#ifndef DallasTemperature_h #define DallasTemperature_h // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License, or (at your option) any later version. // set to true to include code for new and delete operators #ifndef REQUIRESNEW #define REQUIRESNEW false #endif // set to true to include code implementing alarm search functions #ifndef REQUIRESALARMS #define REQUIRESALARMS true #endif #include #include // Model IDs #define DS18S20MODEL 0x10 #define DS18B20MODEL 0x28 #define DS1822MODEL 0x22 // OneWire commands #define STARTCONVO 0x44 // Tells device to take a temperature reading and put it on the scratchpad #define COPYSCRATCH 0x48 // Copy EEPROM #define READSCRATCH 0xBE // Read EEPROM #define WRITESCRATCH 0x4E // Write to EEPROM #define RECALLSCRATCH 0xB8 // Reload from last known #define READPOWERSUPPLY 0xB4 // Determine if device needs parasite power #define ALARMSEARCH 0xEC // Query bus for devices with an alarm condition // Scratchpad locations #define TEMP_LSB 0 #define TEMP_MSB 1 #define HIGH_ALARM_TEMP 2 #define LOW_ALARM_TEMP 3 #define CONFIGURATION 4 #define INTERNAL_BYTE 5 #define COUNT_REMAIN 6 #define COUNT_PER_C 7 #define SCRATCHPAD_CRC 8 // Device resolution #define TEMP_9_BIT 0x1F // 9 bit #define TEMP_10_BIT 0x3F // 10 bit #define TEMP_11_BIT 0x5F // 11 bit #define TEMP_12_BIT 0x7F // 12 bit // Error Codes #define DEVICE_DISCONNECTED -127 typedef uint8_t DeviceAddress[8]; class DallasTemperature { public: DallasTemperature(OneWire*); // initalize bus void begin(void); // returns the number of devices found on the bus uint8_t getDeviceCount(void); // returns true if address is valid bool validAddress(uint8_t*); // finds an address at a given index on the bus bool getAddress(uint8_t*, const uint8_t); // attempt to determine if the device at the given address is connected to the bus bool isConnected(uint8_t*); // attempt to determine if the device at the given address is connected to the bus // also allows for updating the read scratchpad bool isConnected(uint8_t*, uint8_t*); // read device's scratchpad void readScratchPad(uint8_t*, uint8_t*); // write device's scratchpad void writeScratchPad(uint8_t*, const uint8_t*); // read device's power requirements bool readPowerSupply(uint8_t*); // returns the current resolution, 9-12 uint8_t getResolution(uint8_t*); // set resolution of a device to 9, 10, 11, or 12 bits void setResolution(uint8_t*, uint8_t); // sends command for all devices on the bus to perform a temperature conversion void requestTemperatures(void); // sends command for one device to perform a temperature conversion by address void requestTemperaturesByAddress(uint8_t*); // sends command for one device to perform a temperature conversion by index void requestTemperaturesByIndex(uint8_t); // returns temperature in degrees C float getTempC(uint8_t*); // returns temperature in degrees F float getTempF(uint8_t*); // Get temperature for device index (slow) float getTempCByIndex(uint8_t); // Get temperature for device index (slow) float getTempFByIndex(uint8_t); // returns true if the bus requires parasite power bool isParasitePowerMode(void); #if REQUIRESALARMS typedef void AlarmHandler(uint8_t*); // sets the high alarm temperature for a device // accepts a char. valid range is -55C - 125C void setHighAlarmTemp(uint8_t*, const char); // sets the low alarm temperature for a device // accepts a char. valid range is -55C - 125C void setLowAlarmTemp(uint8_t*, const char); // returns a signed char with the current high alarm temperature for a device // in the range -55C - 125C char getHighAlarmTemp(uint8_t*); // returns a signed char with the current low alarm temperature for a device // in the range -55C - 125C char getLowAlarmTemp(uint8_t*); // resets internal variables used for the alarm search void resetAlarmSearch(void); // search the wire for devices with active alarms bool alarmSearch(uint8_t*); // returns true if ia specific device has an alarm bool hasAlarm(uint8_t*); // returns true if any device is reporting an alarm on the bus bool hasAlarm(void); // runs the alarm handler for all devices returned by alarmSearch() void processAlarms(void); // sets the alarm handler void setAlarmHandler(AlarmHandler *); // The default alarm handler static void defaultAlarmHandler(uint8_t*); #endif // convert from celcius to farenheit static float toFahrenheit(const float); // convert from farenheit to celsius static float toCelsius(const float); #if REQUIRESNEW // initalize memory area void* operator new (unsigned int); // delete memory reference void operator delete(void*); #endif private: typedef uint8_t ScratchPad[9]; // parasite power on or off bool parasite; // used to determine the delay amount needed to allow for the // temperature conversion to take place int conversionDelay; // count of devices on the bus uint8_t devices; // Take a pointer to one wire instance OneWire* _wire; // reads scratchpad and returns the temperature in degrees C float calculateTemperature(uint8_t*, uint8_t*); #if REQUIRESALARMS // required for alarmSearch uint8_t alarmSearchAddress[8]; char alarmSearchJunction; uint8_t alarmSearchExhausted; // the alarm handler function pointer AlarmHandler *_AlarmHandler; #endif }; #endif