def regsetup():
    print("ran setup")
    global alarmTime
    global wakeSounds
    global sensor
    global i2c
    global dist
    global stopMusic
    alarmTime = int(input("enter wake up time eg. 6, 15 for 6:25 "))
    wakeSounds = input("what do you want me to say? ")
    i2c = busio.I2C(board.SCL, board.SDA)
    sensor = adafruit_vcnl4010.VCNL4010(i2c)
    dist = sensor.proximity
    stopMusic = False
示例#2
0
# SPDX-FileCopyrightText: 2017 Tony DiCola for Adafruit Industries
# SPDX-License-Identifier: MIT

# Simple demo of the VCNL4010 proximity and light sensor.
# Will print the proximity and ambient light every second.
import time

import board
import busio

import adafruit_vcnl4010

# Initialize I2C bus and VCNL4010 module.
i2c = busio.I2C(board.SCL, board.SDA)
sensor = adafruit_vcnl4010.VCNL4010(i2c)

# You can optionally adjust the sensor LED current.  The default is 200mA
# which is the maximum value.  Note this is only set in 10mA increments.
# sensor.led_current_mA = 120  # Set 120 mA LED current

# You can also adjust the measurement frequency for the sensor.  The default
# is 390.625 khz, but these values are possible to set too:
# - FREQUENCY_3M125: 3.125 Mhz
# - FREQUENCY_1M5625: 1.5625 Mhz
# - FREQUENCY_781K25: 781.25 Khz
# - FREQUENCY_390K625: 390.625 Khz (default)
# sensor.frequency = adafruit_vcnl4010.FREQUENCY_3M125  # 3.125 Mhz

# Main loop runs forever printing the proximity and light level.
while True:
    proximity = sensor.proximity  # Proximity has no units and is a 16-bit
示例#3
0
                        help="Delete images after classifcation if true")
    args = parser.parse_args()
    _USE_TEST_MODE = args.test
    _USE_BLOB_STORAGE = args.blobstorage
    _DELETE_IMAGES = args.deleteimages
    if (_USE_TEST_MODE):
        log.info("Starting in TEST Mode")
    if (_USE_BLOB_STORAGE):
        log.info("Blob Storage Enabled.")
        connect_storage_account()
    if (_DELETE_IMAGES):
        log.info("Deleting images after classification.")
    if args.sensor == 'vcnl4010':
        log.info("Calibrating VCNL4010 motion sensor")
        i2c = busio.I2C(board.SCL, board.SDA)
        vcnl = adafruit_vcnl4010.VCNL4010(i2c)
        percent = calibratePSensor(vcnl)
        flash_led = LED(23)  #LED connected on GPIO pin 23
    if args.sensor == 'vcnl4040':
        log.info("Calibrating VCNL4040 motion sensor")
        i2c = busio.I2C(board.SCL, board.SDA)
        vcnl = adafruit_vcnl4040.VCNL4040(i2c)
        percent = calibratePSensor(vcnl)
        flash_led = LED(23)  #LED connected on GPIO pin 23
    if args.sensor == 'motion':
        log.info("Using Motion Sensor")
        move_sensor = MotionSensor(
            17)  #Motion Sensor control connected to GPIO pin 17
        red_led = LED(18)  #LED connected to GPIO pin 18

    try:
def _setup(neopixels):
    i2c = busio.I2C(board.SCL, board.SDA)
    prox_sensor = adafruit_vcnl4010.VCNL4010(i2c)
    pixels = neopixel.NeoPixel(*neopixels)

    return i2c, prox_sensor, pixels