# SPDX-FileCopyrightText: 2018 Carter Nelson for Adafruit Industries # # SPDX-License-Identifier: MIT """ `adafruit_bmp3xx` ==================================================== CircuitPython driver from BMP388 Temperature and Barometric Pressure sensor. * Author(s): Carter Nelson Implementation Notes -------------------- **Hardware:** * `Adafruit BMP388 - Precision Barometric Pressure and Altimeter `_ (Product ID: 3966) **Software and Dependencies:** * Adafruit CircuitPython firmware for the supported boards: https://circuitpython.org/downloads * Adafruit's Bus Device library: https://github.com/adafruit/Adafruit_CircuitPython_BusDevice """ import struct import time # from micropython import const def const(x): return x __version__ = "0.0.0-auto.0" __repo__ = "https://github.com/adafruit/Adafruit_CircuitPython_BMP3XX.git" _BMP388_CHIP_ID = const(0x50) _BMP390_CHIP_ID = const(0x60) # pylint: disable=import-outside-toplevel _REGISTER_CHIPID = const(0x00) _REGISTER_STATUS = const(0x03) _REGISTER_PRESSUREDATA = const(0x04) _REGISTER_TEMPDATA = const(0x07) _REGISTER_CONTROL = const(0x1B) _REGISTER_OSR = const(0x1C) _REGISTER_ODR = const(0x1D) _REGISTER_CONFIG = const(0x1F) _REGISTER_CAL_DATA = const(0x31) _REGISTER_CMD = const(0x7E) _OSR_SETTINGS = (1, 2, 4, 8, 16, 32) # pressure and temperature oversampling settings _IIR_SETTINGS = (0, 2, 4, 8, 16, 32, 64, 128) # IIR filter coefficients class BMP3XX: """Base class for BMP3XX sensor.""" def __init__(self): chip_id = self._read_byte(_REGISTER_CHIPID) if chip_id not in (_BMP388_CHIP_ID, _BMP390_CHIP_ID): raise RuntimeError("Failed to find BMP3XX! Chip ID 0x%x" % chip_id) self._read_coefficients() self.reset() self.sea_level_pressure = 1013.25 self._wait_time = 0.002 # change this value to have faster reads if needed """Sea level pressure in hPa.""" @property def pressure(self): """The pressure in hPa.""" return self._read()[0] / 100 @property def temperature(self): """The temperature in degrees Celsius""" return self._read()[1] @property def altitude(self): """The altitude in meters based on the currently set sea level pressure.""" # see https://www.weather.gov/media/epz/wxcalc/pressureAltitude.pdf return 44307.7 * (1 - (self.pressure / self.sea_level_pressure) ** 0.190284) @property def pressure_oversampling(self): """The pressure oversampling setting.""" return _OSR_SETTINGS[self._read_byte(_REGISTER_OSR) & 0x07] @pressure_oversampling.setter def pressure_oversampling(self, oversample): if oversample not in _OSR_SETTINGS: raise ValueError("Oversampling must be one of: {}".format(_OSR_SETTINGS)) new_setting = self._read_byte(_REGISTER_OSR) & 0xF8 | _OSR_SETTINGS.index( oversample ) self._write_register_byte(_REGISTER_OSR, new_setting) @property def temperature_oversampling(self): """The temperature oversampling setting.""" return _OSR_SETTINGS[self._read_byte(_REGISTER_OSR) >> 3 & 0x07] @temperature_oversampling.setter def temperature_oversampling(self, oversample): if oversample not in _OSR_SETTINGS: raise ValueError("Oversampling must be one of: {}".format(_OSR_SETTINGS)) new_setting = ( self._read_byte(_REGISTER_OSR) & 0xC7 | _OSR_SETTINGS.index(oversample) << 3 ) self._write_register_byte(_REGISTER_OSR, new_setting) @property def filter_coefficient(self): """The IIR filter coefficient.""" return _IIR_SETTINGS[self._read_byte(_REGISTER_CONFIG) >> 1 & 0x07] @filter_coefficient.setter def filter_coefficient(self, coef): if coef not in _IIR_SETTINGS: raise ValueError( "Filter coefficient must be one of: {}".format(_IIR_SETTINGS) ) self._write_register_byte(_REGISTER_CONFIG, _IIR_SETTINGS.index(coef) << 1) def reset(self): """Perform a power on reset. All user configuration settings are overwritten with their default state. """ self._write_register_byte(_REGISTER_CMD, 0xB6) def _read(self): """Returns a tuple for temperature and pressure.""" # OK, pylint. This one is all kinds of stuff you shouldn't worry about. # pylint: disable=invalid-name, too-many-locals # Perform one measurement in forced mode self._write_register_byte(_REGISTER_CONTROL, 0x13) # Wait for *both* conversions to complete while self._read_byte(_REGISTER_STATUS) & 0x60 != 0x60: time.sleep(self._wait_time) # Get ADC values data = self._read_register(_REGISTER_PRESSUREDATA, 6) adc_p = data[2] << 16 | data[1] << 8 | data[0] adc_t = data[5] << 16 | data[4] << 8 | data[3] # datasheet, sec 9.2 Temperature compensation T1, T2, T3 = self._temp_calib pd1 = adc_t - T1 pd2 = pd1 * T2 temperature = pd2 + (pd1 * pd1) * T3 # datasheet, sec 9.3 Pressure compensation P1, P2, P3, P4, P5, P6, P7, P8, P9, P10, P11 = self._pressure_calib pd1 = P6 * temperature pd2 = P7 * temperature ** 2.0 pd3 = P8 * temperature ** 3.0 po1 = P5 + pd1 + pd2 + pd3 pd1 = P2 * temperature pd2 = P3 * temperature ** 2.0 pd3 = P4 * temperature ** 3.0 po2 = adc_p * (P1 + pd1 + pd2 + pd3) pd1 = adc_p ** 2.0 pd2 = P9 + P10 * temperature pd3 = pd1 * pd2 pd4 = pd3 + P11 * adc_p ** 3.0 pressure = po1 + po2 + pd4 # pressure in hPa, temperature in deg C return pressure, temperature def _read_coefficients(self): """Read & save the calibration coefficients""" coeff = self._read_register(_REGISTER_CAL_DATA, 21) # See datasheet, pg. 27, table 22 coeff = struct.unpack(" self._temp_calib = ( coeff[0] / 2 ** -8.0, # T1 coeff[1] / 2 ** 30.0, # T2 coeff[2] / 2 ** 48.0, ) # T3 self._pressure_calib = ( (coeff[3] - 2 ** 14.0) / 2 ** 20.0, # P1 (coeff[4] - 2 ** 14.0) / 2 ** 29.0, # P2 coeff[5] / 2 ** 32.0, # P3 coeff[6] / 2 ** 37.0, # P4 coeff[7] / 2 ** -3.0, # P5 coeff[8] / 2 ** 6.0, # P6 coeff[9] / 2 ** 8.0, # P7 coeff[10] / 2 ** 15.0, # P8 coeff[11] / 2 ** 48.0, # P9 coeff[12] / 2 ** 48.0, # P10 coeff[13] / 2 ** 65.0, ) # P11 def _read_byte(self, register): """Read a byte register value and return it""" return self._read_register(register, 1)[0] def _read_register(self, register, length): """Low level register reading, not implemented in base class""" raise NotImplementedError() def _write_register_byte(self, register, value): """Low level register writing, not implemented in base class""" raise NotImplementedError() class BMP3XX_I2C(BMP3XX): """Driver for I2C connected BMP3XX. :param ~busio.I2C i2c: The I2C bus the BMP388 is connected to. :param int address: I2C device address. Defaults to :const:`0x77`. but another address can be passed in as an argument **Quickstart: Importing and using the BMP388** Here is an example of using the :class:`BMP3XX_I2C` class. First you will need to import the libraries to use the sensor .. code-block:: python import board import adafruit_bmp3xx Once this is done you can define your `board.I2C` object and define your sensor object .. code-block:: python i2c = board.I2C() # uses board.SCL and board.SDA bmp = adafruit_bmp3xx.BMP3XX_I2C(i2c) Now you have access to the :attr:`temperature` and :attr:`pressure` attributes .. code-block:: python temperature = bmp.temperature pressure = bmp.pressure """ def __init__(self, i2c, address=0x77): from adafruit_bus_device import i2c_device self._i2c = i2c_device.I2CDevice(i2c, address) super().__init__() def _read_register(self, register, length): """Low level register reading over I2C, returns a list of values""" result = bytearray(length) with self._i2c as i2c: i2c.write(bytes([register & 0xFF])) i2c.readinto(result) return result def _write_register_byte(self, register, value): """Low level register writing over I2C, writes one 8-bit value""" with self._i2c as i2c: i2c.write(bytes((register & 0xFF, value & 0xFF))) class BMP3XX_SPI(BMP3XX): """Driver for SPI connected BMP3XX. :param ~busio.SPI spi: SPI device :param ~digitalio.DigitalInOut cs: Chip Select **Quickstart: Importing and using the BMP388** Here is an example of using the :class:`BMP3XX_SPI` class. First you will need to import the libraries to use the sensor .. code-block:: python import board import adafruit_bmp3xx from digitalio import DigitalInOut, Direction Once this is done you can define your `board.SPI` object and define your sensor object .. code-block:: python spi = board.SPI() cs = DigitalInOut(board.D5) bmp = adafruit_bmp3xx.BMP3XX_SPI(spi, cs) Now you have access to the :attr:`temperature` and :attr:`pressure` attributes .. code-block:: python temperature = bmp.temperature pressure = bmp.pressure """ def __init__(self, spi, cs): from adafruit_bus_device import spi_device self._spi = spi_device.SPIDevice(spi, cs) # toggle CS low/high to put BMP3XX in SPI mode with self._spi: time.sleep(0.001) super().__init__() def _read_register(self, register, length): """Low level register reading over SPI, returns a list of values""" result = bytearray(length) with self._spi as spi: # pylint: disable=no-member spi.write(bytes((0x80 | register, 0x00))) spi.readinto(result) return result def _write_register_byte(self, register, value): """Low level register writing over SPI, writes one 8-bit value""" with self._spi as spi: # pylint: disable=no-member spi.write(bytes((register & 0x7F, value & 0xFF))) # from i2cdriver import I2CDriver import sys class BMP3XX_I2CDriver(BMP3XX): """Driver for I2CDriver connected BMP3XX. :param ~busio.I2C i2c: The I2CDriver the BMP388 is connected to. :param int address: I2C device address. Defaults to :const:`0x77`. but another address can be passed in as an argument **Quickstart: Importing and using the BMP388** Here is an example of using the :class:`BMP3XX_I2CDriver` class. First you will need to import the libraries .. code-block:: python from i2cdriver import I2CDriver import adafruit_bmp3xx Once this is done you can connect to the I2CDriver and define the sensor object, e.g. .. code-block:: python i2c = I2CDriver("COM9") bmp = adafruit_bmp3xx.BMP3XX_I2C(i2c) Now you have access to the :attr:`temperature` and :attr:`pressure` attributes .. code-block:: python temperature = bmp.temperature pressure = bmp.pressure """ def __init__(self, i2c, address=0x77): self.i2c = i2c self.a = address super().__init__() def _read_register(self, register, length): """Low level register reading over I2C, returns a list of values""" return self.i2c.regrd(self.a, register, length) def _write_register_byte(self, register, value): """Low level register writing over I2C, writes one 8-bit value""" self.i2c.regwr(self.a, register, value) if __name__ == '__main__': i2 = I2CDriver(sys.argv[1]) d = BMP3XX_I2CDriver(i2) d.pressure_oversampling = 32 d.temperature_oversampling = 32 while 1: (pressure, temperature) = d._read() print(f"Pressure: {pressure / 100:.2f} hPa") print(f"Temperature: {temperature:.2f} C")