コード例 #1
0
ファイル: main.py プロジェクト: sosi-deadeye/control_slave
 def __init__(self, channel, label, unit, min_value, max_value, min_threshold, max_threshold):
     self.adc = MCP3208(channel)
     self.channel = channel
     self.min_value = min_value
     self.max_value = max_value
     self.label = label
     self.unit = unit
     self.min_threshold = min_threshold
     self.max_threshold = max_threshold
コード例 #2
0
def getdata(mlvol, tlength, dev):
    if not dev:
        from gpiozero import MCP3208

    import time
    import numpy as np

    #initialise plotting parameters
    tint = 0
    tplot = []
    voltarray = []
    plt.ion()

    time_elapsed = 0
    initial_time = time.time()

    print("Running program. Please wait...")

    #for i in range(1,50):
    while time_elapsed <= tlength:
        if dev:
            voltage = random.uniform(0, 1)
        else:
            adc = MCP3208(channel=1)
            voltage = 3.3 * adc.value

        time_elapsed = time.time() - initial_time
        tint += time_elapsed
        tplot.append(tint)
        voltarray.append(voltage)

        print(voltage)
        plot_thist(tplot, voltarray, 0, tlength)
        plt.pause(0.05)

        with open('data/' + str(filetime) + '.csv', 'w') as f:
            writer = csv.writer(f, delimiter='\t')
            writer.writerows(zip(tplot, voltarray))

    voltavg = sum(voltarray) / float(len(voltarray))
    print("--------------------------------------------")
    print("Mean Voltage: {}V".format(voltavg))
    #voltsd = np.std(voltarray)
    #print("Standard Deviation: {}V".format(voltsd))

    plot_thist(tplot, voltarray, voltavg, tlength)

    return voltavg
コード例 #3
0
 def __init__(self,
              channel,
              sample_count=5,
              sample_delay=0.1,
              spi_args=None):
     if spi_args is None:
         spi_args = Thermistor.__DEFAULT_SPI_ARGS
     try:
         if os.getenv('GPIOZERO_PIN_FACTORY') != 'mock':
             self.__ic = MCP3208(channel=channel,
                                 differential=False,
                                 **spi_args)
         else:
             self.__ic = None
     except IOError as _:
         self.__ic = None
     self.__sample_count = sample_count
     self.__sample_delay = sample_delay
コード例 #4
0
ファイル: plotlightsense.py プロジェクト: Scott3142/chemRPi
def get_data(mlvol, tlength, dev):
    import numpy as np

    # ### runs program to get data from ldr - stores data as array and averages. ### #
    #initialise plotting parameters
    tint = 0
    tplot = []
    voltarray = []
    #plt.ion()

    #initialise time
    time_elapsed = 0
    initial_time = time.time()

    print("Running program. Please wait...")

    #for i in range(1,50):
    while time_elapsed <= tlength:
        if dev:
            voltage = random.uniform(0, 1)
        else:
            #gets data from adc - calculating voltage from ldr
            adc = MCP3208(channel=1)
            voltage = 3.3 * adc.value

        #store and plot
        time_elapsed = time.time() - initial_time
        tint += time_elapsed
        tplot.append(tint)
        voltarray.append(voltage)

    #calculate average voltage across runtime, and print to console
    voltavg = sum(voltarray) / float(len(voltarray))
    print("--------------------------------------------")
    print("Mean Voltage: {}V".format(voltavg))
    #voltsd = np.std(voltarray)
    #print("Standard Deviation: {}V".format(voltsd))

    #plots time history and sets filename
    filename = 'public/plots/interim.png'
    plot_thist(tplot, voltarray, voltavg, tlength, filename)

    #formats and returns average voltage to get_data function
    return "{:.4f}".format(voltavg)
コード例 #5
0
def ReadMCP3208():
    try:
        print("\nReading MCP3208......\n")
        dataString = ''
        Channel = []
        value = []
        returnFloatVal = ''
        print("Channel Available: ", channel_available)
        for count in range(0, channel_available):

            Scale = 'scale' + str(count + 1)
            Offset = 'offset' + str(count + 1)
            try:
                Channel.append(
                    MCP3208(channel=count,
                            clock_pin=ClockPin,
                            mosi_pin=MosiPin,
                            select_pin=SelectPin))
                #print(Scale)
                #print(mcp3208[Scale])
                #print(Channel[count].value)
                FloatValue = round(
                    float(((Channel[count].value * float(
                        (mcp3208['CalibrationFactor']))) -
                           float(mcp3208[Offset])) * float(mcp3208[Scale])), 2)
            except Exception as gpioErr:
                print(gpioErr)
                FloatValue = 0.00
            returnFloatVal = returnFloatVal + str(FloatValue) + ','
            decimalPlace = str(FloatValue)[::-1].find('.')
            value.append(int(FloatValue * 10))
            #print("Value of Channel no {} is" .format(value[count]))
            dataString = dataString + (str(value[count])) + ','
            #print("Count Channel: ",count)
            #print(dataString)
        print("DataString of MCP3208 = " + dataString + '\n')
        return dataString, returnFloatVal
    except Exception as errADC:
        print(errADC)
        dataString = ''
        returnFloatVal = ''
        return dataString, returnFloatVal
コード例 #6
0
ファイル: guilightsense.py プロジェクト: Scott3142/chemRPi
def getdata(mlvol, tlength, dev):
    import time
    import numpy as np

    #initialise plotting parameters
    tint = 0
    tplot = []
    voltarray = []
    plt.ion()

    time_elapsed = 0
    initial_time = time.time()

    print("Running program. Please wait...")

    #for i in range(1,50):
    while time_elapsed <= tlength:
        if dev:
            voltage = random.uniform(0, 1)
        else:
            adc = MCP3208(channel=1)
            voltage = 3.3 * adc.value

        time_elapsed = time.time() - initial_time
        tint += time_elapsed
        tplot.append(tint)
        voltarray.append(voltage)

    voltavg = sum(voltarray) / float(len(voltarray))
    print("--------------------------------------------")
    print("Mean Voltage: {}V".format(voltavg))
    #voltsd = np.std(voltarray)
    #print("Standard Deviation: {}V".format(voltsd))

    plot_thist(tplot, voltarray, voltavg, tlength)

    return voltavg
コード例 #7
0
ファイル: mainHand.py プロジェクト: daichikuwa0618/handSensor
# -*- coding: utf-8 -*-
#!/usr/bin/env python

# Created Daichi Hayashi
# Yonago Institute of Technology
# Copyright ©️ 2017 Daichi Hayashi. All rights reserved.

# move 3 fingers following to proximity sensors

# ========== import ==========
import pigpio
from gpiozero import MCP3208
import time
from datetime import datetime

adc0 = MCP3208(channel = 0)
adc1 = MCP3208(channel = 1)
adc2 = MCP3208(channel = 2)

Vref = 5.05 # reference voltage of MCP3208

pwm = pigpio.pi()

# ========== constants ==========
fing0Pin = 15
fing1Pin = 18
fing2Pin = 23
# Threshold distance to stop motor[mm]
stopDst  = 20.0
# start distance of control[mm]
maxDst   = 100.0
コード例 #8
0
ファイル: total.py プロジェクト: juyongseong/capstone
from gpiozero import MCP3208
import time
import RPi.GPIO as GPIO
import Adafruit_DHT
import urllib.request

#mcp setup
adc1 = MCP3208(0)
adc2 = MCP3208(1)

# water setup
MOTER_A_A1=5
MOTER_A_B1=6

GPIO.setmode(GPIO.BCM)
GPIO.setup(MOTER_A_A1, GPIO.OUT)
GPIO.setup(MOTER_A_B1, GPIO.OUT)

MOTER_A_A1_PWM=GPIO.PWM(MOTER_A_A1, 20)
MOTER_A_A1_PWM.start(0)
GPIO.output(MOTER_A_B1,GPIO.LOW)

#temp
sensor = Adafruit_DHT.DHT11

pin = 4

humidity,temperature = Adafruit_DHT.read_retry(sensor,pin)


while(True):
コード例 #9
0
ファイル: Monitor.py プロジェクト: meanpenguin/RTIMULib
#
#/////////////////////////////////////////////////////////////////
# Startup 
#/////////////////////////////////////////////////////////////////
#
# MCP3208 A/D Startup
#////////////////////////////////////////////////////////////////
# MCP3008(channel=0, clock_pin=11, mosi_pin=10, miso_pin=9, select_pin=8)
# 8 channel A/D microchip 
# usually Chip Select is not connected to pin 22 but to pin 8 or 7
# if new sensor board is made, change that pin to new chip select connection
# do not change mosi_pin
# do not change clock pin
# select_pin is same for a single A/D chip, so keep same for all channels
# One input is converted at a time
ch0=MCP3208(channel=0, clock_pin=11, mosi_pin=10, miso_pin=9, select_pin=22)
ch4=MCP3208(channel=4, clock_pin=11, mosi_pin=10, miso_pin=9, select_pin=22)
# interval for reading MCP A/D converter, needs to be same or slower than IMU rate
# in seconds
AmpHour = 0.0
pressureTorpedo = 0.0

#
poll_interval = 100
print("Recommended Poll Interval: %dmS\n" % poll_interval)

#
# ROS Startup
# //////////////////////////////////////////////////////////////////////
pubAmpHour = rospy.Publisher('AmpHour', Float64, queue_size=10)
pubPressureTorpedo = rospy.Publisher('pressureTorpedo`', Float64, queue_size=10)
コード例 #10
0
from time import sleep
import matplotlib.pyplot as plt

#initialise LED
red_led = LED(17)

#initialise plotting parameters
tint = 0
tplot = []
lplot = []
plt.ion()

delay = 0.05

while True:
    tmp = MCP3208(channel=7)
    temperature = (tmp.value * 3.3 - 0.5) * 100

    if (temperature >= 25):
        red_led.on()
    else:
        red_led.off()

    # Print out results
    print("--------------------------------------------")
    print("Temp: {}C".format(temperature))

    tint += delay
    tplot.append(tint)

    lplot.append(temperature)
コード例 #11
0
import time
#Outputting Hello World to the LCD
thelcd = I2C_LCD_driver.lcd()
thelcd.lcd_display_string("Hello World!",1, 1)
#Sleep for 10 seconds then clear
time.sleep(10)
thelcd.lcd_clear()

#part 2
#program to read the values from channel 0 through channel three and display the values on the LCD
from gpiozero import MCP3208
import I2C_LCD_driver
import time
 
#Defining the channels to be used
ch0 = MCP3208(channel = 0, differential = False, max_voltage = 3.3)
ch1 = MCP3208(channel = 1, differential = False, max_voltage = 3.3)
ch2 = MCP3208(channel = 2, differential = False, max_voltage = 3.3)
ch3 = MCP3208(channel = 3, differential = False, max_voltage = 3.3)
 
thelcd = I2C_LCD_driver.lcd()
while True:
# Define Celcius/Farenheit
Celcius = round(ch3.voltage * 100, 1)
Ferenheit = round((Celcius * 9/5) + 32, 1)
#commented out code(code to test the MCP3208)
#print("The temperature is %6.2f C." % Celcius)
#print("The temperature is %6.2f F." % Ferenheit)
thelcd.lcd_display_string("Ch0 Raw:" +str(ch0.raw_value)+str("V"))
thelcd.lcd_display_string(str(Celcius)+"C | "+str(Ferenheit)+"F",2,0)
time.sleep(5)
コード例 #12
0
from gpiozero import MCP3208
import time
import csv

csvfile = 'MCP3208.csv'
adc = [0, 1, 2, 3, 4, 5, 6, 7]
vref = 3.3

while True:

    with MCP3208(channel=0) as reading:
        adc0 = reading.value * vref
        adc0temp = ('{:.1f}'.format(adc0))

    with MCP3208(channel=1) as reading:
        adc1 = reading.value * vref
        adc1temp = ('{:.1f}'.format(adc1))

    with MCP3208(channel=2) as reading:
        adc2 = reading.value * vref
        adc2light = ('{:.1f}'.format(adc2))

    with MCP3208(channel=3) as reading:
        adc3 = reading.value * vref
        adc3light = ('{:.1f}'.format(adc3))

    with MCP3208(channel=4) as reading:
        adc4 = reading.value * vref
        adc4levelt = ('{:.1f}'.format(adc4))

    with MCP3208(channel=5) as reading:
コード例 #13
0
For WaferSat UROP Thermal Test Circuit with PCBSat Rev1
Python file for using Raspberry Pi as a data acquisition unit for measuring 
temperatures using RTDs. 
Note that this file assumes that all 8 channels are functioning and connected 
to RTDs. If not all channels are being used, specify how many channels are 
being used in the plot_temp function and make sure your circuit is only using 
the first i channels on the MCP3208, where i is the number of desired channels.
"""

from gpiozero import MCP3208
from time import sleep
import time
import csv
import RPi.GPIO as GPIO
#led = LED(21) #initializes status LED connected to GPIO21
adc = MCP3208()

RTD0 = MCP3208(
    channel=0, port=0, device=0
)  #ADC input 0 settings using MCP3208 hardware interface (MOSI: GPIO10, MISO: GPIO9, CLK: GPIO11, CS0: GPIO8)
RTD1 = MCP3208(channel=1, port=0, device=0)
RTD2 = MCP3208(channel=2, port=0, device=0)
RTD3 = MCP3208(channel=3, port=0, device=0)
RTD4 = MCP3208(channel=4, port=0, device=0)
RTD5 = MCP3208(channel=5, port=0, device=0)
RTD6 = MCP3208(channel=6, port=0, device=0)
RTD7 = MCP3208(channel=7, port=0, device=0)
#
RTD_list = [RTD0, RTD1, RTD2, RTD3, RTD4, RTD5, RTD6, RTD7]

#led.on()
コード例 #14
0
#! /usr/bin/python3
#  -*- coding: utf-8 -*-
#
#	gpiozero01.py
#
#					Feb/06/2017
#
# --------------------------------------------------------------------
from gpiozero import MCP3208
from time import sleep
# --------------------------------------------------------------------
pot = MCP3208(channel=0)

while True:
    ratio = pot.value
    inum = int(4096 * ratio)
    print(ratio, inum)
    sleep(1)
# --------------------------------------------------------------------
コード例 #15
0
from gpiozero import MCP3208
from time import sleep

mcp = MCP3208(channel=0)

print(
    '| {0:>4} | {1:>4} | {2:>4} | {3:>4} | {4:>4} | {5:>4} | {6:>4} | {7:>4} |'
    .format(*range(8)))
print('-' * 57)
# Main program loop.
while True:
    # Read all the ADC channel values in a list.
    values = [0] * 8
    for i in range(8):
        # The read_adc function will get the value of the specified channel (0-7).
        values[i] = mcp.read_adc(i)
    # Print the ADC values.
    print(
        '| {0:>4} | {1:>4} | {2:>4} | {3:>4} | {4:>4} | {5:>4} | {6:>4} | {7:>4} |'
        .format(*values))
    # Pause for one second.
    sleep(1)
コード例 #16
0
# Created Daichi Hayashi 2017/12/18
# From Yonago Institute of Technology
# Copyright ©️ 2017 Daichi Hayashi. All rights reserved.

# move 3 fingers following to proximity sensors
# this might be main program
# this program is made for an experiment

# ========== import ==========
import pigpio
from gpiozero import MCP3208
import time
from datetime import datetime

adc0 = MCP3208(channel=0)

Vref = 5.05  # reference voltage of MCP3208

pwm = pigpio.pi()

# ========== constants ==========
fing0Pin = 15
# Threshold distance to stop motor[mm]
stopDst = 20.0
# start distance of control[mm]
maxDst = 100.0
# speed of servoMotor[deg/sec]
maxSpeed = 20.0
# lowest speed
minSpeed = 2.0
コード例 #17
0
from gpiozero import MCP3208, LED
from time import sleep
deg = chr(176) + 'C'
tmp = MCP3208(channel=0, device=0)
red = LED(19)

while True:
    temperature = (tmp.value * 3.3 - 0.5) * 100
    print(temperature)
    #temperature=tmp.value/0.02793
    #if temperature >24:
    # red.on()
    #else:
    # red.off()
    #print('{:.1f}'.format(temperature), deg, 10 * ' ')
    sleep(0.1)

############
#  This would show you the voltage from the TMP36
#    print(tmp.value * 3.3, " V")   # Voltage
#  This would show you the temperature to lots of dp
#    print((tmp.value * 3.3 - 0.5)*100, " C ")
コード例 #18
0
ファイル: inittest_rgb.py プロジェクト: Scott3142/chemRPi
from gpiozero import MCP3208, RGBLED
from time import sleep

led = RGBLED(red=19,green=21,blue=26)

adc = MCP3208(channel=1)
led.color = (0,178/255,1)

while True:    
    voltage = 3.3*adc.value
    print(voltage)
    sleep(0.5)