// Test code for Adafruit GPS modules using MTK3329/MTK3339 driver // // This code turns on the LOCUS built-in datalogger. The datalogger // turns off when power is lost, so you MUST turn it on every time // you want to use it! // // Tested and works great with the Adafruit Ultimate GPS module // using MTK33x9 chipset // ------> http://www.adafruit.com/products/746 // Pick one up today at the Adafruit electronics shop // and help support open source hardware & software! -ada #include #if ARDUINO >= 100 #include #else // Older Arduino IDE requires NewSoftSerial, download from: // http://arduiniana.org/libraries/newsoftserial/ // #include // DO NOT install NewSoftSerial if using Arduino 1.0 or later! #endif // Connect the GPS Power pin to 5V // Connect the GPS Ground pin to ground // If using software serial (sketch example default): // Connect the GPS TX (transmit) pin to Digital 3 // Connect the GPS RX (receive) pin to Digital 2 // If using hardware serial (e.g. Arduino Mega): // Connect the GPS TX (transmit) pin to Arduino RX1, RX2 or RX3 // Connect the GPS RX (receive) pin to matching TX1, TX2 or TX3 // If using software serial, keep these lines enabled // (you can change the pin numbers to match your wiring): #if ARDUINO >= 100 SoftwareSerial mySerial(3, 2); #else NewSoftSerial mySerial(3, 2); #endif Adafruit_GPS GPS(&mySerial); // If using hardware serial (e.g. Arduino Mega), comment // out the above six lines and enable this line instead: //Adafruit_GPS GPS(&Serial1); // Set GPSECHO to 'false' to turn off echoing the GPS data to the Serial console // Set to 'true' if you want to debug and listen to the raw GPS sentences #define GPSECHO true // this keeps track of whether we're using the interrupt // off by default! boolean usingInterrupt = false; void useInterrupt(boolean); // Func prototype keeps Arduino 0023 happy void setup() { while (!Serial); // the Leonardo will 'wait' until the USB plug is connected // connect at 115200 so we can read the GPS fast enuf and // also spit it out Serial.begin(115200); Serial.println("Adafruit GPS logging start test!"); // 9600 NMEA is the default baud rate for MTK - some use 4800 GPS.begin(9600); // You can adjust which sentences to have the module emit, below // Default is RMC + GGA GPS.sendCommand(PMTK_SET_NMEA_OUTPUT_RMCGGA); // Default is 1 Hz update rate GPS.sendCommand(PMTK_SET_NMEA_UPDATE_1HZ); // the nice thing about this code is you can have a timer0 interrupt go off // every 1 millisecond, and read data from the GPS for you. that makes the // loop code a heck of a lot easier! useInterrupt(true); delay(500); Serial.print("\nSTARTING LOGGING...."); if (GPS.LOCUS_StartLogger()) Serial.println(" STARTED!"); else Serial.println(" no response :("); delay(1000); } void loop() // run over and over again { // do nothing! all reading and printing is done in the interrupt } /******************************************************************/ // Interrupt is called once a millisecond, looks for any new GPS data, and stores it SIGNAL(TIMER0_COMPA_vect) { char c = GPS.read(); // if you want to debug, this is a good time to do it! if (GPSECHO && c) { #ifdef UDR0 UDR0 = c; // writing direct to UDR0 is much much faster than Serial.print // but only one character can be written at a time. #endif } } void useInterrupt(boolean v) { if (v) { // Timer0 is already used for millis() - we'll just interrupt somewhere // in the middle and call the "Compare A" function above OCR0A = 0xAF; TIMSK0 |= _BV(OCIE0A); usingInterrupt = true; } else { // do not call the interrupt function COMPA anymore TIMSK0 &= ~_BV(OCIE0A); usingInterrupt = false; } }