GY-63_MS5611/libraries/MS5611_SPI/MS5611_SPI.h
2023-11-14 15:56:20 +01:00

167 lines
4.0 KiB
C++

#pragma once
//
// FILE: MS5611_SPI.h
// AUTHOR: Rob Tillaart
// VERSION: 0.1.3
// PURPOSE: S5611 (SPI) Temperature & Pressure library for Arduino
// URL: https://github.com/RobTillaart/MS5611_SPI
#include "Arduino.h"
#include "SPI.h"
// BREAKOUT MS5611 aka GY63 - see datasheet
//
// SPI I2C
// +--------+
// VCC VCC | o |
// GND GND | o |
// SCL | o |
// SDI SDA | o |
// CSO | o |
// SDO | o L | L = led
// PS | o O | O = opening PS = protocol select
// +--------+
//
// PS to VCC ==> I2C (GY-63 board has internal pull up, so not needed)
// PS to GND ==> SPI
// CS to VCC ==> 0x76
// CS to GND ==> 0x77
#define MS5611_SPI_LIB_VERSION (F("0.1.3 EXPERIMENTAL"))
#define MS5611_READ_OK 0
#define MS5611_ERROR_2 2 // TODO ??
#define MS5611_NOT_READ -999
enum osr_t
{
OSR_ULTRA_HIGH = 12, // 10 millis
OSR_HIGH = 11, // 5 millis
OSR_STANDARD = 10, // 3 millis
OSR_LOW = 9, // 2 millis
OSR_ULTRA_LOW = 8 // 1 millis Default = backwards compatible
};
class MS5611_SPI
{
public:
explicit MS5611_SPI(uint8_t select, uint8_t dataOut = 255, uint8_t dataIn = 255, uint8_t clock = 255);
bool begin();
bool isConnected();
// reset command + get constants
// mathMode = 0 (default), 1 = factor 2 fix.
// returns false if ROM constants == 0;
bool reset(uint8_t mathMode = 0);
// the actual reading of the sensor;
// returns MS5611_READ_OK upon success
int read(uint8_t bits);
// wrapper, uses the preset oversampling rate.
inline int read() { return read( (uint8_t) _samplingRate); };
// sets oversampling to a value between 8 and 12
void setOversampling(osr_t samplingRate);
// oversampling rate is in osr_t
osr_t getOversampling() const;
// temperature is in ²C
float getTemperature() const;
// pressure is in mBar
float getPressure() const;
// OFFSET
void setPressureOffset(float offset = 0);
float getPressureOffset();
void setTemperatureOffset(float offset = 0);
float getTemperatureOffset();
// to check for failure
int getLastResult() const;
// last time in millis() when the sensor has been read.
uint32_t lastRead() const;
uint32_t getDeviceID() const;
void setCompensation(bool flag = true);
bool getCompensation();
// develop functions.
/*
void setAddress(uint8_t address) { _address = address; }; // RANGE CHECK
uint8_t getAddress() const { return _address; };
uint8_t detectAddress() { todo }; // works with only one on the bus?
*/
// EXPERIMENTAL
uint16_t getManufacturer();
uint16_t getSerialCode();
// speed in Hz
void setSPIspeed(uint32_t speed);
uint32_t getSPIspeed();
// debugging
bool usesHWSPI();
// ESP32 specific
#if defined(ESP32)
void selectHSPI();
void selectVSPI();
bool usesHSPI();
bool usesVSPI();
// to overrule ESP32 default hardware pins
void setGPIOpins(uint8_t clk, uint8_t miso, uint8_t mosi, uint8_t select);
#endif
protected:
void convert(const uint8_t addr, uint8_t bits);
uint32_t readADC();
uint16_t readProm(uint8_t reg);
int command(const uint8_t command);
void initConstants(uint8_t mathMode);
uint8_t _address;
uint8_t _samplingRate;
int32_t _temperature;
int32_t _pressure;
float _pressureOffset;
float _temperatureOffset;
int _result;
float C[7];
uint32_t _lastRead;
uint32_t _deviceID;
bool _compensation;
uint8_t _select;
uint8_t _dataIn;
uint8_t _dataOut;
uint8_t _clock;
bool _hwSPI;
uint32_t _SPIspeed = 1000000;
uint8_t swSPI_transfer(uint8_t value);
SPIClass * mySPI;
SPISettings _spi_settings;
#if defined(ESP32)
bool _useHSPI = true;
#endif
};
// -- END OF FILE --