def start(self):
        """Getting the bus"""
        if self.bus is None:
            raise KeyError("Bus missing for BME280Sensor")

        # Initialize the hardware driver.
        try:
            self.driver = BME280(address=self.address, i2c=self.bus.adapter)
            return True

        except Exception as ex:
            log.exc(ex, 'BME280 hardware driver failed')
Exemplo n.º 2
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    def start(self):
        """
        Setup the BME280 sensor driver.

        :return:
        """

        # Ensure a bus object exists and is ready.
        self.ensure_bus()

        # Initialize the hardware driver.
        try:

            # MicroPython
            if platform_info.vendor in [platform_info.MICROPYTHON.Vanilla, platform_info.MICROPYTHON.Pycom]:
                from bme280_float import BME280
                self.driver = BME280(address=self.address, i2c=self.bus.adapter)

            # Adafruit CircuitPython
            elif platform_info.vendor == platform_info.MICROPYTHON.RaspberryPi:
                import adafruit_bme280
                self.driver = adafruit_bme280.Adafruit_BME280_I2C(i2c=self.bus.adapter, address=self.address)

            # RPi.bme280
            elif platform_info.vendor == platform_info.MICROPYTHON.Odroid:
                import bme280
                self.calibration_params = bme280.load_calibration_params(self.bus.adapter, self.address)
                self.driver = bme280.sample(self.bus.adapter, self.address)

            else:
                raise NotImplementedError('BME280 driver not implemented on this platform')

            return True

        except Exception as ex:
            log.exc(ex, 'BME280 hardware driver failed')
            return False
Exemplo n.º 3
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while True:
    try:
        volt = measure_battery_level()
        # After leaving deepsleep it may be necessary to un-hold the pin explicitly (e.g. if it is an output pin)
        # See https://docs.micropython.org/en/latest/esp32/quickref.html#deep-sleep-mode
        p1 = machine.Pin(4, machine.Pin.OUT, None)

        # enable power for temperatuer sensor
        p2 = machine.Pin(19, machine.Pin.OUT)
        p2.value(1)

        values = decode_memory()

        i2c = setup_i2c()

        bme = BME280(i2c=i2c)
        print(bme.values)

        # disable power for temperatuer sensor
        #p2.value(0)

        cleaned_values = (bme.values[0].replace("C", ""),
                          bme.values[1].replace("hPa", ""),
                          bme.values[2].replace("%", ""))
        values.append(cleaned_values)
        print("calc mean")
        value = calc_mean(values)
        print(len(values))
        if len(values) == SENDING_BATCH:
            print("send batch")
            send_batch(value, volt)
Exemplo n.º 4
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# template for MQTT client
import ubinascii
from machine import unique_id, I2C, Pin
import time
from utime import ticks_ms
from umqttsimple import MQTTClient
from bme280_float import BME280, BME280_OSAMPLE_8

# BME280 - SPIs
# D1 - 05 - SCL
# D2 - 04 - SDA

# init sensor
i2c = I2C(scl=Pin(5), sda=Pin(4))
bme280 = BME280(i2c=i2c, mode=BME280_OSAMPLE_8)


def read_data(bme280):
    data = bme280.read_compensated_data()
    dew = bme280.dew_point
    print("{:6.2}°C {:10}hPa {:5.2}% {:6.2}°C(dew)".format(
        data[0], data[1], data[2], dew))
    return data[0], data[1], data[2], dew


# MQTT configuration
MQTT_SERVER = '192.168.42.1'  #where your mosquitto server is running
CLIENT_ID = ubinascii.hexlify(unique_id()).decode("utf-8")


# callback to handle subscritions