// Test code for Ultimate GPS Using Hardware Serial (e.g. GPS Flora or FeatherWing) // // This code is similar to GPS_HardwareSerial_Parsing, except for the additional // elements to keep track of how long it has been since time and fix data have been // received. This approach lets you keep an up to date clock based on GPS time at // any time in between GPS fixes. // // This code shows how to listen to the GPS module via polling. Best used with // Feathers or Flora where you have hardware Serial and no interrupt // // Tested and works great with the Adafruit GPS FeatherWing // ------> https://www.adafruit.com/products/3133 // or Flora GPS // ------> https://www.adafruit.com/products/1059 // but also works with the shield, breakout // ------> https://www.adafruit.com/products/1272 // ------> https://www.adafruit.com/products/746 // // Pick one up today at the Adafruit electronics shop // and help support open source hardware & software! -ada #include // what's the name of the hardware serial port? #define GPSSerial Serial1 // Connect to the GPS on the hardware port Adafruit_GPS GPS(&GPSSerial); // 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 uint32_t timer = millis(); void setup() { //while (!Serial); // uncomment to have the sketch wait until Serial is ready // connect at 115200 so we can read the GPS fast enough and echo without dropping chars // also spit it out Serial.begin(115200); Serial.println("Adafruit GPS library basic test!"); // 9600 NMEA is the default baud rate for Adafruit MTK GPS's- some use 4800 GPS.begin(9600); // uncomment this line to turn on RMC (recommended minimum) and GGA (fix data) including altitude GPS.sendCommand(PMTK_SET_NMEA_OUTPUT_RMCGGA); // uncomment this line to turn on only the "minimum recommended" data //GPS.sendCommand(PMTK_SET_NMEA_OUTPUT_RMCONLY); // For parsing data, we don't suggest using anything but either RMC only or RMC+GGA since // the parser doesn't care about other sentences at this time // Set the update rate (uncomment the one you want.) //GPS.sendCommand(PMTK_SET_NMEA_UPDATE_1HZ); // 1 Hz update rate //GPS.sendCommand(PMTK_SET_NMEA_UPDATE_200_MILLIHERTZ); // 5 second update time GPS.sendCommand(PMTK_SET_NMEA_UPDATE_100_MILLIHERTZ); // 10 second update time // For the parsing code to work nicely and have time to sort thru the data, and // print it out we don't suggest using anything higher than 1 Hz // Request updates on antenna status, comment out to keep quiet GPS.sendCommand(PGCMD_ANTENNA); delay(1000); // Ask for firmware version GPSSerial.println(PMTK_Q_RELEASE); } void loop() // run over and over again { // read data from the GPS in the 'main loop' char c = GPS.read(); // if you want to debug, this is a good time to do it! if (GPSECHO) if (c) Serial.print(c); // if a sentence is received, we can check the checksum, parse it... if (GPS.newNMEAreceived()) { // a tricky thing here is if we print the NMEA sentence, or data // we end up not listening and catching other sentences! // so be very wary if using OUTPUT_ALLDATA and trytng to print out data //Serial.println(GPS.lastNMEA()); // this also sets the newNMEAreceived() flag to false if (!GPS.parse(GPS.lastNMEA())) // this also sets the newNMEAreceived() flag to false return; // we can fail to parse a sentence in which case we should just wait for another } // if millis() or timer wraps around, we'll just reset it if (timer > millis()) timer = millis(); // approximately every 2 seconds or so, random intervals, print out the current stats static unsigned nextInterval = 2000; if (millis() - timer > nextInterval) { timer = millis(); // reset the timer nextInterval = 1500 + random(1000); // Time in seconds keeps increasing after we get the NMEA sentence. // This estimate will lag real time due to transmission and parsing delays, // but the lag should be small and should also be consistent. float s = GPS.seconds + GPS.milliseconds/1000. + GPS.secondsSinceTime(); int m = GPS.minute; int h = GPS.hour; int d = GPS.day; // Adjust time and day forward to account for elapsed time. // This will break at month boundaries!!! Humans will have to cope with April 31,32 etc. while(s > 60){ s -= 60; m++; } while(m > 60){ m -= 60; h++; } while(h > 24){ h -= 24; d++; } // ISO Standard Date Format, with leading zeros https://xkcd.com/1179/ Serial.print("\nDate: "); Serial.print(GPS.year+2000, DEC); Serial.print("-"); if(GPS.month < 10) Serial.print("0"); Serial.print(GPS.month, DEC); Serial.print("-"); if(d < 10) Serial.print("0"); Serial.print(d, DEC); Serial.print(" Time: "); if(h < 10) Serial.print("0"); Serial.print(h, DEC); Serial.print(':'); if(m < 10) Serial.print("0"); Serial.print(m, DEC); Serial.print(':'); if(s < 10) Serial.print("0"); Serial.println(s, 3); Serial.print("Fix: "); Serial.print((int)GPS.fix); Serial.print(" quality: "); Serial.println((int)GPS.fixquality); Serial.print("Times [s] since last fix: "); Serial.print(GPS.secondsSinceFix(),3); Serial.print(", GPS time: "); Serial.print(GPS.secondsSinceTime(),3); Serial.print(", GPS date: "); Serial.println(GPS.secondsSinceDate(),3); if (GPS.fix) { Serial.print("Location: "); Serial.print(GPS.latitude, 4); Serial.print(GPS.lat); Serial.print(", "); Serial.print(GPS.longitude, 4); Serial.println(GPS.lon); Serial.print("Speed (knots): "); Serial.println(GPS.speed); Serial.print("Angle: "); Serial.println(GPS.angle); Serial.print("Altitude: "); Serial.println(GPS.altitude); Serial.print("Satellites: "); Serial.println((int)GPS.satellites); } } }