/************************************************************************* * Testing sketch for Freematics OBD-II UART Adapter * Reads and prints several OBD-II PIDs value * Distributed under GPL v2.0 * Visit http://freematics.com for more information * Written by Stanley Huang *************************************************************************/ #include #include // On Arduino Leonardo, Micro, MEGA or DUE, hardware serial can be used for output // as OBD-II UART adapter uses to Serial1 // On Arduino UNO and those have no Serial1, we use software serial for output // as OBD-II UART adapter uses to Serial SoftwareSerial mySerial(A2, A3); //#define mySerial Serial COBD obd; bool hasMEMS; void testOut() { static const char cmds[][6] = {"ATZ\r", "ATI\r", "ATH0\r", "ATRV\r", "0100\r", "010C\r", "0902\r"}; char buf[128]; for (byte i = 0; i < sizeof(cmds) / sizeof(cmds[0]); i++) { const char *cmd = cmds[i]; mySerial.print("Sending "); mySerial.println(cmd); if (obd.sendCommand(cmd, buf, sizeof(buf))) { char *p = strstr(buf, cmd); if (p) p += strlen(cmd); else p = buf; while (*p == '\r') p++; while (*p) { mySerial.write(*p); if (*p == '\r' && *(p + 1) != '\r') mySerial.write('\n'); p++; } mySerial.println(); } else { mySerial.println("Timeout"); } delay(1000); } mySerial.println(); } void readPIDSingle() { int value; mySerial.print('['); mySerial.print(millis()); mySerial.print(']'); mySerial.print("RPM="); if (obd.readPID(PID_RPM, value)) { mySerial.print(value); } mySerial.println(); } void readPIDMultiple() { static const byte pids[] = {PID_SPEED, PID_ENGINE_LOAD, PID_THROTTLE, PID_COOLANT_TEMP}; int values[sizeof(pids)]; if (obd.readPID(pids, sizeof(pids), values) == sizeof(pids)) { mySerial.print('['); mySerial.print(millis()); mySerial.print(']'); for (byte i = 0; i < sizeof(pids) ; i++) { mySerial.print((int)pids[i] | 0x100, HEX); mySerial.print('='); mySerial.print(values[i]); mySerial.print(' '); } mySerial.println(); } } void readBatteryVoltage() { mySerial.print('['); mySerial.print(millis()); mySerial.print(']'); mySerial.print("Battery:"); mySerial.print(obd.getVoltage(), 1); mySerial.println('V'); } void readMEMS() { int acc[3]; int gyro[3]; int temp; if (!obd.memsRead(acc, gyro, 0, &temp)) return; mySerial.print('['); mySerial.print(millis()); mySerial.print(']'); mySerial.print("ACC:"); mySerial.print(acc[0]); mySerial.print('/'); mySerial.print(acc[1]); mySerial.print('/'); mySerial.print(acc[2]); mySerial.print(" GYRO:"); mySerial.print(gyro[0]); mySerial.print('/'); mySerial.print(gyro[1]); mySerial.print('/'); mySerial.print(gyro[2]); mySerial.print(" TEMP:"); mySerial.print((float)temp / 10, 1); mySerial.println("C"); } void setup() { mySerial.begin(115200); while (!mySerial); // this will begin serial byte version = obd.begin(); mySerial.print("Freematics OBD-II Adapter "); if (version > 0) { mySerial.print("Ver. "); mySerial.print(version / 10); mySerial.print('.'); mySerial.println(version % 10); } else { mySerial.println("not detected"); for (;;); } delay(1000); // send some commands for testing and show response for debugging purpose testOut(); hasMEMS = obd.memsInit(); mySerial.print("MEMS:"); mySerial.println(hasMEMS ? "Yes" : "No"); // initialize OBD-II adapter do { mySerial.println("Init..."); } while (!obd.init()); char buf[64]; if (obd.getVIN(buf, sizeof(buf))) { mySerial.print("VIN:"); mySerial.println(buf); } unsigned int codes[6]; byte dtcCount = obd.readDTC(codes, 6); if (dtcCount == 0) { mySerial.println("No DTC"); } else { mySerial.print(dtcCount); mySerial.print(" DTC:"); for (byte n = 0; n < dtcCount; n++) { mySerial.print(' '); mySerial.print(codes[n], HEX); } mySerial.println(); } delay(5000); } void loop() { readPIDSingle(); readPIDMultiple(); readBatteryVoltage(); if (hasMEMS) { readMEMS(); } }