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BMP280.h
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BMP280.h
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/*
BMP280.h
Bosch BMP280 pressure sensor library for the Arduino microcontroller.
This library uses I2C connection.
Uses floating-point equations from BMP280 datasheet.
modified by mhafuzul islam
version 1.01 16/9/2014 initial version
Our example code uses the "pizza-eating" license. You can do anything
you like with this code. No really, anything. If you find it useful,
buy me italian pizza someday.
*/
#ifndef BMP280_h
#define BMP280_h
#if defined(ARDUINO) && ARDUINO >= 100
#include "Arduino.h"
#else
#include "WProgram.h"
#endif
// #define _debugSerial
// #define _debugTestData
class BMP280
{
public:
BMP280(); // base type
char begin();
char begin(int sdaPin, int sclPin);
// call pressure.begin() to initialize BMP280 before use
// returns 1 if success, 0 if failure (i2C connection problem.)
short getOversampling(void);
char setOversampling(short oss);
char startMeasurment(void);
// command BMP280 to start a pressure measurement
// oversampling: 0 - 3 for oversampling value
// returns (number of ms to wait) for success, 0 for fail
char calcTemperature(double &T, double &uT);
// calculation the true temperature from the given uncalibrated Temperature
char calcPressure(double &P, double uP);
//calculation for measuring pressure.
double sealevel(double P, double A);
// convert absolute pressure to sea-level pressure
// P: absolute pressure (mbar)
// A: current altitude (meters)
// returns sealevel pressure in mbar
double altitude(double P, double P0);
// convert absolute pressure to altitude (given baseline pressure; sea-level, runway, etc.)
// P: absolute pressure (mbar)
// P0: fixed baseline pressure (mbar)
// returns signed altitude in meters
char getError(void);
// If any library command fails, you can retrieve an extended
// error code using this command. Errors are from the wire library:
// 0 = Success
// 1 = Data too long to fit in transmit buffer
// 2 = Received NACK on transmit of address
// 3 = Received NACK on transmit of data
// 4 = Other error
char getTemperatureAndPressure(double& T,double& P);
private:
char readCalibration();
// Retrieve calibration data from device:
// The BMP280 includes factory calibration data stored on the device.
// Each device has different numbers, these must be retrieved and
// used in the calculations when taking measurements.
char readInt(char address, double &value);
// read an signed int (16 bits) from a BMP280 register
// address: BMP280 register address
// value: external signed int for returned value (16 bits)
// returns 1 for success, 0 for fail, with result in value
char readUInt(char address, double &value);
// read an unsigned int (16 bits) from a BMP280 register
// address: BMP280 register address
// value: external unsigned int for returned value (16 bits)
// returns 1 for success, 0 for fail, with result in value
char readBytes(unsigned char *values, char length);
// read a number of bytes from a BMP280 register
// values: array of char with register address in first location [0]
// length: number of bytes to read back
// returns 1 for success, 0 for fail, with read bytes in values[] array
char writeBytes(unsigned char *values, char length);
// write a number of bytes to a BMP280 register (and consecutive subsequent registers)
// values: array of char with register address in first location [0]
// length: number of bytes to write
// returns 1 for success, 0 for fail
char getUnPT(double &uP, double &uT);
//get uncalibrated UP and UT value.
//int dig_T2 , dig_T3 , dig_T4 , dig_P2 , dig_P3, dig_P4, dig_P5, dig_P6, dig_P7, dig_P8, dig_P9;
//unsigned int dig_P1 , dig_T1 ;
double dig_T1, dig_T2 , dig_T3 , dig_T4 , dig_P1, dig_P2 , dig_P3, dig_P4, dig_P5, dig_P6, dig_P7, dig_P8, dig_P9;
short oversampling, oversampling_t;
double t_fine;
char error;
};
#define BMP280_ADDR 0x76 // 7-bit address
#define BMP280_REG_CONTROL 0xF4
#define BMP280_REG_RESULT_PRESSURE 0xF7 // 0xF7(msb) , 0xF8(lsb) , 0xF9(xlsb) : stores the pressure data.
#define BMP280_REG_RESULT_TEMPRERATURE 0xFA // 0xFA(msb) , 0xFB(lsb) , 0xFC(xlsb) : stores the temperature data.
#define BMP280_COMMAND_TEMPERATURE 0x2E
#define BMP280_COMMAND_PRESSURE0 0x25
#define BMP280_COMMAND_PRESSURE1 0x29
#define BMP280_COMMAND_PRESSURE2 0x2D
#define BMP280_COMMAND_PRESSURE3 0x31
#define BMP280_COMMAND_PRESSURE4 0x5D
#define BMP280_COMMAND_OVERSAMPLING_MAX 0xF5
#endif