/************************************************************************* * OBD-II (ELM327) data accessing library for Arduino * Distributed under GPL v2.0 * Copyright (c) 2012 Stanley Huang * All rights reserved. *************************************************************************/ #define OBD_TIMEOUT_SHORT 2000 /* ms */ #define OBD_TIMEOUT_LONG 7000 /* ms */ #define OBD_TIMEOUT_INIT 3000 /* ms */ #define OBD_SERIAL_BAUDRATE 38400 #define OBD_RECV_BUF_SIZE 64 #ifndef OBDUART #if defined(__AVR_ATmega32U4__) || defined(__AVR_ATmega2560__) || defined(__AVR_ATmega1280__) #define OBDUART Serial1 #else #define OBDUART Serial #endif #endif // mode 0 pids #define PID_RPM 0x0C #define PID_SPEED 0x0D #define PID_THROTTLE 0x11 #define PID_ENGINE_LOAD 0x04 #define PID_COOLANT_TEMP 0x05 #define PID_INTAKE_TEMP 0x0F #define PID_MAF_FLOW 0x10 #define PID_ABS_ENGINE_LOAD 0x43 #define PID_AMBIENT_TEMP 0x46 #define PID_FUEL_PRESSURE 0x0A #define PID_INTAKE_MAP 0x0B #define PID_BAROMETRIC 0x33 #define PID_TIMING_ADVANCE 0x0E #define PID_FUEL_LEVEL 0x2F #define PID_RUNTIME 0x1F #define PID_DISTANCE 0x31 unsigned int hex2uint16(const char *p); unsigned char hex2uint8(const char *p); class COBD { public: COBD():dataMode(1),errors(0) {} bool Init(bool passive = false); bool ReadSensor(byte pid, int& result, bool passive = false); bool IsValidPID(byte pid); void Sleep(int seconds); // Query and GetResponse for advanced usage only void Query(byte pid); char* GetResponse(byte& pid, char* buffer); bool GetResponseParsed(byte& pid, int& result); byte dataMode; byte errors; //char recvBuf[OBD_RECV_BUF_SIZE]; protected: static int GetConvertedValue(byte pid, char* data); static int GetPercentageValue(char* data) { return (int)hex2uint8(data) * 100 / 255; } static int GetLargeValue(char* data) { return hex2uint16(data); } static int GetSmallValue(char* data) { return hex2uint8(data); } static int GetTemperatureValue(char* data) { return (int)hex2uint8(data) - 40; } virtual bool available(); virtual char read(); virtual void write(const char* s); virtual void write(const char c); virtual void InitIdleLoop() {} virtual void DataIdleLoop() {} byte pidmap[4 * 4]; };