def __init__(self, ssid, password, adafruit_username, adafruit__aio_key,
                 adafruit_feed_key):

        self.debug = True

        self.station = network.WLAN(network.STA_IF)

        self.ssid = ssid
        self.password = password
        self.adafruit_feed_key = adafruit_feed_key
        self.lastCallTime = 0

        self.lastCheckIn = 0

        self.minBetweenCalls = 0.5

        self.minBetweenCheckIn = 60

        myMqttClient = 'dog-sensor-mqtt-client'

        adafruit_io_url = 'io.adafruit.com'

        adafruit_username = adafruit_username
        adafruit__aio_key = adafruit__aio_key
        self.c = MQTTClient(myMqttClient, adafruit_io_url, 0,
                            adafruit_username, adafruit__aio_key)

        self.c.connect()

        # Software I2C setup:

        self.i2c = bitbangio.I2C(board.SCL, board.SDA)

        self.lis3dh = adafruit_lis3dh.LIS3DH_I2C(self.i2c)

        # Set range of accelerometer (can be RANGE_2_G, RANGE_4_G, RANGE_8_G or RANGE_16_G).

        self.lis3dh.range = adafruit_lis3dh.RANGE_2_G

        # Set click detection to double and single clicks.  The first parameter is a value:

        #  - 0 = Disable click detection.

        #  - 1 = Detect single clicks.

        #  - 2 = Detect single and double clicks.

        # The second parameter is the threshold and a higher value means less sensitive

        # click detection.  Note the threshold should be set based on the range above:

        #  - 2G = 40-80 threshold

        #  - 4G = 20-40 threshold

        #  - 8G = 10-20 threshold

        #  - 16G = 5-10 threshold

        self.lis3dh.set_click(2, 80)
def run():
    """main"""
    do_connect()

    with bitbangio.I2C(SCL, SDA) as i2c, nativeio.DigitalInOut(GPIO15) as pin:
        pin.switch_to_output()
        start(i2c, pin)
import board
import network
import time
import ntptime
import bitbangio as io
import adafruit_ht16k33.segments

ssid = ''
password = ''

i2c = io.I2C(board.SCL, board.SDA)
display = adafruit_ht16k33.segments.Seg14x4(i2c)
display.fill(0)

sta_if = network.WLAN(network.STA_IF)

if not sta_if.isconnected():
    sta_if.active(True)
    sta_if.connect(ssid, password)
    while not sta_if.isconnected():
        pass

#TZ = 14400 # UTC to EDT
TZ = 18000  # UTC to EST

t = None
while not t:
    time.sleep(0.1)
    try:
        t = ntptime.ntptime()
    except Exception:
Exemple #4
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# ap.ifconfig()

# Station Interface (connecting to wifi)
import network
wlan = network.WLAN(network.STA_IF)
wlan.active(True)
wlan.connect('thingnet', 'uPy12345678')
wlan.ifconfig(('192.168.4.2', '255.255.255.0', '192.168.4.1', '8.8.8.8'))
# wlan.scan()             # scan for access points
# wlan.isconnected()      # check if the station is connected to an AP
# wlan.config('mac')      # get the interface's MAC adddress
# wlan.ifconfig()         # get the interface's IP/netmask/gw/DNS addresses


# Haptic Feedback
import board
import bitbangio
import adafruit_drv2605
i2c = bitbangio.I2C(board.SCL, board.SDA)
drv = adafruit_drv2605.DRV2605(i2c)
drv.use_ERM()
drv.set_waveform(14)
drv.play()

# Button Interupt
from machine import Pin
def callback(p):
     print('%s changed to %d', (p, p.value()))
p2 = Pin(2, Pin.IN)
p2_irq = p2.irq(trigger=Pin.IRQ_RISING | Pin.IRQ_FALLING, handler=callback)
Exemple #5
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## https://learn.adafruit.com/circuitpython-basics-i2c-and-spi/spi-devices
## https://circuitpython.readthedocs.io/projects/busdevice/en/latest/api.html

import board  #hardware details of the specific board that you are using
import busio
import digitalio
from board import *
#from adafruit_bus_device.spi_device import SPIDevice
import bitbangio
import time

with busio.SPI(SCK, MOSI, MISO) as spi_bus:
    cs = digitalio.DigitalInOut(
        D5)  # chip select == Latch_pin == 74hc595 pin 12
    #  device = SPIDevice(spi_bus, cs)
    device = bitbangio.I2C(board.D52, board.D51)

    # show which pins are these on
    print("sck  ", SCK)  # 74hc595 pin 11
    print("mosi ", MOSI)  # 74hc595 pin 14
    print("miso ", MISO)  # not used

    bytes_read = bytearray(4)  # read buffer
    bytes_write = bytearray(1)  # one byte buffer for write data
    # The object assigned to spi in the with statements below
    # is the original spi_bus object. We are using the busio.SPI
    # operations busio.SPI.readinto() and busio.SPI.write().
    while True:
        for testData in range(
                256
        ):  # for an example lets transmit all values 0 to 255 one at a time.
# Set default state to 'off'
nrf.listen = False
nrf.power = False
print("Finished initializing nRF24 module")

### Initialize neopixel output
ledPin = board.NEOPIXEL
pixelMain = neopixel.NeoPixel(ledPin, 1, pixel_order=neopixel.GRB)
pixelMain.fill((0, 0, 0))  # turn off on startup
print("Finished initializing neopixel")

### Initialize MPU6050 sensor
# Initialize soft I2C
softScl = board.D2  # manual serial clock line
softSdl = board.D3  # manual serial data line
i2c = bitbangio.I2C(softScl, softSdl)  # software i2c

# Initialize MPU6050 object
sensor = adafruit_mpu6050.MPU6050(i2c)
sensor.cycle_rate = adafruit_mpu6050.Rate.CYCLE_40_HZ  # update cycle rate
sensor.cycle = True  # only periodically update sensor (saves power!)
print("Finished initializing mpu6050")

# Setup calibrated accel values
numAvgValues = 7
listAccelX = [None] * numAvgValues
listAccelY = [None] * numAvgValues
listAccelZ = [None] * numAvgValues
listFaceIdx = [0] * numAvgValues

### Other things
    # and let's make 0 = 50% = 1.65V

    # Dictionaries/structures containing data for each 'SENSOR'
    mouse = {
        'Name': '1',
        'File': open('/dev/input/mouse0'),
        'dx': 0,
        'dy': 0,
        'xbusSDA': 2,
        'xbusSCL': 3,
        'ybusSDA': 17,
        'ybusSCL': 27
    }

    # initialize I2C buses (X: SDA 2 SC: 3; Y: SDA 17 SCL 27)
    i2cX = bitbangio.I2C(3, 2)
    i2cY = bitbangio.I2C(27, 17)

    # initialize MCP4725
    dacX = adafruit_mcp4725(i2cX)
    dacY = adafruit_mcp4725(i2cY)

    # Declare variables
    transmit_timer = None
    data_lock = Lock()
    ppm = 3937  # num pixels per meter
    maxv = 1.5  # max velocity (m/s)
    transmit_delay = .01  #.01
    read_delay = .001  #0.001
    distCalib = 1 / ppm / transmit_delay / maxv / 2
Exemple #8
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# This file is executed on every boot (including wake-boot from deepsleep)
import esp
esp.osdebug(None)
import gc
gc.collect()

import network
wlan = network.WLAN(network.STA_IF)
wlan.active(True)

from board import *
import bitbangio as io
i2c = io.I2C(SCL, SDA)
from adafruit_pca9685 import motor
motors = motor.DCMotors(i2c)
motors.brake(0)
motors.brake(3)

import Robot
carro = Robot.Control(motors)

# replserver boot code
try:
    import usocket as socket
except:
    import socket

import os
import webrepl
webrepl.start(password='******')
replpath = "webrepl-inlined.html.gz"