# The MIT License (MIT)
#
# Copyright (c) 2017 ladyada for Adafruit Industries
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
"""
`adafruit_bme280` - Adafruit BME280 - Temperature, Humidity & Barometic Pressure Sensor
=========================================================================================
CircuitPython driver from BME280 Temperature, Humidity and Barometic Pressure sensor
* Author(s): ladyada
"""
import math
from time import sleep
from micropython import const
try:
import struct
except ImportError:
import ustruct as struct
__version__ = "0.0.0-auto.0"
__repo__ = "https://github.com/adafruit/Adafruit_CircuitPython_BME280.git"
# I2C ADDRESS/BITS/SETTINGS
# -----------------------------------------------------------------------
_BME280_ADDRESS = const(0x77)
_BME280_CHIPID = const(0x60)
_BME280_REGISTER_CHIPID = const(0xD0)
_BME280_REGISTER_DIG_T1 = const(0x88)
_BME280_REGISTER_DIG_H1 = const(0xA1)
_BME280_REGISTER_DIG_H2 = const(0xE1)
_BME280_REGISTER_DIG_H3 = const(0xE3)
_BME280_REGISTER_DIG_H4 = const(0xE4)
_BME280_REGISTER_DIG_H5 = const(0xE5)
_BME280_REGISTER_DIG_H6 = const(0xE7)
_BME280_REGISTER_SOFTRESET = const(0xE0)
_BME280_REGISTER_CTRL_HUM = const(0xF2)
_BME280_REGISTER_STATUS = const(0xF3)
_BME280_REGISTER_CTRL_MEAS = const(0xF4)
_BME280_REGISTER_CONFIG = const(0xF5)
_BME280_REGISTER_PRESSUREDATA = const(0xF7)
_BME280_REGISTER_TEMPDATA = const(0xFA)
_BME280_REGISTER_HUMIDDATA = const(0xFD)
_BME280_PRESSURE_MIN_HPA = const(300)
_BME280_PRESSURE_MAX_HPA = const(1100)
_BME280_HUMIDITY_MIN = const(0)
_BME280_HUMIDITY_MAX = const(100)
"""iir_filter values"""
IIR_FILTER_DISABLE = const(0)
IIR_FILTER_X2 = const(0x01)
IIR_FILTER_X4 = const(0x02)
IIR_FILTER_X8 = const(0x03)
IIR_FILTER_X16 = const(0x04)
_BME280_IIR_FILTERS = (
IIR_FILTER_DISABLE,
IIR_FILTER_X2,
IIR_FILTER_X4,
IIR_FILTER_X8,
IIR_FILTER_X16,
)
"""overscan values for temperature, pressure, and humidity"""
OVERSCAN_DISABLE = const(0x00)
OVERSCAN_X1 = const(0x01)
OVERSCAN_X2 = const(0x02)
OVERSCAN_X4 = const(0x03)
OVERSCAN_X8 = const(0x04)
OVERSCAN_X16 = const(0x05)
_BME280_OVERSCANS = {
OVERSCAN_DISABLE: 0,
OVERSCAN_X1: 1,
OVERSCAN_X2: 2,
OVERSCAN_X4: 4,
OVERSCAN_X8: 8,
OVERSCAN_X16: 16,
}
"""mode values"""
MODE_SLEEP = const(0x00)
MODE_FORCE = const(0x01)
MODE_NORMAL = const(0x03)
_BME280_MODES = (MODE_SLEEP, MODE_FORCE, MODE_NORMAL)
"""
standby timeconstant values
TC_X[_Y] where X=milliseconds and Y=tenths of a millisecond
"""
STANDBY_TC_0_5 = const(0x00) # 0.5ms
STANDBY_TC_10 = const(0x06) # 10ms
STANDBY_TC_20 = const(0x07) # 20ms
STANDBY_TC_62_5 = const(0x01) # 62.5ms
STANDBY_TC_125 = const(0x02) # 125ms
STANDBY_TC_250 = const(0x03) # 250ms
STANDBY_TC_500 = const(0x04) # 500ms
STANDBY_TC_1000 = const(0x05) # 1000ms
_BME280_STANDBY_TCS = (
STANDBY_TC_0_5,
STANDBY_TC_10,
STANDBY_TC_20,
STANDBY_TC_62_5,
STANDBY_TC_125,
STANDBY_TC_250,
STANDBY_TC_500,
STANDBY_TC_1000,
)
[docs]class Adafruit_BME280:
"""Driver from BME280 Temperature, Humidity and Barometic Pressure sensor"""
# pylint: disable=too-many-instance-attributes
def __init__(self):
"""Check the BME280 was found, read the coefficients and enable the sensor"""
# Check device ID.
chip_id = self._read_byte(_BME280_REGISTER_CHIPID)
if _BME280_CHIPID != chip_id:
raise RuntimeError("Failed to find BME280! Chip ID 0x%x" % chip_id)
# Set some reasonable defaults.
self._iir_filter = IIR_FILTER_DISABLE
self._overscan_humidity = OVERSCAN_X1
self._overscan_temperature = OVERSCAN_X1
self._overscan_pressure = OVERSCAN_X16
self._t_standby = STANDBY_TC_125
self._mode = MODE_SLEEP
self._reset()
self._read_coefficients()
self._write_ctrl_meas()
self._write_config()
self.sea_level_pressure = 1013.25
"""Pressure in hectoPascals at sea level. Used to calibrate `altitude`."""
self._t_fine = None
def _read_temperature(self):
# perform one measurement
if self.mode != MODE_NORMAL:
self.mode = MODE_FORCE
# Wait for conversion to complete
while self._get_status() & 0x08:
sleep(0.002)
raw_temperature = (
self._read24(_BME280_REGISTER_TEMPDATA) / 16
) # lowest 4 bits get dropped
# print("raw temp: ", UT)
var1 = (
raw_temperature / 16384.0 - self._temp_calib[0] / 1024.0
) * self._temp_calib[1]
# print(var1)
var2 = (
(raw_temperature / 131072.0 - self._temp_calib[0] / 8192.0)
* (raw_temperature / 131072.0 - self._temp_calib[0] / 8192.0)
) * self._temp_calib[2]
# print(var2)
self._t_fine = int(var1 + var2)
# print("t_fine: ", self.t_fine)
def _reset(self):
"""Soft reset the sensor"""
self._write_register_byte(_BME280_REGISTER_SOFTRESET, 0xB6)
sleep(0.004) # Datasheet says 2ms. Using 4ms just to be safe
def _write_ctrl_meas(self):
"""
Write the values to the ctrl_meas and ctrl_hum registers in the device
ctrl_meas sets the pressure and temperature data acquistion options
ctrl_hum sets the humidty oversampling and must be written to first
"""
self._write_register_byte(_BME280_REGISTER_CTRL_HUM, self.overscan_humidity)
self._write_register_byte(_BME280_REGISTER_CTRL_MEAS, self._ctrl_meas)
def _get_status(self):
"""Get the value from the status register in the device """
return self._read_byte(_BME280_REGISTER_STATUS)
def _read_config(self):
"""Read the value from the config register in the device """
return self._read_byte(_BME280_REGISTER_CONFIG)
def _write_config(self):
"""Write the value to the config register in the device """
normal_flag = False
if self._mode == MODE_NORMAL:
# Writes to the config register may be ignored while in Normal mode
normal_flag = True
self.mode = MODE_SLEEP # So we switch to Sleep mode first
self._write_register_byte(_BME280_REGISTER_CONFIG, self._config)
if normal_flag:
self.mode = MODE_NORMAL
@property
def mode(self):
"""
Operation mode
Allowed values are the constants MODE_*
"""
return self._mode
@mode.setter
def mode(self, value):
if not value in _BME280_MODES:
raise ValueError("Mode '%s' not supported" % (value))
self._mode = value
self._write_ctrl_meas()
@property
def standby_period(self):
"""
Control the inactive period when in Normal mode
Allowed standby periods are the constants STANDBY_TC_*
"""
return self._t_standby
@standby_period.setter
def standby_period(self, value):
if not value in _BME280_STANDBY_TCS:
raise ValueError("Standby Period '%s' not supported" % (value))
if self._t_standby == value:
return
self._t_standby = value
self._write_config()
@property
def overscan_humidity(self):
"""
Humidity Oversampling
Allowed values are the constants OVERSCAN_*
"""
return self._overscan_humidity
@overscan_humidity.setter
def overscan_humidity(self, value):
if not value in _BME280_OVERSCANS:
raise ValueError("Overscan value '%s' not supported" % (value))
self._overscan_humidity = value
self._write_ctrl_meas()
@property
def overscan_temperature(self):
"""
Temperature Oversampling
Allowed values are the constants OVERSCAN_*
"""
return self._overscan_temperature
@overscan_temperature.setter
def overscan_temperature(self, value):
if not value in _BME280_OVERSCANS:
raise ValueError("Overscan value '%s' not supported" % (value))
self._overscan_temperature = value
self._write_ctrl_meas()
@property
def overscan_pressure(self):
"""
Pressure Oversampling
Allowed values are the constants OVERSCAN_*
"""
return self._overscan_pressure
@overscan_pressure.setter
def overscan_pressure(self, value):
if not value in _BME280_OVERSCANS:
raise ValueError("Overscan value '%s' not supported" % (value))
self._overscan_pressure = value
self._write_ctrl_meas()
@property
def iir_filter(self):
"""
Controls the time constant of the IIR filter
Allowed values are the constants IIR_FILTER_*
"""
return self._iir_filter
@iir_filter.setter
def iir_filter(self, value):
if not value in _BME280_IIR_FILTERS:
raise ValueError("IIR Filter '%s' not supported" % (value))
self._iir_filter = value
self._write_config()
@property
def _config(self):
"""Value to be written to the device's config register """
config = 0
if self.mode == MODE_NORMAL:
config += self._t_standby << 5
if self._iir_filter:
config += self._iir_filter << 2
return config
@property
def _ctrl_meas(self):
"""Value to be written to the device's ctrl_meas register """
ctrl_meas = self.overscan_temperature << 5
ctrl_meas += self.overscan_pressure << 2
ctrl_meas += self.mode
return ctrl_meas
@property
def measurement_time_typical(self):
"""Typical time in milliseconds required to complete a measurement in normal mode"""
meas_time_ms = 1.0
if self.overscan_temperature != OVERSCAN_DISABLE:
meas_time_ms += 2 * _BME280_OVERSCANS.get(self.overscan_temperature)
if self.overscan_pressure != OVERSCAN_DISABLE:
meas_time_ms += 2 * _BME280_OVERSCANS.get(self.overscan_pressure) + 0.5
if self.overscan_humidity != OVERSCAN_DISABLE:
meas_time_ms += 2 * _BME280_OVERSCANS.get(self.overscan_humidity) + 0.5
return meas_time_ms
@property
def measurement_time_max(self):
"""Maximum time in milliseconds required to complete a measurement in normal mode"""
meas_time_ms = 1.25
if self.overscan_temperature != OVERSCAN_DISABLE:
meas_time_ms += 2.3 * _BME280_OVERSCANS.get(self.overscan_temperature)
if self.overscan_pressure != OVERSCAN_DISABLE:
meas_time_ms += 2.3 * _BME280_OVERSCANS.get(self.overscan_pressure) + 0.575
if self.overscan_humidity != OVERSCAN_DISABLE:
meas_time_ms += 2.3 * _BME280_OVERSCANS.get(self.overscan_humidity) + 0.575
return meas_time_ms
@property
def temperature(self):
"""The compensated temperature in degrees celsius."""
self._read_temperature()
return self._t_fine / 5120.0
@property
def pressure(self):
"""
The compensated pressure in hectoPascals.
returns None if pressure measurement is disabled
"""
self._read_temperature()
# Algorithm from the BME280 driver
# https://github.com/BoschSensortec/BME280_driver/blob/master/bme280.c
adc = (
self._read24(_BME280_REGISTER_PRESSUREDATA) / 16
) # lowest 4 bits get dropped
var1 = float(self._t_fine) / 2.0 - 64000.0
var2 = var1 * var1 * self._pressure_calib[5] / 32768.0
var2 = var2 + var1 * self._pressure_calib[4] * 2.0
var2 = var2 / 4.0 + self._pressure_calib[3] * 65536.0
var3 = self._pressure_calib[2] * var1 * var1 / 524288.0
var1 = (var3 + self._pressure_calib[1] * var1) / 524288.0
var1 = (1.0 + var1 / 32768.0) * self._pressure_calib[0]
if not var1: # avoid exception caused by division by zero
raise ArithmeticError(
"Invalid result possibly related to error while \
reading the calibration registers"
)
pressure = 1048576.0 - adc
pressure = ((pressure - var2 / 4096.0) * 6250.0) / var1
var1 = self._pressure_calib[8] * pressure * pressure / 2147483648.0
var2 = pressure * self._pressure_calib[7] / 32768.0
pressure = pressure + (var1 + var2 + self._pressure_calib[6]) / 16.0
pressure /= 100
if pressure < _BME280_PRESSURE_MIN_HPA:
return _BME280_PRESSURE_MIN_HPA
if pressure > _BME280_PRESSURE_MAX_HPA:
return _BME280_PRESSURE_MAX_HPA
return pressure
@property
def humidity(self):
"""
The relative humidity in RH %
returns None if humidity measurement is disabled
"""
self._read_temperature()
hum = self._read_register(_BME280_REGISTER_HUMIDDATA, 2)
# print("Humidity data: ", hum)
adc = float(hum[0] << 8 | hum[1])
# print("adc:", adc)
# Algorithm from the BME280 driver
# https://github.com/BoschSensortec/BME280_driver/blob/master/bme280.c
var1 = float(self._t_fine) - 76800.0
# print("var1 ", var1)
var2 = (
self._humidity_calib[3] * 64.0 + (self._humidity_calib[4] / 16384.0) * var1
)
# print("var2 ",var2)
var3 = adc - var2
# print("var3 ",var3)
var4 = self._humidity_calib[1] / 65536.0
# print("var4 ",var4)
var5 = 1.0 + (self._humidity_calib[2] / 67108864.0) * var1
# print("var5 ",var5)
var6 = 1.0 + (self._humidity_calib[5] / 67108864.0) * var1 * var5
# print("var6 ",var6)
var6 = var3 * var4 * (var5 * var6)
humidity = var6 * (1.0 - self._humidity_calib[0] * var6 / 524288.0)
if humidity > _BME280_HUMIDITY_MAX:
return _BME280_HUMIDITY_MAX
if humidity < _BME280_HUMIDITY_MIN:
return _BME280_HUMIDITY_MIN
# else...
return humidity
@property
def altitude(self):
"""The altitude based on current ``pressure`` versus the sea level pressure
(``sea_level_pressure``) - which you must enter ahead of time)"""
pressure = self.pressure # in Si units for hPascal
return 44330 * (1.0 - math.pow(pressure / self.sea_level_pressure, 0.1903))
def _read_coefficients(self):
"""Read & save the calibration coefficients"""
coeff = self._read_register(_BME280_REGISTER_DIG_T1, 24)
coeff = list(struct.unpack("<HhhHhhhhhhhh", bytes(coeff)))
coeff = [float(i) for i in coeff]
self._temp_calib = coeff[:3]
self._pressure_calib = coeff[3:]
self._humidity_calib = [0] * 6
self._humidity_calib[0] = self._read_byte(_BME280_REGISTER_DIG_H1)
coeff = self._read_register(_BME280_REGISTER_DIG_H2, 7)
coeff = list(struct.unpack("<hBbBbb", bytes(coeff)))
self._humidity_calib[1] = float(coeff[0])
self._humidity_calib[2] = float(coeff[1])
self._humidity_calib[3] = float((coeff[2] << 4) | (coeff[3] & 0xF))
self._humidity_calib[4] = float((coeff[4] << 4) | (coeff[3] >> 4))
self._humidity_calib[5] = float(coeff[5])
def _read_byte(self, register):
"""Read a byte register value and return it"""
return self._read_register(register, 1)[0]
def _read24(self, register):
"""Read an unsigned 24-bit value as a floating point and return it."""
ret = 0.0
for b in self._read_register(register, 3):
ret *= 256.0
ret += float(b & 0xFF)
return ret
def _read_register(self, register, length):
raise NotImplementedError()
def _write_register_byte(self, register, value):
raise NotImplementedError()
[docs]class Adafruit_BME280_I2C(Adafruit_BME280):
"""Driver for BME280 connected over I2C"""
def __init__(self, i2c, address=_BME280_ADDRESS):
import adafruit_bus_device.i2c_device as i2c_device # pylint: disable=import-outside-toplevel
self._i2c = i2c_device.I2CDevice(i2c, address)
super().__init__()
def _read_register(self, register, length):
with self._i2c as i2c:
i2c.write(bytes([register & 0xFF]))
result = bytearray(length)
i2c.readinto(result)
# print("$%02X => %s" % (register, [hex(i) for i in result]))
return result
def _write_register_byte(self, register, value):
with self._i2c as i2c:
i2c.write(bytes([register & 0xFF, value & 0xFF]))
# print("$%02X <= 0x%02X" % (register, value))
[docs]class Adafruit_BME280_SPI(Adafruit_BME280):
"""Driver for BME280 connected over SPI"""
def __init__(self, spi, cs, baudrate=100000):
import adafruit_bus_device.spi_device as spi_device # pylint: disable=import-outside-toplevel
self._spi = spi_device.SPIDevice(spi, cs, baudrate=baudrate)
super().__init__()
def _read_register(self, register, length):
register = (register | 0x80) & 0xFF # Read single, bit 7 high.
with self._spi as spi:
spi.write(bytearray([register])) # pylint: disable=no-member
result = bytearray(length)
spi.readinto(result) # pylint: disable=no-member
# print("$%02X => %s" % (register, [hex(i) for i in result]))
return result
def _write_register_byte(self, register, value):
register &= 0x7F # Write, bit 7 low.
with self._spi as spi:
spi.write(bytes([register, value & 0xFF])) # pylint: disable=no-member