetometer(); // Gyroscope isGyroscope(); // Read the state of the Switch value iSwitchState = digitalRead(iSwitch); // The Switch is HIGH: if (iSwitchState == HIGH) { // Display Accelerometer ADXL335 isDisplayADXL335(); } else { // Display GPS isDisplayGPS(); } // MicroSD Card isSD(); // iLED HIGH digitalWrite(iLED, HIGH ); // Delay 5 Second delay(5000); }
getAccelerometer.ino
// Accelerometer ADXL335 // ADXL335 void isADXL335() { // Accelerometer ADXL335 // Accelerometer X, Y, Z // X X = analogRead(iX); // Y Y = analogRead(iY); // Z Z = analogRead(iZ); }
getDisplay.ino
// SHARP Memory Display // SHARP Memory Display - UID void isDisplayUID() { // Text Display // Clear Display display.clearDisplay(); display.setRotation(4); display.setTextSize(3); display.setTextColor(BLACK); // Don Luc Electronics display.setCursor(0,10); display.println( "Don Luc" ); display.setTextSize(2); display.setCursor(0,40); display.println( "Electronics" ); // Version //display.setTextSize(3); display.setCursor(0,70); display.println( "Version" ); //display.setTextSize(2); display.setCursor(0,95); display.println( sver ); // EEPROM display.setCursor(0,120); display.println( "EEPROM" ); display.setCursor(0,140); display.println( uid ); // Refresh display.refresh(); delay( 100 ); } // Display Accelerometer ADXL335 void isDisplayADXL335() { // Text Display // Clear Display display.clearDisplay(); display.setRotation(4); display.setTextSize(1); display.setTextColor(BLACK); // Accelerometer X display.setCursor(0,5); display.print( "AX: " ); display.println( X ); // Accelerometer Y display.setCursor(0,20); display.print( "AY: " ); display.println( Y ); // Accelerometer Z display.setCursor(0,35); display.print( "AZ: " ); display.println( Z ); // Magnetometer X display.setCursor(0,50); display.print( "MX: " ); display.println( mX ); // Magnetometer Y display.setCursor(0,65); display.print( "MY: " ); display.println( mY ); // Magnetometer Z display.setCursor(0,80); display.print( "MZ: " ); display.println( mZ ); // Gyroscope Pitch display.setCursor(0,95); display.print( "Pitch: " ); display.println( pitch ); // Gyroscope Roll display.setCursor(0,110); display.print( "Roll: " ); display.println( roll ); // Gyroscope Yaw display.setCursor(0,125); display.print( "Yaw: " ); display.println( yaw ); // Refresh display.refresh(); delay( 100 ); } // Display GPS void isDisplayGPS() { // Text Display Date // Clear Display display.clearDisplay(); display.setRotation(4); display.setTextSize(2); display.setTextColor(BLACK); // Latitude display.setCursor(0,5); display.print( "Lat: " ); display.println( TargetLat ); // Longitude display.setCursor(0,30); display.print( "Lon: " ); display.println( TargetLon ); // GPS Date display.setCursor(0,55); display.println( TargetDat ); // GPS Time display.setCursor(0,80); display.println( TargetTim ); // GPS Speed M/S display.setCursor(0,105); display.print( TargetSMS ); display.println( " M/S" ); // GPS Altitude Meters display.setCursor(0,130); display.print( TargetALT ); display.println( " M" ); // Refresh display.refresh(); delay( 100 ); }
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)); } }
getGPS.ino
// GPS Receiver // Setup GPS void isSetupGPS() { // Setup GPS tGPS.begin( 9600 , SERIAL_8N1 , gpsRXPIN , gpsTXPIN ); } // isGPS void isGPS(){ // Receives NEMA data from GPS receiver // This sketch displays information every time a new sentence is correctly encoded while ( tGPS.available() > 0) if (gps.encode( tGPS.read() )) { // GPS Vector Pointer Target displayInfo(); // GPS Date, Time, Speed, Altitude displayDTS(); } if (millis() > 5000 && gps.charsProcessed() < 10) { while(true); } } // GPS Vector Pointer Target void displayInfo(){ // Location if (gps.location.isValid()) { // Latitude TargetLat = gps.location.lat(); // Longitude TargetLon = gps.location.lng(); // GPS Status 2 GPSSt = "Yes"; } else { // GPS Status 0 GPSSt = "No"; } } // GPS Date, Time, Speed, Altitude void displayDTS(){ // Date TargetDat = ""; if (gps.date.isValid()) { // Date // Year TargetDat += String(gps.date.year(), DEC); TargetDat += "/"; // Month TargetDat += String(gps.date.month(), DEC); TargetDat += "/"; // Day TargetDat += String(gps.date.day(), DEC); } // Time TargetTim = ""; if (gps.time.isValid()) { // Time // Hour TargetTim += String(gps.time.hour(), DEC); TargetTim += ":"; // Minute TargetTim += String(gps.time.minute(), DEC); TargetTim += ":"; // Secound TargetTim += String(gps.time.second(), DEC); } // Speed TargetSMS = ""; TargetSKH = ""; if (gps.speed.isValid()) { // Speed // M/S int x = gps.speed.mps(); TargetSMS = String( x, DEC); // Km/h int y = gps.speed.kmph(); TargetSKH = String( y, DEC); } // Altitude TargetALT = ""; if (gps.altitude.isValid()) { // Altitude // Meters int z = gps.altitude.meters(); TargetALT = String( z, DEC); } }
getGyroscope.ino
// L3G4200D Triple Axis Gyroscope // Setup Gyroscope void isSetupGyroscope() { // Setup Gyroscope // Set scale 2000 dps and 400HZ Output data rate (cut-off 50) while(!gyroscope.begin(L3G4200D_SCALE_2000DPS, L3G4200D_DATARATE_400HZ_50)) { // Could not find a valid L3G4200D sensor, check wiring! delay(500); } // Calibrate gyroscope. The calibration must be at rest. // If you don't want calibrate, comment this line. gyroscope.calibrate(100); } // L3G4200D Gyroscope void isGyroscope(){ // Timer timer = millis(); // Read normalized values Vector norm = gyroscope.readNormalize(); // Calculate Pitch, Roll and Yaw pitch = pitch + norm.YAxis * timeStep; roll = roll + norm.XAxis * timeStep; yaw = yaw + norm.ZAxis * timeStep; }
getMagnetometer.ino
// Magnetometer // Setup Magnetometer void isSetupMagnetometer(){ // Magnetometer Serial // Initialize HMC5883L while (!compass.begin()) { delay(500); } // Set measurement range // +/- 1.30 Ga: HMC5883L_RANGE_1_3GA (default) compass.setRange(HMC5883L_RANGE_1_3GA); // Set measurement mode // Continuous-Measurement: HMC5883L_CONTINOUS (default) compass.setMeasurementMode(HMC5883L_CONTINOUS); // Set data rate // 15.00Hz: HMC5883L_DATARATE_15HZ (default) compass.setDataRate(HMC5883L_DATARATE_15HZ); // Set number of samples averaged // 1 sample: HMC5883L_SAMPLES_1 (default) compass.setSamples(HMC5883L_SAMPLES_1); } // Magnetometer void isMagnetometer(){ // Magnetometer Vector Norm Vector norm = compass.readNormalize(); // Vector X, Y, Z // Magnetometer X Normalize mX = norm.XAxis; // Magnetometer Y Normalize mY = norm.YAxis; // Magnetometer Z Normalize mZ = norm.ZAxis; }
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|Date|Time| //Accelerometer X|Accelerometer Y|Accelerometer Z //Magnetometer X|Magnetometer Y|Magnetometer Z //Gyroscope Pitch|Gyroscope Roll|Gyroscope Yaw //|GPS|Latitude|Longitude|GPS Date|GPS Time|GPS Speed M/S|GPS Altitude|*\r zzzzzz = "DFR|" + uid + "|" + sver + "|" + String(X) + "|" + String(Y) + "|" + String(Z) + "|" + String(mX) + "|" + String(mY) + "|" + String(mZ) + "|" + String(pitch) + "|" + String(roll) + "|" + String(yaw) + "|" + String(GPSSt) + "|" + String(TargetLat) + "|" + String(TargetLon) + "|" + String(TargetDat) + "|" + String(TargetTim) + "|" + String(TargetSMS) + "|" + String(TargetALT)+ "|*\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(); }
setup.ino
// Setup void setup() { // Give display time to power on delay(100); // EEPROM Size EEPROM.begin(EEPROM_SIZE); // EEPROM Unique ID isUID(); // Give display delay(100); // Set up I2C bus Wire.begin(); // Give display delay(100); //MicroSD Card isSetupSD(); // SHARP Display Start & Clear the Display display.begin(); // Clear Display display.clearDisplay(); // Delay delay( 100 ); // GPS Receiver // Setup GPS isSetupGPS(); // Delay delay( 100 ); // Setup Triple Axis Magnetometer isSetupMagnetometer(); // L3G4200D Gyroscope isSetupGyroscope(); // Delay delay( 100 ); // Initialize digital pin iLED as an output pinMode(iLED, OUTPUT); // Outputting high, the LED turns on digitalWrite(iLED, HIGH); // Initialize the LED Green pinMode(iLEDGreen, OUTPUT); // iLEDGreen HIGH digitalWrite(iLEDGreen, HIGH ); // Initialize the Switch pinMode(iSwitch, INPUT); // 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
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