コード例 #1
0
ファイル: pm25.py プロジェクト: dr-glenn/sensors
def get_device(name='pi'):
    reset_pin = None
    # If you have a GPIO, its not a bad idea to connect it to the RESET pin
    # reset_pin = DigitalInOut(board.G0)
    # reset_pin.direction = Direction.OUTPUT
    # reset_pin.value = False


    # For use with a computer running Windows:
    # import serial
    # uart = serial.Serial("COM30", baudrate=9600, timeout=1)

    # For use with microcontroller board:
    # (Connect the sensor TX pin to the board/computer RX pin)
    # uart = busio.UART(board.TX, board.RX, baudrate=9600)

    # For use with Raspberry Pi/Linux:
    # import serial
    # uart = serial.Serial("/dev/ttyS0", baudrate=9600, timeout=0.25)

    # For use with USB-to-serial cable:
    # import serial
    # uart = serial.Serial("/dev/ttyUSB0", baudrate=9600, timeout=0.25)

    # Connect to a PM2.5 sensor over UART
    # from adafruit_pm25.uart import PM25_UART
    # pm25 = PM25_UART(uart, reset_pin)

    # Create library object, use 'slow' 100KHz frequency!
    i2c = busio.I2C(board.SCL, board.SDA, frequency=100000)
    # Connect to a PM2.5 sensor over I2C
    pm25 = PM25_I2C(i2c, reset_pin)

    return name,pm25
コード例 #2
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 def _create_device(self, channel, tca):
     self.pwr_pin.on()
     # NOTE: must allow device to be on for initialization
     time.sleep(2)
     try:
         device = PM25_I2C(tca[channel])
     except OSError:
         # Try one more time
         self.pwr_pin.off()
         time.sleep(1)
         self.pwr_pin.on()
         time.sleep(2)
         try:
             device = PM25_I2C(tca[channel])
         except Exception:
             raise OSError(
                 f"Unable to initialize PM25 device. please double check {self.pwr_pin} is correct on/off pin"
             )
     return device
コード例 #3
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    def __init__(self,
                 scl=board.SCL,
                 sda=board.SDA,
                 serial_no=None,
                 channels=None,
                 *args,
                 **kwargs):

        i2c = busio.I2C(scl, sda, frequency=100000)
        # Connect to a PM2.5 sensor over I2C
        self.pm25 = PM25_I2C(i2c, None)
        self.type = __name__
        super().__init__(serial_no, channels, *args, **kwargs)
コード例 #4
0
ファイル: airSensor.py プロジェクト: ALLRiPPED/piObdDashboard
import obdUtils
 
RESET_PIN = None
SENSOR_TYPE = 'AIR'
ERROR = 'ERR'
INFO = 'INFO'

RETRY_INTERVAL = 1 #Delay in seconds when retrying to connect to node server

DELAY = 1 #sensor polling interval in seconds. Max polling rate 1s for PMSA003I 

 
# Create library object, use 'slow' 100KHz frequency!
i2c = busio.I2C(board.SCL, board.SDA, frequency=100000)
# Connect to a PM2.5 sensor over I2C
pm25 = PM25_I2C(i2c, RESET_PIN)

sio = None
numTries = 1


def emitAirSensorData():
    while True:
        time.sleep(DELAY)
     
        try:
            aqdata = pm25.read()
            
            data = {'pm10': aqdata["pm10 standard"],
                    'pm25': aqdata["pm25 standard"],
                    'pm100': aqdata["pm100 standard"],
コード例 #5
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# For use with Raspberry Pi/Linux:
# import serial
# uart = serial.Serial("/dev/ttyS0", baudrate=9600, timeout=0.25)

# For use with USB-to-serial cable:
# import serial
# uart = serial.Serial("/dev/ttyUSB0", baudrate=9600, timeout=0.25)

# Connect to a PM2.5 sensor over UART
# from adafruit_pm25.uart import PM25_UART
# pm25 = PM25_UART(uart, reset_pin)

# Create library object, use 'slow' 100KHz frequency!
i2c = busio.I2C(board.SCL, board.SDA, frequency=100000)
# Connect to a PM2.5 sensor over I2C
pm25 = PM25_I2C(i2c, reset_pin)

print("Found PM2.5 sensor, reading data...")

while True:
    time.sleep(1)

    try:
        aqdata = pm25.read()
        # print(aqdata)
    except RuntimeError:
        print("Unable to read from sensor, retrying...")
        continue

    print()
    print("Concentration Units (standard)")
コード例 #6
0
ファイル: app.py プロジェクト: gsornsen/pi_air_quality
import board
import asyncio
import time
import functools
import json
from aioinflux import InfluxDBClient
from adafruit_pm25.i2c import PM25_I2C
from sys import exit
from weather import Weather



i2c_bus = busio.I2C(board.SCL, board.SDA, frequency=100000)
sgp30 = adafruit_sgp30.Adafruit_SGP30(i2c_bus)
bme680 = adafruit_bme680.Adafruit_BME680_I2C(i2c_bus)
pm25 = PM25_I2C(i2c_bus)
weather = Weather()
# You will usually have to add an offset to account for the temperature of
# the sensor. This is usually around 5 degrees but varies by use. Use a
# separate temperature sensor to calibrate this one.
bme_temperature_offset = 5

HOST = '192.168.1.148'
DB = 'airsensors'

def run_in_executor(func):
    @functools.wraps(func)
    def inner(*args, **kwargs):
        loop = asyncio.get_running_loop()
        return loop.run_in_executor(None, lambda: func(*args, **kwargs))
    return inner
コード例 #7
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    ozone = dfrobot_ozone.DFRobot_Ozone(i2c)
    if ozone is not None:
        ozone.set_mode(dfrobot_ozone.MEASURE_MODE_AUTOMATIC)

    if LOAD_WATCHDOG:
        w.feed()

if LOAD_PMSA003I:
    print("init pm25")
    display(0, "init pm25")
    link.log("info", "init pm25")
    link.sync()

    pm25 = None
    pm25 = PM25_I2C(i2c1, None)

    if LOAD_WATCHDOG:
        w.feed()

display_page = 0

seq = 0

while True:

    display_page = (display_page + 1) % 6

    t = time.monotonic_ns()

    data = []
コード例 #8
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# {"abbreviation":"CEST","client_ip":"84.198.207.226","datetime":"2021-04-26T10:38:58.027337+02:00","day_of_week":1,"day_of_year":116,"dst":true,"dst_from":"2021-03-28T01:00:00+00:00","dst_offset":3600,"dst_until":"2021-10-31T01:00:00+00:00","raw_offset":3600,"timezone":"Europe/Brussels","unixtime":1619426338,"utc_datetime":"2021-04-26T08:38:58.027337+00:00","utc_offset":"+02:00","week_number":17}
if response.status_code == 200:
    utc_offset = 3600
    if response.json()['utc_offset'] == '+02:00':
        utc_offset = 7200
    r.datetime = time.localtime(response.json()['unixtime'] + utc_offset)
    # print(f"System Time: {r.datetime}")
else:
    print("Setting time failed")

# Setup Adafruit LC709203F LiPoly / LiIon Fuel Gauge and Battery Monitor
sensor = LC709203F(board.I2C())

# Setup Adafruit PMSA003I Air Quality Breakout
reset_pin = None
pm25 = PM25_I2C(board.I2C(), reset_pin)

# Setup Adafruit LTR390 UV Sensor
#ltr = adafruit_ltr390.LTR390(board.I2C())

# Setup Adafruit Grayscale 1.5" 128x128 OLED Display
WIDTH = 128
HEIGHT = 128
BORDER = 8
FONTSCALE = 1
displayio.release_displays()
display_bus = displayio.I2CDisplay(board.I2C(), device_address=0x3D)
display = adafruit_ssd1327.SSD1327(display_bus, width=128, height=128)
splash = displayio.Group(max_size=10)
display.show(splash)
color_bitmap = displayio.Bitmap(display.width - BORDER * 2,
コード例 #9
0
ファイル: airq.py プロジェクト: JackBurdick/sensorrunner
from gpiozero.pins.native import NativeFactory

Device.pin_factory = NativeFactory()

# Initialize I2C bus and sensor.
i2c = busio.I2C(board.SCL, board.SDA)

# mux
tca2 = adafruit_tca9548a.TCA9548A(i2c, address=0x72)

pwr_pin = DigitalOutputDevice(6)

# each sensor
pwr_pin.on()
time.sleep(1)
aq_sensor = PM25_I2C(tca2[2])
# pwr_pin.off() ignore for this example

# spec:
# https://cdn-shop.adafruit.com/product-files/4632/4505_PMSA003I_series_data_manual_English_V2.6.pdf
# other information:
# https://forums.adafruit.com/viewtopic.php?f=48&t=136528#p676664

# sampling rate 2.3 seconds


def average_dict(v_dicts):
    # filter values with None
    for k_d, v_d in v_dicts.items():
        if v_d:
            v_dicts[k_d] = {k: v for k, v in v_d.items() if v is not None}