#!/usr/bin/env python import bme680 import time print("""Display Temperature, Pressure, Humidity and Gas Press Ctrl+C to exit """) try: sensor = bme680.BME680(bme680.I2C_ADDR_PRIMARY) except IOError: sensor = bme680.BME680(bme680.I2C_ADDR_SECONDARY) # These calibration data can safely be commented # out, if desired. print('Calibration data:') for name in dir(sensor.calibration_data): if not name.startswith('_'): value = getattr(sensor.calibration_data, name) if isinstance(value, int): print('{}: {}'.format(name, value)) # These oversampling settings can be tweaked to # change the balance between accuracy and noise in # the data. sensor.set_humidity_oversample(bme680.OS_2X) sensor.set_pressure_oversample(bme680.OS_4X) sensor.set_temperature_oversample(bme680.OS_8X) sensor.set_filter(bme680.FILTER_SIZE_3) sensor.set_gas_status(bme680.ENABLE_GAS_MEAS) print('\n\nInitial reading:') for name in dir(sensor.data): value = getattr(sensor.data, name) if not name.startswith('_'): print('{}: {}'.format(name, value)) sensor.set_gas_heater_temperature(320) sensor.set_gas_heater_duration(150) sensor.select_gas_heater_profile(0) # Up to 10 heater profiles can be configured, each # with their own temperature and duration. # sensor.set_gas_heater_profile(200, 150, nb_profile=1) # sensor.select_gas_heater_profile(1) print('\n\nPolling:') try: while True: if sensor.get_sensor_data(): output = '{0:.2f} C,{1:.2f} hPa,{2:.2f} %RH'.format( sensor.data.temperature, sensor.data.pressure / 100.0, sensor.data.humidity) if sensor.data.heat_stable: print('{0},{1} Ohms'.format( output, sensor.data.gas_resistance)) else: print(output) time.sleep(1) except KeyboardInterrupt: pass