Example #1
0
def getSpectrumData():
    global leftData, rightData
    io.digitalWrite(pinReset, 1)
    io.digitalWrite(pinClock, 1)
    time.sleep(0.001)
    io.digitalWrite(pinClock, 0)
    time.sleep(0.001)
    io.digitalWrite(pinReset, 0)
    io.digitalWrite(pinClock, 1)
    time.sleep(0.004)
    for s in range(0, 7):
        io.digitalWrite(pinClock, 0)
        time.sleep(0.004)  # allow output to settle
        leftData[s] = scaleReading(io.analogRead(70), s, 0)
        rightData[s] = scaleReading(io.analogRead(71), s, 1)
        io.digitalWrite(pinClock, 1)
Example #2
0
def main():
    global clip, stop, pendingStop, mode, clipShift, nextPhase, stepTime
    initGPIO()
    print "Get A Grip - sequencer"
    clip = 0
    clipShift = 0
    stop = False
    mode = False
    pendingStop = False
    while True:
        if io.digitalRead(modePush) == 0 and io.digitalRead(startPush) == 0:
            terminate()
        if not stop:
            stepTime = 0.004 + (io.analogRead(71) / 2000.0)
            nextStep = time.time() + stepTime
            setMux(clip)
            #print clip, clipShift
            while time.time() <= nextStep:
                readStart()
                readMode()
                if mode and time.time() > nextPhase:
                    echoSequence()
            readAD(clip)
            incrementClip()
        else:
            readStart()
Example #3
0
def readAD(step):
    value = io.analogRead(70)  # read multiplex
    look = 0
    while value >= threshold[look]:
        look += 1
    if look > 0 and look < 16:
        seqSound[look - 1].play()
Example #4
0
 def run(self):
     self.is_running == True
     wiringpi.wiringPiSetup()
     wiringpi.mcp3442Setup(0)
     while self.is_running == True:
         'Read from pin 10 (MOSI SPI pin)'
         current_voltage = wiringpi.analogRead(10)
         print 'Voltage read: ' + current_temp
         time.sleep(1)
Example #5
0
def readAD(step):
    global gripState
    value = io.analogRead(70)  # read multiplex
    look = 0
    while value >= threshold[look]:
        look += 1
    gripState[step] = look
    if look > 0 and look < 16:
        seqSound[look - 1].play()
Example #6
0
def getSpectrumData():
    # set up the chip ot read in the data
    global leftData, rightData
    io.digitalWrite(pinReset, 1)
    io.digitalWrite(pinClock, 1)
    time.sleep(0.001)
    io.digitalWrite(pinClock, 0)
    time.sleep(0.001)
    io.digitalWrite(pinReset, 0)
    io.digitalWrite(pinClock, 1)
    time.sleep(0.004)
    # now read in each channel in turn
    for s in range(0, 7):
        io.digitalWrite(pinClock, 0)
        time.sleep(0.004)  # allow output to settle
        leftData[s] = scaleReading(io.analogRead(70), s, 0)
        rightData[s] = scaleReading(io.analogRead(71), s, 1)
        io.digitalWrite(pinClock, 1)
Example #7
0
def main_pub_inf_office_sensor() :
    # Initialize WiringPi 
    wiringpi.wiringPiSetup()  
    # Initialize mcp3004 ADC - first parm is pin base (must be > 64)
    # Second param is SPI bus number
    wiringpi.mcp3004Setup(100,0)

    # Initialize zmq
    context = zmq.Context()
    socket = context.socket(zmq.PUB)
    socket.bind(zmqSocket)


    try: 
        while True:
            sensorReading = {}
            sensorReading['readTimeString'] = datetime.datetime.now().strftime("%m/%d/%y %I:%M%p")
            # Try to grab a DHT22 sensor reading.  Use the read_retry method which will retry up
            # to 15 times to get a sensor reading (waiting 2 seconds between each retry).
            sensor = Adafruit_DHT.DHT22
            # pin is GPIO numbering, not wiringpi numbering
            humidity, temperature = Adafruit_DHT.read_retry(sensor, 12)
            sensorReading['temperatureF'] = round((1.8 * temperature) + 32)
            sensorReading['humidity'] = round(humidity,1)
            
            # ADC read
            # pin 0 is lux meter 100 + 0 = 100
            value = wiringpi.analogRead(100)
            sensorReading['lux'] = rawToLux(value)

            if doAnalog == True:
                # pin 2 is analog temp
                value = wiringpi.analogRead(102)
                atemp = (((value / 1024.0) * 3.3) * 100.0) - 50
                sensorReading['temperatureC'] = round(atemp,1)
            sensorString = json.dumps(sensorReading)
            socket.send_multipart(['INF_SENSOR',sensorString])
            time.sleep(5)

    except KeyboardInterrupt:
        print ("Exit by KeyboardInterrupt\n")
Example #8
0
import wiringpi2, time

class AnalogReader(object):

        OUTPUT = 1
        status = False

        def __init__(self, pin):
                self.pin = pin
                wiringpi2.pinMode(self.pin,self.OUTPUT)
        def read(self):
               	return wiringpi2.analogRead(self.pin)
		

wiringpi2.wiringPiSetup()
#reader = AnalogReader(0)
wiringpi2.pinMode(0,1)
while 1:
	time.sleep(0.2)
	print wiringpi2.analogRead(0)
Example #9
0
def readAnalog(chan):
	try:
		return wp.analogRead(chan)
	except:
		return -1
Example #10
0
import wiringpi2 as wiringpi
from time import sleep
wiringpi.wiringPiSetupGpio()
wiringpi.pinMode(4,0)

try:
	while True:
		if wiringpi.digitalRead(7):
			print "Printing the vibration" + str( wiringpi.analogRead(4))
		sleep(0.5)

finally:
               print " end of the program"
Example #11
0
 def read_raw(self):
     return wiringpi2.analogRead(self.analog_pin)
Example #12
0
import wiringpi2 as wpi
import time
import redis
import math

rs = redis.StrictRedis(host='localhost', port=6379, db=0)

wpi.wiringPiSetup()
wpi.mcp3004Setup(70,0)

rawvoltage = [0,0,0,0,0,0,0,0,0,0]

i=0
while True:
	rawvoltage[i] = (wpi.analogRead(73) *33)/1024.0
	i = (i+1)%10
	sumvoltage =0
	for j in range(10):
		sumvoltage += rawvoltage[j]
	power =  int(math.floor(13 * sumvoltage))
	if 200 < power:
		power = 200
	r = rs.set('voltage', sumvoltage)
	r = rs.set('power', power)
	time.sleep(.1)
Example #13
0
# GPIO number
LED_PIN = 25

# threshold
THRESHOLD = 200

# setup
wp.mcp3002Setup (PIN_BASE, SPI_CH)
wp.wiringPiSetupGpio()
wp.pinMode(LED_PIN, wp.GPIO.OUTPUT)

# if a sensor value is over THRESHOLD,
# flash led.
while True:
    value = wp.analogRead(PIN_BASE)
    print (value)

    if value > THRESHOLD:
      wp.digitalWrite(LED_PIN, wp.GPIO.HIGH)
      time.sleep(0.2)
      wp.digitalWrite(LED_PIN, wp.GPIO.LOW)
      time.sleep(0.2)
      requests.post("http://maker.ifttt.com/trigger/button_pressed/with/key/7nP8omSWbqca3Cdryst5c", json={"value1": "Yes"})
      connector = MySQLdb.connect(host="localhost", db="logging", user="******", passwd="choooh1031", charset="utf8")
      cursor = connector.cursor()
      sql = u"insert into pressure values(now(), %s)" % value
      cursor.execute(sql)
      connector.commit()
      cursor.close()
      connector.close()
Example #14
0
 def distance(self):
     volts = wiringpi2.analogRead(200) * 3.3 / 256.0
     return 60.495 * math.pow(volts, -1.1904)
Example #15
0
 def read(self):
        	return wiringpi2.analogRead(self.pin)
Example #16
0
import wiringpi2 as wiringpi

wiringpi.wiringPiSetup()

print wiringpi.digitalRead(1)
print wiringpi.analogRead(1)
Example #17
0
def getJoyData():
    global leftData, rightData
    for s in range(0, 4):
        joyData[s] = scaleReading(io.analogRead(70 + s))
Example #18
0
thread = threading.Thread(target=reader)
thread.start()
# end nfc setup

count = 0
mlux = mpir = mmat = msound = mvolume = 0

while True:
    time.sleep(3)
    # read sensor data
    ts = int(time.time())
    lux = tsl.lux()
    pir = wpi.digitalRead(2)
    mat = wpi.digitalRead(3)
    sound = wpi.digitalRead(21)
    volume = wpi.analogRead(
        0) * 255 / 2047  # 0-10=quiet, 10-30=moderate, 30-127=loud

    mom = 0
    dad = 0
    if mat == 0:
        if nfcid == 'F10B330F':
            mom = 1
        elif nfcid == '833BC4A2':
            dad = 1

    if lux > mlux:
        mlux = lux
    if pir > mpir:
        mpir = pir
    if mat < mmat:
        mmat = mat