Esempio n. 1
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 def _check_refresh(self, min_refresh_rate):
     now = ticks_ms()
     if self.last_measure == 0 or now - self.last_measure > min_refresh_rate:
         try:
             DHT22.measure(self)
         except OSError:
             raise OSError(
                 "Please check if sensor is connected to Port {0}".format(
                     self.port))
     self.last_measure = now
Esempio n. 2
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    def __init__(
            self,
            pin,
            precision_temp=2,
            precision_humid=1,  # extend or shrink according to your sensor
            offset_temp=0,
            offset_humid=0,  # also here
            interval=None,
            mqtt_topic=None):
        interval = interval or config.INTERVAL_SEND_SENSOR
        self.topic = mqtt_topic or mqtt.getDeviceTopic(component_name)

        ##############################
        # adapt to your sensor by extending/removing unneeded values like in the constructor arguments
        self._prec_temp = int(precision_temp)
        self._prec_humid = int(precision_humid)
        ###
        self._offs_temp = float(offset_temp)
        self._offs_humid = float(offset_humid)
        ##############################
        # create sensor object
        if type(pin) == str:
            pin = config.pins[pin]
        self.sensor = Sensor(
            machine.Pin(pin))  # add neccessary constructor arguments here
        ##############################
        # choose a background loop that periodically reads the values and publishes it
        # (function is created below)
        background_loop = self.tempHumid
        ##############################
        gc.collect()
        asyncio.get_event_loop().create_task(
            self._loop(background_loop, interval))
Esempio n. 3
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 def __init__(self,
              pin,
              precision_temp=2,
              precision_humid=1,
              offset_temp=0,
              offset_humid=0,
              friendly_name_temp=None,
              friendly_name_humid=None,
              **kwargs):
     # This makes it possible to use multiple instances of MySensor and have unique identifier
     global _unit_index
     _unit_index += 1
     super().__init__(COMPONENT_NAME,
                      __version__,
                      _unit_index,
                      logger=_log,
                      **kwargs)
     self._addSensorType(SENSOR_TEMPERATURE, precision_temp, offset_temp,
                         _VAL_T_TEMPERATURE, "°C", friendly_name_temp)
     self._addSensorType(SENSOR_HUMIDITY, precision_humid, offset_humid,
                         _VAL_T_HUMIDITY, "%", friendly_name_humid)
     ##############################
     # create sensor object
     self.sensor = Sensor(
         Pin(pin))  # add neccessary constructor arguments here
     ##############################
     gc.collect()
Esempio n. 4
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 def __init__(self,
              pin,
              precision_temp=2,
              precision_humid=1,
              offset_temp=0,
              offset_humid=0,
              interval_publish=None,
              interval_reading=None,
              mqtt_topic=None,
              friendly_name_temp=None,
              friendly_name_humid=None,
              discover=True,
              expose_intervals=False,
              intervals_topic=None):
     # This makes it possible to use multiple instances of MySensor and have unique identifier
     global _unit_index
     _unit_index += 1
     super().__init__(COMPONENT_NAME, __version__, _unit_index, discover,
                      interval_publish, interval_reading, mqtt_topic, _log,
                      expose_intervals, intervals_topic)
     self._addSensorType(SENSOR_TEMPERATURE, precision_temp, offset_temp,
                         _VAL_T_TEMPERATURE, "°C", friendly_name_temp)
     self._addSensorType(SENSOR_HUMIDITY, precision_humid, offset_humid,
                         _VAL_T_HUMIDITY, "%", friendly_name_humid)
     ##############################
     # create sensor object
     self.sensor = Sensor(
         Pin(pin))  # add neccessary constructor arguments here
     ##############################
     gc.collect()
Esempio n. 5
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def run():
    connect_to_wifi()
    d = DHT22(Pin(PIN_LABEL["D5"]))
    while True:
        d.measure()
        send_data(d.temperature(), d.humidity())
        time.sleep(1)
Esempio n. 6
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def __init_DHT22():
    global __DHT_OBJ
    if __DHT_OBJ is None:
        from dht import DHT22
        from machine import Pin
        __DHT_OBJ = DHT22(Pin(physical_pin('dhtpin')))
    return __DHT_OBJ
Esempio n. 7
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    def __init__(
            self,
            pin,
            precision_temp=2,
            precision_humid=1,  # extend or shrink according to your sensor
            offset_temp=0,
            offset_humid=0,  # also here
            interval=None,
            mqtt_topic=None,
            friendly_name=None):
        super().__init__()
        self._interval = interval or config.INTERVAL_SEND_SENSOR
        self._topic = mqtt_topic or _mqtt.getDeviceTopic(_component_name)

        ##############################
        # adapt to your sensor by extending/removing unneeded values like in the constructor arguments
        self._prec_temp = int(precision_temp)
        self._prec_humid = int(precision_humid)
        ###
        self._offs_temp = float(offset_temp)
        self._offs_humid = float(offset_humid)
        ##############################
        # create sensor object
        self.sensor = Sensor(
            Pin(pin))  # add neccessary constructor arguments here
        ##############################
        global _count
        self._count = _count
        _count += 1
        self._frn = friendly_name
        gc.collect()
Esempio n. 8
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def __init_DHT22():
    global __DHT_OBJ
    if __DHT_OBJ is None:
        from dht import DHT22
        from machine import Pin
        from LogicalPins import get_pin_on_platform_by_key
        __DHT_OBJ = DHT22(Pin(get_pin_on_platform_by_key('simple_1')))
    return __DHT_OBJ
Esempio n. 9
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 def __init__(self, pin):
     if not isinstance(pin, int):
         raise TypeError("pin must be integer")
     from dht import DHT22
     self.sensor = DHT22(machine.Pin(pin))
     time.sleep(1)  # some delay to stabilize sensor
     self.t = None
     self.h = None
Esempio n. 10
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def get_reading():
    dht_power_pin = Pin(config.DHT_POWER_PIN, Pin.OUT)
    dht_power_pin.on()
    dht = DHT22(Pin(config.DHT_DATA_PIN))
    time.sleep(3)
    dht.measure()
    reading_time = time.time() + 946684800
    dht_power_pin.off()
    return (reading_time, dht.temperature(), dht.humidity())
Esempio n. 11
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def setup():
    # wifi
    name = config['wifi']['name']
    passwd = config['wifi']['password']
    connect_wifi(name, passwd)

    # sensors
    moisture_pin = ADC(config['board']['moisture_pin_num'])
    pin = Pin(config['board']['temp_humid_pin_num'])
    temp_humid_pin = DHT22(pin)

    return (moisture_pin, temp_humid_pin)
Esempio n. 12
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def read_dht22():
    pin = 0
    dht = DHT22(Pin(pin))
    dht.measure()
    return [{
        "id": "dht22_{}_temp".format(pin),
        "value": dht.temperature(),
        "type": "temperature"
    }, {
        "id": "dht22_{}_humidity".format(pin),
        "value": dht.humidity(),
        "type": "humidity"
    }]
Esempio n. 13
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class DHT22(ComponentSensor):
    def __init__(self,
                 pin,
                 precision_temp=2,
                 precision_humid=1,
                 offset_temp=0,
                 offset_humid=0,
                 interval_publish=None,
                 interval_reading=None,
                 mqtt_topic=None,
                 friendly_name_temp=None,
                 friendly_name_humid=None,
                 discover=True,
                 expose_intervals=False,
                 intervals_topic=None):
        # This makes it possible to use multiple instances of MySensor and have unique identifier
        global _unit_index
        _unit_index += 1
        super().__init__(COMPONENT_NAME, __version__, _unit_index, discover,
                         interval_publish, interval_reading, mqtt_topic, _log,
                         expose_intervals, intervals_topic)
        self._addSensorType(SENSOR_TEMPERATURE, precision_temp, offset_temp,
                            _VAL_T_TEMPERATURE, "°C", friendly_name_temp)
        self._addSensorType(SENSOR_HUMIDITY, precision_humid, offset_humid,
                            _VAL_T_HUMIDITY, "%", friendly_name_humid)
        ##############################
        # create sensor object
        self.sensor = Sensor(
            Pin(pin))  # add neccessary constructor arguments here
        ##############################
        gc.collect()

    async def _read(self):
        try:
            self.sensor.measure()
            await asyncio.sleep(1)
            self.sensor.measure()
        except Exception as e:
            await _log.asyncLog("error",
                                "DHT22 is not working,",
                                e,
                                timeout=10)
            return None, None
        await asyncio.sleep_ms(
            100
        )  # give other tasks some time as measure() is slow and blocking
        try:
            temp = self.sensor.temperature()
            humid = self.sensor.humidity()
        except Exception as e:
            await _log.asyncLog("error", "Error reading DHT22:", e, timeout=10)
        else:
            await self._setValue(SENSOR_TEMPERATURE, temp)
            await self._setValue(SENSOR_HUMIDITY, humid)
Esempio n. 14
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 def __init__(self, node_name, node_ip, node_gateway, node_wifi_ssid,
              node_wifi_password):
     self.node_name = node_name
     self.node_ip = node_ip
     self.node_gateway = node_gateway
     self.node_wifi_ssid = node_wifi_ssid
     self.node_wifi_password = node_wifi_password
     self.client = MQTTClient(self.node_name, self.node_gateway)
     self.client.connect()
     self.sensordht = DHT22(Pin(15, Pin.IN, Pin.PULL_UP))
     self.i2c = I2C(scl=Pin(22), sda=Pin(21))
     self.i2csgp30 = I2C(scl=Pin(17), sda=Pin(16))
     self.bmp = bmp280.BMP280(self.i2c)
     self.sgp30 = adafruit_sgp30.Adafruit_SGP30(self.i2csgp30)
     self.sgp30.iaq_init()
     self.mq135 = mq135.MQ135(Pin(36))
     self.data = {}
     self.data["node"] = self.node_name
Esempio n. 15
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def temp_hum():
    client = MQTTClient(CLIENT_ID, SERVER)
    client.connect()
    sensor = DHT22(Pin(5, Pin.IN, Pin.PULL_UP))

    while True:
        try:
            sensor.measure()
            temperature = sensor.temperature()
            humidity = sensor.humidity()
            if isinstance(temperature, float) and isinstance(humidity, float):
                msg = (b"{0:3.1f},{1:3.1f}".format(temperature, humidity))
                print(msg)  # to be removed later
                client.publish(TOPIC, msg)
        except OSError:
            print("System error")
        # sleep(3600) # one hour
        sleep(10)  # for testing
Esempio n. 16
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def startSensing():
    sensor = DHT22(Pin(cnf.DHT22_PIN, Pin.IN, Pin.PULL_UP))
    ledPublish = None if cnf.LED_PUBLISH_PIN == None else Pin(
        cnf.LED_PUBLISH_PIN, Pin.OUT)
    ledRead = None if cnf.LED_READ_PIN == None else Pin(
        cnf.LED_READ_PIN, Pin.OUT)
    ledError = None if cnf.LED_ERROR_PIN == None else Pin(
        cnf.LED_ERROR_PIN, Pin.OUT)

    try:
        client = viv.initMQTTClient(cnf.MQTT_BROKER, cnf.CLIENT_ID)

        try:
            while True:
                try:
                    if isinstance(ledRead, Pin): ledRead.value(1)

                    readings = viv.readValues(sensor)
                    print(readings)
                    t, h = readings

                    if isinstance(ledRead, Pin): ledRead.value(0)
                    if isinstance(ledPublish, Pin): ledPublish.value(1)

                    viv.publishValue(client, cnf.TOPIC_TEMP, t)
                    viv.publishValue(client, cnf.TOPIC_HUMID, h)

                    if isinstance(ledPublish, Pin): ledPublish.value(0)
                except OSError:
                    print('Failed to read sensor')
                sleep(cnf.SENSOR_SLEEP)
        except KeyboardInterrupt:
            print("\nCtrl-C pressed. Cleaning up and exiting")
        finally:
            client.disconnect()
            if isinstance(ledPublish, Pin): ledPublish.value(0)
            if isinstance(ledRead, Pin): ledRead.value(0)
    except OSError:
        util.blink(ledError, 5, 2, 1, 1, 0.1)
        print('Could not connect to MQTT broker')
        sys.exit()
Esempio n. 17
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    def __init__(self, **kwargs):
        super().__init__(**kwargs)
        self.temperature_id = None
        self.humidity_id = None

        self.add_id(self.sensor, kwargs.get('_id'))

        self._last_measure = None

        sensor_value = getattr(HumidityTemperatureSensor, self.pattern)

        if sensor_value == 0:
            from dht import DHT11
            self.sensor = DHT11(Pin(self.pins[0], Pin.PULL_UP))
        elif sensor_value == 1:
            from dht import DHT22
            self.sensor = DHT22(Pin(self.pins[0], Pin.PULL_UP))
        else:
            raise Exception('sensor not available')
        self._last_temperature = None
        self._last_humidity = None
Esempio n. 18
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    def __init__(self):
        self.wifi = Wifi(
            ssid=CONFIG["WIFI_SSID"],
            password=CONFIG["WIFI_PASSWORD"],
            gmt=CONFIG["GMT"],
        )
        self.mqtt = Mqtt(
            ip=CONFIG["MQTT_IP"],
            user=CONFIG["MQTT_USER"],
            password=CONFIG["MQTT_PASS"],
            keepalive=CONFIG["MQTT_KEEPALIVE"],
        )
        self.mqtt.set_last_will(
            topic=CONFIG["LW_TOPIC"],
            msg=ujson.dumps(CONFIG["LW_MSG_OFFLINE"]),
            retain=CONFIG["LW_RETAIN"],
            qos=CONFIG["LW_QOS"],
        )

        self.dht22 = DHT22(Pin(CONFIG["DHT22_PIN"]))
        self.is_sending_synchronizate = False
Esempio n. 19
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def publish():
    SERVER = '192.168.0.13'  # MQTT Server Address (Change to the IP address of you$
    CLIENT_ID = 'ESP32_DHT22_Sensor'
    TOPIC = b'temp_humidity'
    client = MQTTClient(CLIENT_ID, SERVER)
    client.connect()  # Connect to MQTT broker
    dht_running = True
    sensor = DHT22(Pin(
        15, Pin.IN,
        Pin.PULL_UP))  #DHT22 on GPIO 15 (input with internal pull up resistor)
    while dht_running:
        try:
            sensor.measure()  # Poll sensor
            t = sensor.temperature()
            h = sensor.humidity()
            tm = time.localtime(time.time())
            tmstr = '{:04d}-{:02d}-{:02d} {:02d}:{:02d}'.format(
                tm[0], tm[1], tm[2], tm[3], tm[4])
            print(tm)
            print(t, h, tm[0])
            if isinstance(t, float) and isinstance(
                    h, float
            ) and tm[0] > 2000:  # Confirm sensor results are numeric
                msg = (b'{0},{1:3.1f},{2:3.1f}'.format(tmstr, t, h))
                client.publish(
                    TOPIC, msg,
                    retain=True)  # Publish sensor data to MQTT topic
                print(str(msg))
                print('Sent to ' + SERVER + ' as ' + CLIENT_ID + '. Exiting.')
                client.disconnect()
                dht_running = False
            else:
                print('Invalid sensor readings.')
        except OSError:
            print('Failed to read sensor.')
        time.sleep(5)
Esempio n. 20
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# micropython GPIO wrapper to read data from sensor for ESP8266 based board
Esempio n. 21
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import picoweb
from time import sleep
from machine import Pin
from dht import DHT22
import network
sta_if = network.WLAN(network.STA_IF)
if not sta_if.isconnected():
    print('connecting to network...')
    sta_if.active(True)
    sta_if.connect('DangerVirus', 'abivarsh@2016')
    while not sta_if.isconnected():
        pass
print('network config:', sta_if.ifconfig())
ipadd = sta_if.ifconfig()
app = picoweb.WebApp(__name__)
hw_sensor = DHT22(Pin(13, Pin.IN, Pin.PULL_UP))


@app.route("/temp")
def html(req, resp):
    hw_sensor.measure()
    t = hw_sensor.temperature()
    h = hw_sensor.humidity()
    sensor = {"tmpr": t, "hmdty": h}
    msg = (b'{0:3.1f} {1:3.1f}'.format(t, h))
    print(msg)
    yield from picoweb.start_response(resp, content_type="text/html")
    yield from app.render_template(resp, "sensor.tpl", (sensor, ))


app.run(debug=True, host=ipadd[0])
Esempio n. 22
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sda = Pin(21)
pins = [
    None,
    Pin(23, Pin.OUT),
    Pin(19, Pin.OUT),
    Pin(18, Pin.OUT),
    Pin(4, Pin.OUT)
]
i2c = I2C(scl=scl, sda=sda, freq=100000)
oled = SSD1306_I2C(128, 64, i2c, addr=0x3C)
oled.fill(0)
oled.text('ESP32', 45, 5)
oled.text('MicroPython', 20, 20)
oled.show()
loop = asyncio.get_event_loop()
d = DHT22(dthPn)


def btn_callback(e):
    global client
    global CLIENT_ID
    topic = 'micro/{0}/alarm'.format(CLIENT_ID.decode("utf-8"))
    msg = None
    if e is btn1:
        msg = json.dumps({'type': 'room1', 'msg': 'alarm'})
    else:
        msg = json.dumps({'type': 'room2', 'msg': 'alarm'})

    client.publish(topic, msg)
Esempio n. 23
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from dht import DHT22
from machine import Pin
import time
dhtPn = Pin(17)
dht = DHT22(dhtPn)
while True:
    dht.measure()
    print('Temp: {0:.2f}, Humi: {1:.2f}'.format(dht.temperature(),
                                                dht.humidity()))
    time.sleep(5)
Esempio n. 24
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### misc ###
from machine import Pin
from time import sleep
from time import sleep_ms
from machine import deepsleep
SLEEPDELAY = SLEEPTIME * 60000 - 3000     # in milliseconds; edit SLEEPTIME to modify

### network ###
from network import WLAN
from network import STA_IF
station = WLAN(STA_IF)

### DHT22 ###
from dht import DHT22
sensor = DHT22(Pin(15, Pin.IN, Pin.PULL_UP))

### LED ###
#from machine import Pin
# ESP32 modules have blue, active-high LED on GPIO2
LED2 = Pin(2, Pin.OUT, value=0)

### ADC ###
from machine import ADC
adc = ADC(Pin(36))
#adc.atten(adc.ATTN_0DB)
adc.atten(adc.ATTN_11DB)
adc.width(adc.WIDTH_10BIT)

### RTC ###
from machine import RTC
Esempio n. 25
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    c.set_callback(sub_cb)
    c.connect()
    c.subscribe(topic)
    #print("Connected to %s, subscribed to %s topic" % (server, topic))
    try:
        c.wait_msg()
    finally:
        c.disconnect()


#---End MQTT Sending---

#---DHT22---
from dht import DHT22

ds = DHT22(Pin(16))  #DHT22 connected to GPIO16


def medirTemHum():
    try:
        ds.measure()
        tem = ds.temperature()
        hum = ds.humidity()
        #ed.value(1)
        return (tem, hum)
    except Exception as e:
        #led.value(0)
        return (-1, -1)


#---End DHT22---
Esempio n. 26
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class DHT22:
    def __init__(
            self,
            pin,
            precision_temp=2,
            precision_humid=1,  # extend or shrink according to your sensor
            offset_temp=0,
            offset_humid=0,  # also here
            interval=None,
            mqtt_topic=None):
        interval = interval or config.INTERVAL_SEND_SENSOR
        self.topic = mqtt_topic or mqtt.getDeviceTopic(component_name)

        ##############################
        # adapt to your sensor by extending/removing unneeded values like in the constructor arguments
        self._prec_temp = int(precision_temp)
        self._prec_humid = int(precision_humid)
        ###
        self._offs_temp = float(offset_temp)
        self._offs_humid = float(offset_humid)
        ##############################
        # create sensor object
        if type(pin) == str:
            pin = config.pins[pin]
        self.sensor = Sensor(
            machine.Pin(pin))  # add neccessary constructor arguments here
        ##############################
        # choose a background loop that periodically reads the values and publishes it
        # (function is created below)
        background_loop = self.tempHumid
        ##############################
        gc.collect()
        asyncio.get_event_loop().create_task(
            self._loop(background_loop, interval))

    async def _loop(self, gen, interval):
        while True:
            await gen()
            await asyncio.sleep(interval)

    async def _dht_read(self):
        try:
            self.sensor.measure()
            await asyncio.sleep(1)
            self.sensor.measure()
        except Exception as e:
            log.error("DHT22 is not working, {!s}".format(e))
            return None, None
        await asyncio.sleep_ms(
            100
        )  # give other tasks some time as measure() is slow and blocking
        try:
            temp = self.sensor.temperature()
            humid = self.sensor.humidity()
        except Exception as e:
            log.error("Error reading DHT22: {!s}".format(e))
            return None, None
        return temp, humid

    async def _read(self, prec, offs, get_value_number=0, publish=True):
        if get_value_number > 2:
            log.error("DHT22 get_value_number can't be >2")
            return None
        try:
            values = await self._dht_read()
        except Exception as e:
            log.error("Error reading sensor {!s}: {!s}".format(
                component_name, e))
            return None
        if values[0] is not None and values[1] is not None:
            for i in range(0, len(values)):
                try:
                    values[i] = round(values[i], prec)
                except Exception as e:
                    log.error("DHT22 can't round value: {!s}, {!s}".format(
                        values[i], e))
                    return None if get_value_number != 0 else (None, None)
                values[i] += offs
        else:
            log.warn("Sensor {!s} got no value".format(component_name))
            return None if get_value_number != 0 else (None, None)
        if publish:
            if get_value_number == 0:
                await mqtt.publish(
                    self.topic, {
                        "temperature":
                        ("{0:." + str(self._prec_temp) + "f}").format(
                            values[0]),
                        "humidity":
                        ("{0:." + str(self._prec_humid) + "f}").format(
                            values[1])
                    })
                # formating prevents values like 51.500000000001 on esp32_lobo
            else:
                await mqtt.publish(self.topic,
                                   ("{0:." + str(prec) + "f}").format(
                                       values[get_value_number]))
        return {
            "temperature": values[0],
            "humiditiy": values[1]
        } if get_value_number == 0 else values[get_value_number]

    ##############################
    # remove or add functions below depending on the values of your sensor

    async def temperature(self, publish=True):
        return await self._read(self._prec_temp, self._offs_temp, 1, publish)

    async def humidity(self, publish=True):
        return await self._read(self._prec_humid, self._offs_humid, 2, publish)

    async def tempHumid(self, publish=True):
        return await self._read(self._prec_humid, self._offs_humid, 0, publish)
Esempio n. 27
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    # Subscribed messages will be delivered to this callback
    c.set_callback(sub_cb)
    c.connect()
    c.subscribe(topic)
    print("Connected to %s, subscribed to %s topic" % (server, topic))
    try:
        c.wait_msg()
    finally:
        c.disconnect()

#---End MQTT Sending---

#---DHT22---
from dht import DHT22

ds = DHT22(Pin(4)) #DHT22 connected to GPIO4

def medirTemHum():
    try:
        ds.measure()
        tem = ds.temperature()
        hum = ds.humidity()
        #ed.value(1)
        return (tem,hum)
    except Exception as e:
        #led.value(0)
        return (-1,-1)

#---End DHT22---

#---Main Program---
Esempio n. 28
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    pin_sda = 21
    pin_sens = 16
else:                   # ESP8266
    pin_scl = 5
    pin_sda = 4
    pin_sens = 2

width = 64
height = 48
frequency = 100000
OP_SINGLE_HRES2 = 0x21
       
i2c = I2C(scl=Pin(pin_scl), sda=Pin(pin_sda), freq=frequency)
oled = SSD1306_I2C(width, height, i2c)
sensor_Pin = Pin(pin_sens, Pin.IN)
sensor = DHT22(sensor_Pin)
topic1 = b'TempDHT22-2'
topic2 = b'HumidDHT22-2'
topic3 = b'Light'

client_id = hexlify(unique_id())

def connect_to_mqtt(config):
  global client_id  client = MQTTClient(client_id, config['mqtt']['broker'])
  client.connect()
  print('Connected to %s MQTT broker' % (config['mqtt']['broker']))
  return client

def restart_and_reconnect():
  print('Failed to connect to MQTT broker. Reconnecting...')
  sleep(10)
Esempio n. 29
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from umqtt import MQTTClient
import machine, ubinascii
import time, gc
import network
import json, errno
from dht import DHT22
from machine import Pin, I2C, Timer, ADC
from ssd1306 import SSD1306_I2C
import _thread as th
a1 = ADC(Pin(32))
a2 = ADC(Pin(33))
a3 = ADC(Pin(34))
scl = Pin(22)
sda = Pin(21)
i2c = I2C(scl=scl, sda=sda, freq=100000) 
oled = SSD1306_I2C(128, 64, i2c)
oled.fill(0)
oled.text('ESP32', 45, 5)
oled.text('MicroPython', 20, 20)
oled.text('System Startimg', 3, 35) 
oled.show()
dhtPn = Pin(17)
d = DHT22(dhtPn)
tim0 = Timer(0)
wlan = network.WLAN(network.STA_IF)
wlan.active(True)
wlan.connect('see_dum', '0863219053')
while not wlan.isconnected():
    print('Wait connection')
    time.sleep(1)
Esempio n. 30
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import ssd1306
from machine import I2C, Pin
from dht import DHT22
from time import sleep

i2c = I2C(-1, Pin(5), Pin(4))
oled = ssd1306.SSD1306_I2C(64, 48, i2c)

dht = DHT22(Pin(2))



def measure_realtime():
    dht.measure()
    sleep(0.2)
    dht.measure()

def term1():
    oled.fill(0)
    oled.invert(0)
    oled.text("GDG Bolu", 0,0)
    oled.text("Sicak", 0,10)
    oled.text("Kanlisin", 0,20)
    oled.text(":)", 0, 30)
    oled.show()


kontrol = False
def term2():
    global kontrol
    oled.fill(0)