Python I2C示例

示例#1

# std imports
import machine
import ssd1306

# custom imports
import coreboot.constants as constants

Ssd1306 = None
isSsd1306Mounted = False
i2c = machine.I2C(-1, machine.Pin(constants.PIN_SCL),
                  machine.Pin(constants.PIN_SDA))


def testSsd1306Mounted():
    global isSsd1306Mounted
    isSsd1306Mounted = 60 in i2c.scan()
    return isSsd1306Mounted


def init():
    global Ssd1306
    testSsd1306Mounted()
    if (isSsd1306Mounted):
        Ssd1306 = ssd1306.SSD1306_I2C(constants.OLED_WIDTH,
                                      constants.OLED_HEIGHT, i2c)
        Ssd1306.poweroff()

示例#2

文件： irq.py 项目： chschmitz/pipicotest

import machine
import ssd1306
import utime

value = 0


sda=machine.Pin(0)
scl=machine.Pin(1)
i2c=machine.I2C(0,sda=sda, scl=scl, freq=400000) 
print(i2c.scan())

display = ssd1306.SSD1306_I2C(128, 64, i2c)

def disp():
    global display
    display.fill(0)
    display.text("Wert ist: %d" % value, 20, 20, 1)
    display.fill_rect(0, 40, value, 5, 1)
    display.show()
    
def decrement(pin):
    global value
    value -= 1
    if (value < 0): value = 0
    disp()

def increment(pin):
    global value
    value += 1
    if value > 123: value = 123

示例#3

import machine
import si1145
import time
i2c = machine.I2C(sda=machine.Pin(4), scl=machine.Pin(5))
sensor = si1145.SI1145(i2c=i2c)
for i in range(10):
    uv = sensor.read_uv
    ir = sensor.read_ir
    view = sensor.read_visible
    print(" UV: %f\n IR: %f\n Visible: %f" % (uv, ir, view))
    time.sleep(1)

示例#4

文件： lab4_group6_check3.py 项目： ZhecanJamesWang/EECS-E4764-IoT-Projects

# EECSE4764 Lab4 Check3
# Group 6: NetSpeed Fast
# Group members: Ruochen You (ry2349), Penghe Zhang (pz2244), Linnan Li(ll3235)
# Date: 10/9/2018

import machine
import ssd1306
import urequests
import network
import time
from machine import Pin

i2c = machine.I2C(-1, Pin(5), Pin(4))
oled = ssd1306.SSD1306_I2C(128, 32, i2c)
msg_list = ["Hello", "world", "Lab4"]
msg_idx = 0
msg_sent = False


def do_connect():
    sta_if = network.WLAN(network.STA_IF)
    if not sta_if.isconnected():
        print('connecting to network...')
        sta_if.active(True)
        sta_if.connect('Columbia University', '')
        while not sta_if.isconnected():
            pass
    return sta_if.ifconfig()


def change(p):

示例#5

# HSR04 GPIO pins
trigger = 12  #gpio[ "D6" ]
echo = 14  #gpio[ "D5" ]

# WeMOS-LoLin32-OLED i2c pins
_SCL = const(4)
_SDA = const(5)
_DISPLAY_WIDTH = const(128)  # Width of display in pixels.
_DISPLAY_HEIGHT = const(64)  # LoLin-ESP32-OLED height of display.

#create sensor hc on pins trigger and echo
hc = ultrasonic.Ultrasonic(trigger, echo)

# create i2c and OLED-i2c objects
i2c = machine.I2C(scl=machine.Pin(_SCL), sda=machine.Pin(_SDA))
#i2c = I2C(scl=Pin(SCL), sda=Pin(SDA), freq=100000)
i2c.scan()  #[60]
oled = ssd1306.SSD1306_I2C(_DISPLAY_WIDTH, _DISPLAY_HEIGHT, i2c)


# OLED helper: blank oled screen
def eraseOled():
    oled.fill(0)
    oled.show()


# OLED helper: specify display_pixel function including oled.show()
def display_pixel(x, y, color):
    oled.pixel(x, y, color)
    oled.show()

示例#6

from esp8266_i2c_lcd import I2cLcd
import lcd_api
import machine, onewire, ds18x20, time

print("Let's start")
print("setup LCD")
i2c_lcd = machine.I2C(1, sda=machine.Pin(14), scl=machine.Pin(15), freq=400000)

lcd = I2cLcd(i2c_lcd, 0x27, 2, 16)
lcd.clear()
lcd.putstr("Start LCD!")

time.sleep(1.0)

print("LCD should be ok")

print("preparing thermometer")
lcd.clear()
lcd.putstr("Ustawiam\ntermomentr")

ds_pin = machine.Pin(16)
ds_sensor = ds18x20.DS18X20(onewire.OneWire(ds_pin))

roms = ds_sensor.scan()
print('Found a ds18x20 device')
lcd.clear()
lcd.putstr("Termometr\ngotowy")
time.sleep(1.0)
lcd.clear()
lcd.putstr("Zaczynam\nliczyć temp.")
time.sleep(1.0)

示例#7

try:
    _adc = machine.ADC(0)
except Exception:
    error.add_error("ADC is not defined")

try:
    _dht = dht.DHT22(machine.Pin(12))
except Exception:
    error.add_error("Dht22 is not running.")

try:
    _scl = machine.Pin(14)
    _sda = machine.Pin(2)
    _i2c = machine.I2C(scl=_scl, sda=_sda)
except Exception:
    error.add_error("Lightsensor is not running.")

_config_file = "sensor_config.json"
history_sensor_data_file = "sensor_data_log.json"
power_off()


def _trim_sensor_data(total_lines, keep_lines):
    os.rename(history_sensor_data_file, "temp.json")
    file_ptr = open("temp.json", "r")
    for _ in range(0, total_lines - keep_lines):
        file_ptr.readline()
        gc.collect()
    new_file_ptr = open(history_sensor_data_file, "a")

示例#8

文件： screen.py 项目： hpereira98/IoT-MicroPython

import machine
import ssd1306
import framebuf

# get data pins from LED screen
# ESP32
i2c = machine.I2C(scl=machine.Pin(22), sda=machine.Pin(21))
# ESP8266
# i2c = machine.I2C(scl=machine.Pin(4), sda=machine.Pin(5))
# scan LED to see if it is connected
i2c.scan()

# declare display variable, from the SSD1306 screen
display = ssd1306.SSD1306_I2C(128, 64, i2c)

# clear screen: set all pixels to 0 (black)
display.fill(0)

# print text on screen:
# X: value of 0 means the left border, and a value of 127 means the right border
# Y: vertical position and it goes from 0 for the top of the screen to 63 for the bottom
display.text('Hello', 0, 0)
display.text('from', 0, 16)
display.text('MicroPython!', 0, 32)
# show the text written above
display.show()

# draw a rectangle: left, top, width, height, color
display.fill(0)
display.rect(0, 0, 128, 64, 1)
display.show()

示例#9

def test_main():
    """Test function for verifying basic functionality."""
    sda = machine.Pin(18)
    scl = machine.Pin(19)
    i2c = machine.I2C(scl=scl, sda=sda, freq=100000)

    lcd = I2cLcd(i2c, DEFAULT_I2C_ADDR, 4, 20)
    lcd.blink_cursor_on()
    lcd.putstr("It Works!\nSecond Line")
    time.sleep(3)
    lcd.clear()

    # custom characters: battery icons - 5 wide, 8 tall
    lcd.custom_char(0,
                    bytearray([0x0E, 0x1B, 0x11, 0x11, 0x11, 0x11, 0x11,
                               0x1F]))  # 0% Empty
    lcd.custom_char(1,
                    bytearray([0x0E, 0x1B, 0x11, 0x11, 0x11, 0x11, 0x1F,
                               0x1F]))  # 16%
    lcd.custom_char(2,
                    bytearray([0x0E, 0x1B, 0x11, 0x11, 0x11, 0x1F, 0x1F,
                               0x1F]))  # 33%
    lcd.custom_char(3,
                    bytearray([0x0E, 0x1B, 0x11, 0x11, 0x1F, 0x1F, 0x1F,
                               0x1F]))  # 50%
    lcd.custom_char(4,
                    bytearray([0x0E, 0x1B, 0x11, 0x1F, 0x1F, 0x1F, 0x1F,
                               0x1F]))  # 66%
    lcd.custom_char(5,
                    bytearray([0x0E, 0x1B, 0x1F, 0x1F, 0x1F, 0x1F, 0x1F,
                               0x1F]))  # 83%
    lcd.custom_char(6,
                    bytearray([0x0E, 0x1F, 0x1F, 0x1F, 0x1F, 0x1F, 0x1F,
                               0x1F]))  # 100% Full
    lcd.custom_char(7,
                    bytearray([0x0E, 0x1F, 0x1B, 0x1B, 0x1B, 0x1F, 0x1B,
                               0x1F]))  # ! Error
    for i in range(8):
        lcd.putchar(chr(i))
    time.sleep(3)
    lcd.clear()
    lcd.blink_cursor_off()

    count = 0
    while True:
        lcd.move_to(0, 0)
        lcd.putstr("Time: " + str(time.time()))
        time.sleep(1)
        count += 1
        if count % 10 == 3:
            print("Turning backlight off")
            lcd.backlight_off()
        if count % 10 == 4:
            print("Turning backlight on")
            lcd.backlight_on()
        if count % 10 == 5:
            print("Turning display off")
            lcd.display_off()
        if count % 10 == 6:
            print("Turning display on")
            lcd.display_on()
        if count % 10 == 7:
            print("Turning display & backlight off")
            lcd.backlight_off()
            lcd.display_off()
        if count % 10 == 8:
            print("Turning display & backlight on")
            lcd.backlight_on()
            lcd.display_on()

示例#10

 def __init__(self, scl_pin, sda_pin, address):
     self.address = address
     self.bus = machine.I2C(-1, machine.Pin(scl_pin), machine.Pin(sda_pin))

示例#11

文件： olimex-esp32-ssd1306.py 项目： ssube/prometheus_express

def main():
    # setup sensors
    bus = machine.I2C(scl=machine.Pin(16), sda=machine.Pin(13))
    bme = BME280(i2c=bus)
    oled = SSD1306_I2C(128, 32, bus)

    # setup storage
    card = machine.SDCard()
    os.mount(card, '/card')

    # setup networking
    config = load_config('/card', 'config.yml')
    eth = eth_start(config,
                    mdc=machine.Pin(23),
                    mdio=machine.Pin(18),
                    phy_type=network.PHY_LAN8720,
                    phy_addr=0,
                    clock_mode=network.ETH_CLOCK_GPIO17_OUT,
                    power_pin=machine.Pin(12, machine.Pin.OUT))

    # setup display
    sl = Sparkline(32, 128)
    oled.init_display()
    oled.fill(0x0)
    oled.text('loading', 0, 0)
    oled.show()

    # setup Prometheus metrics
    registry = CollectorRegistry(namespace='prometheus_express')
    metric_beat = Counter('system_heartbeat',
                          'system heartbeat counter',
                          labels=['location'],
                          registry=registry)
    metric_temp = Gauge('sensor_temperature',
                        'temperature data from the sensors',
                        labels=['location', 'sensor'],
                        registry=registry)

    router = Router()
    router.register('GET', '/metrics', registry.handler)
    server = False

    # wait for incoming connection
    while True:
        while not server:
            time.sleep(1)
            server = bind(eth, config)

        bme_reading = bme.read_compensated_data()
        temp_line = ((bme_reading[0] - 12) * 2) % 32
        print('temp line: {}'.format(temp_line))

        oled.fill(0x0)
        sl.push(temp_line)
        sl.draw(oled, 0, 12)
        oled.text(str(bme_reading[0]), 0, 0)
        oled.show()

        location = config['metric_location']
        metric_beat.labels(location).inc(1)
        metric_temp.labels(location,
                           'esp32').set(temp_ftoc(esp32.raw_temperature()))
        metric_temp.labels(location, 'bme280').set(bme_reading[0])

        try:
            server.accept(router)
        except OSError as err:
            print('Error accepting request: {}'.format(err))
        except ValueError as err:
            print('Error parsing request: {}'.format(err))

示例#12

# This file is executed on every boot (including wake-boot from deepsleep)
#import esp
#esp.osdebug(None)
import uos, machine
#uos.dupterm(machine.UART(0, 115200), 1)
import gc
import webrepl
webrepl.start()
gc.collect()
try:
    from scripts.welcome import Welcome
    import ssd1306
    import machine
    i2c = machine.I2C(-1, machine.Pin(0), machine.Pin(16))
    oled = ssd1306.SSD1306_I2C(128, 64, i2c)
    Welcome(oled)
except Exception as e1:
    print("Something goes wrong with welcome file: %s" % (str(e1)))
    import sys
    sys.print_exception(e1)
    pass

示例#13

import machine
import struct
import utime

I2C_2 = machine.I2C(2)

LSM6DSL_ADDR = 106

LSM6DSL_REG_CTRL1_XL = 0x10
LSM6DSL_REG_CTRL2_G = 0x11

LSM6DSL_REG_OUT_TEMP_H = 0x21
LSM6DSL_REG_OUT_TEMP_L = 0x20

LSM6DSL_REG_OUTX_L_G = 0x22
LSM6DSL_REG_OUTX_H_G = 0x23
LSM6DSL_REG_OUTY_L_G = 0x24
LSM6DSL_REG_OUTY_H_G = 0x25
LSM6DSL_REG_OUTZ_L_G = 0x26
LSM6DSL_REG_OUTZ_H_G = 0x27

LSM6DSL_REG_OUTX_L_XL = 0x28
LSM6DSL_REG_OUTX_H_XL = 0x29
LSM6DSL_REG_OUTY_L_XL = 0x2A
LSM6DSL_REG_OUTY_H_XL = 0x2B
LSM6DSL_REG_OUTZ_L_XL = 0x2C
LSM6DSL_REG_OUTZ_H_XL = 0x2D

HIGH_PERF_416HZ = b'\x60'
HIGH_PERF_6KHZ = b'\xA0'

示例#14

def reconnect():
    wlan_client.start()
    success = wlan_client.check() and mqtt_client.check()
    if success:
        mqtt_client.broker.subscribe(TOPIC_SUB)
    return success


gc.collect()

led = StatusLED(D6)
led.on()

# Replace this lines with your sensor
i2c = machine.I2C(scl=machine.Pin(D1),
                  sda=machine.Pin(D2))  # Pin 5 = D1 | Pin 4 = D2
from sensor_manager import Sensor_BME280
sensor = Sensor_BME280(i2c=i2c, address=0x77)
#End of sensor settings

from wlan_manager import WLAN_Manager
wlan_client = WLAN_Manager()

from mqtt_manager import MQTT_Manager
mqtt_client = MQTT_Manager()

TOPIC_SUB = mqtt_client.get_topic('control')  # You talking to the sensor
TOPIC_PUB = mqtt_client.get_topic('status')  # The sensor talking to you
chatty_client = bool(mqtt_client.CONFIG.get('chatty', True))
mqtt_client.broker.set_callback(mqtt_callback)
print('client_id:', mqtt_client.CONFIG['client_id'])

示例#15

MCP23008_IPOL = 0x01
MCP23008_GPINTEN = 0x02
MCP23008_DEFVAL = 0x03
MCP23008_INTCON = 0x04
MCP23008_IOCON = 0x05
MCP23008_GPPU = 0x06
MCP23008_INTF = 0x07
MCP23008_INTCAP = 0x08
MCP23008_GPIO = 0x09
MCP23008_OLAT = 0x0A

INPUT = 0x0
OUTPUT = 0x1
INPUT_PULLUP = 0x2

i2c = machine.I2C(1)  # Set up pins
outdata = bytearray(b'\x00')  # IODIRA value lowest bit output
i2c.writeto_mem(MCP23008_BASEADDR, MCP23008_IOCON,
                outdata)  # Set the IODIRA to output for lowest bit


def digitalWrite(bit, value):  # Writes to a single bit
    # Need to do a read-modify-write to not mess up other bits
    rwValue = readRegister(MCP23008_OLAT)
    if (value == 0):
        rwValue &= ~(1 << (bit & 0x7))
    else:
        rwValue |= (1 << (bit & 0x7))
    writeRegister(MCP23008_OLAT, rwValue)
    return

示例#16

# Author: George Kaimakis

import machine
import ssd1306
import time

# define the display size:
width = 128  # pixels
height = 64  # pixels

# define i2c pins:
data = machine.Pin(4)
clk = machine.Pin(5)

# create i2c object:
i2c = machine.I2C(scl=clk, sda=data)

#create oled object:
oled = ssd1306.SSD1306_I2C(width, height, i2c)

# blank the display:
oled.fill(0)
oled.show()
time.sleep_ms(500)

# the framebuf class contains methods for drawing rectangles
# fill_rect, rect - also use these with height/width of 1 pixel to create lines:

while True:

    oled.framebuf.rect(0, 32, 1, 20, 1)

示例#17

# Necessary Libraries to be Imported
import machine
import ssd1306
import utime
#Specifiy Desired Pins For CLK and DATA respectively
i2c = machine.I2C(-1, machine.Pin(5), machine.Pin(4))

#Creation of Display Object using SSD1306 Library and binding it to I2C bus
# 128 is X direction pixels and 32 is y direction pixels
display = ssd1306.SSD1306_I2C(128, 64, i2c)
# Fill the Display with 0's
display.fill(0)
# Set a pixel in the origin 0,0 position.
display.text("Hello", 0, 0)
#Display the above on to display
display.show()
utime.sleep_ms(1000)

示例#18

文件： camarauso.py 项目： rychong/OV2640_uPy

        i.writeto_mem(SENSORADDR, raddr, val)


sdapin = 21
sclpin = 22
cspin = 15
standby = False

hspi = machine.SPI(1,
                   baudrate=80000000,
                   polarity=0,
                   phase=0,
                   sck=machine.Pin(14),
                   mosi=machine.Pin(13),
                   miso=machine.Pin(12))
i2c = machine.I2C(scl=machine.Pin(22), sda=machine.Pin(21), freq=1000000)

# first init spi assuming the hardware spi is connected
hspi.init(baudrate=2000000)

# chip select -- active low
cspin = machine.Pin(15, machine.Pin.OUT)
cspin.value(1)

addrs = i2c.scan()
print('ov2640_init: devices detected on on i2c:')
for a in addrs:
    print('0x%x' % a)
time.sleep(1)

i2c.writeto_mem(SENSORADDR, 0xff, b'\x01')

示例#19

文件： lcd16x2_i2c_openweathermap.py 项目： rsp-esl/micropython_esp32_examples

    elif code == 401:
        print('Error Code:', code)
        print(data['message'])
    return results


city_name = 'Nonthaburi,TH'
results = get_weather(APPID, city_name)

#---------------------------------------------------------
# Step 3) Display weather data on LCD16x2 I2C

# Use GPIO22=SCL, GPIO21=SDA
i2c_bus = 0  # use bus 0 or 1
i2c = machine.I2C(i2c_bus,
                  freq=400000,
                  scl=machine.Pin(22),
                  sda=machine.Pin(21))
# use I2C address = 0x3f
lcd = LCD(i2c, 0x3f)

weather_data = {
    't': ('Temperature', 'deg.C'),
    'h': ('Humidity', '%'),
    'p': ('Pressure', 'hPa'),
}

try:
    while True:
        for key in weather_data:
            lcd.clear()  # clear display
            lcd.goto_line(0)  # goto the first line

示例#20

文件： HDC1080_test.py 项目： sleepypioneer/microPythonBoard

import machine
try:
    import esp
    esp.osdebug(None)
    i2c = machine.I2C(sda=machine.Pin(4), scl=machine.Pin(5))
except:
    pass
try:
    import pyb
    i2c = machine.I2C(sda=machine.Pin('Y10'),
                      scl=machine.Pin('Y9'),
                      freq=400000)
except:
    pass

import lcd160cr

lcd = lcd160cr.LCD160CR('X')

dt = 20
b1 = bytearray(1)
b2 = bytearray(2)


def hdc1080_read(a=0):
    b1[0] = a
    i2c.writeto(64, b1)
    pyb.delay(dt)
    i2c.readfrom_into(64, b2)
    #return '%02x%02x' % (b[0], b[1])
    return (b2[0] << 8) | b2[1]

示例#21

import machine, College4.ssd1306, time

screenWidth = 128
screenHeight = 32
delay = 1
i2c = machine.I2C(scl=machine.Pin(5), sda=machine.Pin(4))
oled = College4.ssd1306.SSD1306_I2C(screenWidth, screenHeight, i2c)
adc = machine.ADC(0)

while True:
    oled.fill(0)
    volts = adc.read()
    temp = (volts - 500) / 10
    temp -= 5
    oled.text('Temp:', 0, 5)
    oled.text(str(temp), int(screenWidth / 2), 5)
    oled.text('Volt:', 0, int(screenHeight / 2))
    oled.text(str(volts), int(screenWidth / 2), int(screenHeight / 2))
    oled.show()
    time.sleep(delay)

示例#22

	def __init__(self, sda, scl):
		self.sda_pin = sda
		self.scl_pin = scl
		self.i2c = machine.I2C(id = 1, mode=machine.I2C.SLAVE, speed=FREQUENCY_SCL, sda=self.sda_pin,  scl=self.scl_pin, slave_addr=DS3231_I2C_ADDR)

示例#23

文件： 05-oled.py 项目： loepa01/octopuslab

Set your SCL and SDA pins in constants

Installation:
ampy -p /dev/ttyUSB0 put ./octopus_robot_board.py
ampy -p /dev/ttyUSB0 put ./ssd1306.py
ampy -p /dev/ttyUSB0 put ./05-oled.py main.py
# reset device

"""
import machine
import ssd1306
import time

import octopus_robot_board as o  #octopusLab main library - "o" < octopus

i2c = machine.I2C(-1, machine.Pin(o.I2C_SCL_PIN), machine.Pin(o.I2C_SDA_PIN))
oled = ssd1306.SSD1306_I2C(128, 64, i2c)

# test_whole display
oled.fill(1)
oled.show()

time.sleep_ms(300)

# reset display
oled.fill(0)
oled.show()

# write text on x, y
oled.text('OLED test', 20, 20)
oled.show()

示例#24

import lvgl as lv
import lvgl_helper as lv_h
import lvesp32
import display
import time
import machine
import touchscreen as ts
import axp202
import random

i2c0 = machine.I2C(scl=22, sda=21)
pmu = axp202.PMU(i2c0)
pmu.enablePower(axp202.AXP202_LDO2)
pmu.setLDO2Voltage(3300)
tft = display.TFT()

sda_pin = machine.Pin(23)
scl_pin = machine.Pin(32)

i2c = machine.I2C(id=1, scl=scl_pin, sda=sda_pin, speed=400000)
ts.init(i2c)

tft.init(tft.ST7789,width=240, invrot=3,rot=1,bgr=False, height=240, miso=2, mosi=19, clk=18, cs=5, dc=27,speed=40000000,color_bits=tft.COLOR_BITS16,backl_pin=12,backl_on=1)

tft.clear(tft.RED)
time.sleep(1)
tft.clear(tft.GREEN)
time.sleep(1)
tft.clear(tft.BLUE)
time.sleep(1)

示例#25

 def __init__(self):
     self.iic = machine.I2C(scl=machine.Pin(5), sda=machine.Pin(4))
     self.iic.start()
     self.iic.writeto(0x68, bytearray([107, 0]))
     self.iic.stop()

示例#26

import machine
import adafruit_sht31d

# Create library object using our Bus I2C port
i2c = machine.I2C(0, scl=machine.Pin(22), sda=machine.Pin(21))  # esp32
sensor = adafruit_sht31d.SHT31D(i2c, address=69)

print("\033[1mSensor\033[0m = SHT31-D")
print("\033[1mSerial Number\033[0m = ", sensor.serial_number, "\n")

for i in range(3):
    if i == 0:
        sensor.repeatability = adafruit_sht31d.REP_LOW
        print("\033[1m\033[36mLow Repeatability:\033[0m\n")
    if i == 1:
        sensor.repeatability = adafruit_sht31d.REP_MED
        print("\n\033[1m\033[36mMedium Repeatability:\033[0m\n")
    if i == 2:
        sensor.repeatability = adafruit_sht31d.REP_HIGH
        sensor.clock_stretching = False
        print("\n\033[1m\033[36mHigh Repeatability:\033[0m")
        # print("\033[1m\033[95mClock Stretching:\033[0m \033[92mEnabled\033[0m\n")
    for itr in range(3):
        print("\033[1mTemperature:\033[0m %0.3f ºC" % sensor.temperature)
        print("\033[1mHumidity:\033[0m %0.2f %%" % sensor.relative_humidity,
              "\n")

示例#27

#code for i2c(2 sensors)

import machine, utime
#utime.sleep_ms(100)
i2c = machine.I2C(scl=machine.Pin(33), sda=machine.Pin(32), freq=200000)
a = i2c.scan()
#utime.sleep_ms(100)
i2c.writeto(a[0], 'r')
utime.sleep_ms(1000)
addr1 = i2c.readfrom(a[0], 5)
utime.sleep_ms(1000)
i2c.writeto(a[1], 'r')
utime.sleep_ms(1000)
addr2 = i2c.readfrom(a[1], 5)
#utime.sleep_ms(100)
print(a, addr1, addr2)

示例#28

	def __init__(self):
		self.scl_pin = machine.Pin(26)
		self.sda_pin = machine.Pin(27)
		self.i2c = machine.I2C(sda=self.sda_pin, scl=self.scl_pin)
		_thread.start_new_thread(self.thread, ())

示例#29

文件： main.py 项目： rigyoukou/degu-micropython-samples

import time
import zcoap
import ujson
import machine
from sys import exit

i2c = machine.I2C(1)

# Default I2C slave address
ADXL345_I2CADDR = 0x53

ADXL345_DATA_FORMAT = 0x31
ADXL345_BW_RATE = 0x2C
POWER_CTL = 0x2D

ADXL345_BW_RATE1600HZ = 0x0F
ADXL345_BW_RATE800HZ = 0x0E
ADXL345_BW_RATE400HZ = 0x0D
ADXL345_BW_RATE200HZ = 0x0C
ADXL345_BW_RATE100HZ = 0x0B
ADXL345_BW_RATE50HZ = 0x0A
ADXL345_BW_RATE25HZ = 0x09

ADXL345_FS_2g = 0x00
ADXL345_FS_4g = 0x01
ADXL345_FS_8g = 0x02
ADXL345_FS_16g = 0x03

MEASURE = 0x08
AXES_DATA = 0x32

示例#30

文件： main.py 项目： NiekB4/aqs

BIGSLEEP = 800  # 800 seconds for 15 minutes intervals.
ROUND = 1
TICKER = 1

while True:
    f = open("data/data.csv", "a")
    print("862c. Round ", ROUND)
    time.sleep(2)
    insert_one_1 = aq(5, 1)
    insert_two_1 = aq(5, 2)
    time.sleep(2)
    temphum1 = am2302.th1.read()
    temphum2 = am2302.th2.read()
    i2c_light = machine.I2C(0,
                            pins=("P21", "P22"))  # (P21 is SDA, P22 is clock)
    lightsensor = BH1750(i2c_light)
    luminance = lightsensor.luminance(BH1750.ONCE_HIRES_1)
    time.sleep(2)
    timesec = time.time()
    f.write(
        str(ROUND) + '; ' + str("862c") + '; ' + str(insert_one_1[0]) + '; ' +
        str(insert_one_1[1]) + '; ' + str(insert_one_1[2]) + '; ' +
        str(insert_two_1[0]) + '; ' + str(insert_two_1[1]) + '; ' +
        str(insert_two_1[2]) + '; ' + str(temphum1.temperature) + '; ' +
        str(temphum2.temperature) + '; ' + str(temphum1.humidity) + '; ' +
        str(temphum2.humidity) + '; ' + str(luminance) + '; ' + str(timesec) +
        '\n')
    f.close()
    pms5003.fan_off()
    ROUND += 1