コード例 #1
0
ファイル: servo.py プロジェクト: RRMoelker/WiPy-servo
    def __init__(self, gp_pin, frequency, full_range100, pulse_min, pulse_max):
        """
        :param gp_pin: GPIO pin
        :param frequency: in Hz
        :param full_range100: in deg * 100
        :param pulse_min: in µs
        :param pulse_max: in µs
        :return:
        """
        if not gp_pin in VALID_GP_PINS:
            print('invalid GP pin:', gp_pin)

        # Get WiPy PWM configuration constants
        pin_alt = PIN_PWM_ALT[gp_pin]
        timer_nr = PIN_PWM_TIMER[gp_pin]
        timer_channel = PIN_PWM_CHANNEL[gp_pin]

        # Configure PWM timer to pin flow
        Pin('GP' + str(gp_pin), mode=Pin.ALT, alt=pin_alt)
        timer = Timer(timer_nr, mode=Timer.PWM)
        self.channel = timer.channel(timer_channel, freq=frequency)

        # Store object properties
        self.PWM_frame = 1000000 // frequency  # in µs
        self.full_range100 = full_range100
        self.pulse_min = pulse_min
        self.pulse_diff = pulse_max - pulse_min
コード例 #2
0
class IR_RX():
    # Result/error codes
    # Repeat button code
    REPEAT = -1
    # Error codes
    BADSTART = -2
    BADBLOCK = -3
    BADREP = -4
    OVERRUN = -5
    BADDATA = -6
    BADADDR = -7

    def __init__(self, pin, nedges, tblock, callback,
                 *args):  # Optional args for callback
        self._pin = pin
        self._nedges = nedges
        self._tblock = tblock
        self.callback = callback
        self.args = args
        self._errf = lambda _: None
        self.verbose = False

        self._times = array('i',
                            (0 for _ in range(nedges + 1)))  # +1 for overrun
        self.tim0 = Timer(0, freq=1000000)
        self.tim0chan = self.tim0.channel(Timer.IC,
                                          pin=self._pin,
                                          polarity=Timer.RISING)
        self.tim0chan.callback(self._cb_pin)
        self.edge = 0
        self.tim = Timer(1)  # Hardware Timer 1
        self.cb = self.decode

    # Pin interrupt. Save time of each edge for later decode.
    def _cb_pin(self, line):
        t = self.tim0chan.capture()
        # On overrun ignore pulses until software timer times out
        if self.edge <= self._nedges:  # Allow 1 extra pulse to record overrun
            if not self.edge:  # First edge received
                self.tim.init(freq=int(1 / self._tblock * 1000),
                              mode=Timer.ONESHOT,
                              callback=self.cb)
            self._times[self.edge] = t

            self.edge += 1

    def do_callback(self, cmd, addr, ext, thresh=0):
        self.edge = 0
        if cmd >= thresh:
            self.callback(cmd, addr, ext, *self.args)
        else:
            self._errf(cmd)

    def error_function(self, func):
        self._errf = func

    def close(self):
        self.tim0chan.callback(None)
        self.tim.deinit()
コード例 #3
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ファイル: motor.py プロジェクト: MattJFanguy/ARLISS
    def set_speed(self, newSpeed):
        """ Method to change the speed of the motor, direciton is unchanged
        Arugments
          newSpeed : the desired new speed 0-100 (as percentage of max)
        """

        PWMpin = Pin(self.PWMpin)
        tim = Timer(self.timer_id, freq=1000)
        ch = tim.channel(self.channel_id, Timer.PWM, pin=PWMpin)
        ch.pulse_width_percent(newSpeed)
        # PWM.set_duty_cycle(self.PWMpin, newSpeed)
        self.currentSpeed = newSpeed
コード例 #4
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ファイル: motor.py プロジェクト: MattJFanguy/ARLISS
    def soft_stop(self):
        """ Method to soft stop (coast to stop) an individual motor"""
        PWMpin = Pin(self.PWMpin)
        tim = Timer(self.timer_id, freq=1000)
        ch = tim.channel(self.channel_id, Timer.PWM, pin=PWMpin)
        for i in range(self.currentSpeed):
            ch.pulse_width_percent(self.currentSpeed - i)
            time.sleep(0.01)
        ch.pulse_width_percent(0)

        # set the status attributes
        self.isRunning = False
        self.currentDirection = None
        self.currentSpeed = 0.0
コード例 #5
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def main():
    # set internal clock
    rtc = settime(timezone_offset=TIMEZONE_OFFSET)
    year, month, day, hour, minute, second, *_ = rtc.now()

    trigger = Pin('GP5', mode=Pin.OUT)
    trigger.value(0)

    # initial trigger timer
    timer = Timer(3, mode=Timer.PERIODIC, width=32)
    timer_channel = timer.channel(Timer.A | Timer.B, period=30000000)
    timer_channel.irq(handler=lambda t: trigger.toggle(), trigger=Timer.TIMEOUT)

    try:
        while True:
            leds = clock2matrix(hour=hour, minute=minute).columns

            # led matrix multiplexing
            current_trigger = trigger.value()
            while trigger.value() == current_trigger:
                for col in leds:
                    latch.value(0)
                    # write current time
                    spi.write(col)
                    # update LEDs
                    latch.value(1)

                    sleep_ms(1)

                    latch.value(0)
                    spi.write(OFF)
                    latch.value(1)

                    sleep_us(50)

            latch.value(0)
            spi.write(OFF)
            latch.value(1)

            year, month, day, hour, minute, second, *_ = rtc.now()

            # update rtc at 04:00
            if hour == 4 and minute == 0:
                rtc = settime(timezone_offset=TIMEZONE_OFFSET)
    except Exception as e:
        matrix_off()
        while True:
            print(e)
            sleep_ms(2000)
コード例 #6
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def send_id(out_signal, pin_name):

    L2 = Pin(pin_name, mode=Pin.AF_PP, af=Pin.AF1_TIM2)
    timer = Timer(2, freq=38000)
    ch = timer.channel(1, Timer.PWM, pin=L2, pulse_width_percent=0.5)
    sleep_us(9000)
    ch = timer.channel(1, Timer.PWM, pin=L2, pulse_width_percent=0)
    sleep_us(4500)

    for i in out_signal:
        if i == "0":
            ch = timer.channel(1, Timer.PWM, pin=L2, pulse_width_percent=0.5)
            sleep_us(560)
            ch = timer.channel(1, Timer.PWM, pin=L2, pulse_width_percent=0)
            sleep_us(565)
        else:
            ch = timer.channel(1, Timer.PWM, pin=L2, pulse_width_percent=0.5)
            sleep_us(560)
            ch = timer.channel(1, Timer.PWM, pin=L2, pulse_width_percent=0)
            sleep_us(1690)

        ch = timer.channel(1, Timer.PWM, pin=L2, pulse_width_percent=0.5)
        sleep_us(560)
        ch = timer.channel(1, Timer.PWM, pin=L2, pulse_width_percent=0)
コード例 #7
0
ファイル: motor.py プロジェクト: MattJFanguy/ARLISS
    def start(self, speed, direction):
        """ method to start a motor
        Arguments:
          speed : speed of the motor 0-100 (as percentage of max)
          direction : CW or CCW, for clockwise or counterclockwise
        """

        PWMpin = Pin(self.PWMpin)
        DIRpin = Pin(self.DIRpin, Pin.OUT_PP)
        # DIR1 and DIR2 have to be opposite to move, toggle to change direction
        if direction in ('cw', 'CW', 'clockwise'):
            DIRpin(True)
        elif direction in ('ccw', 'CCW', 'counterclockwise'):
            DIRpin(False)

        else:
            raise ValueError('Please enter CW or CCW for direction.')

        # Start the motor
        for item in speed:
            if 0 <= item <= 100:
                # self.PWMpin = Pin('X4')
                tim = Timer(self.timer_id, freq=5000)
            ch = tim.channel(self.channel_id, Timer.PWM, pin=PWMpin)
            ch.pulse_width_percent(item)
            # PWM.start(self.PWMpin, speed)
        else:
            raise ValueError("Please enter speed between 0 and 100")

        # set the status attributes
        self.isRunning = True
        self.currentDirection = direction
        self.currentSpeed = speed
        while self.isRunning:
            print("\nMotorA =", enc_timer.counter())
            print("\nMotorB =", enc_timer_1.counter())
コード例 #8
0
ファイル: timer.py プロジェクト: LuisKopp/pycom-micropython
from machine import Timer
import os
import time

mch = os.uname().machine
if 'LaunchPad' in mch:
    pwm_pin = ('GP24')
elif 'WiPy' in mch:
    pwm_pin = ('GP24')
else:
    raise Exception('Board not supported!')

for i in range(4):
    tim = Timer(i, mode=Timer.PERIODIC)
    print(tim)
    ch = tim.channel(Timer.A, freq=5)
    print(ch)
    ch = tim.channel(Timer.B, freq=5)
    print(ch)
    tim = Timer(i, mode=Timer.ONE_SHOT)
    print(tim)
    ch = tim.channel(Timer.A, freq=50)
    print(ch)
    ch = tim.channel(Timer.B, freq=50)
    print(ch)
    tim = Timer(i, mode=Timer.PWM)
    print(tim)
    ch = tim.channel(Timer.A,
                     freq=50000,
                     duty_cycle=2000,
                     polarity=Timer.POSITIVE)
コード例 #9
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#turn LED on
# (says v1.6, led works/HB is incorrect?) https://micropython.org/resources/docs/en/latest/wipy/wipy/tutorial/repl.html#linux
led = Pin('GP25', mode=Pin.OUT)
led(1)

#simple function to blink lamp
blink = lambda f:led.toggle()

#Much of 1.4.6 doc is just bad/does not match actual v1.4.6 WiPy firmware
#https://github.com/micropython/micropython/blob/v1.4.6/docs/pyboard/tutorial/timer.rst
#initialize a timer
tim = Timer(4) #1-14 exist; 3 is for internal use; avoid 5+6 (used for servo control or ADC/DAC)
tim.init(mode=Timer.PERIODIC)

#configure a timer 'channel'
tim_a = tim.channel( tim.A, freq=5) #less than 5per sec did not work

#add something useful to the running channel
tim_a.irq(handler=blink) #blinks strangely rapidly

#disable the timer 'channel'
tim_a = None #still blinking
#tim.deinit() #stopped, terminal froze.
tim.channel( tim.A, freq=5) #stopped blinking

#reinitialize, for a slower blink
tim.deinit()
#tim.init(mode=Timer.PERIODIC, width=32)#terminal froze.
tim = Timer(4,mode=Timer.PERIODIC, width=32)
tim_ab = tim.channel( Timer.A | Timer.B, freq=4) #does not work
tim_ab.irq(handler=blink) #does not start blinking
コード例 #10
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from machine import Pin
power_pin = Pin("GP6", Pin.OUT)
power_pin(1)

dac_reset_pin = Pin("GP7", Pin.OUT)
dac_reset_pin(1)

green_led_pin = Pin("GP25", Pin.OUT)
green_led_pin(1)

blue_led_pin = Pin("GP24", Pin.OUT)
#blue_led_pin(1) #is always on - can't be switched

from machine import Timer
timer1 = Timer(1, mode=Timer.PWM, width=16)

timer1a = timer1.channel(Timer.A, freq=1000,
                         duty_cycle=5000)  #Green LED PWM 50%
timer1b = timer1.channel(Timer.B, freq=1000,
                         duty_cycle=5000)  #Red LED PWM 50% - doesn't work

from machine import SD
sd = SD(pins=('GP10', 'GP11',
              'GP9'))  #won't work Error 5 EIO - SD has no voltage?!
コード例 #11
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ファイル: pwm.py プロジェクト: ePyBoard/ePyBoard
from machine import Timer
skip_test = 0
go_test = 1
test_list = [[skip_test, skip_test, skip_test], [go_test, go_test, go_test],
             [go_test, go_test, go_test], [go_test, go_test, go_test],
             [skip_test, skip_test, skip_test],
             [skip_test, skip_test, skip_test], [go_test, go_test, go_test],
             [go_test, go_test, go_test]]
total_timer_num = 8
max_channel_num = 3
cur_ch = 0
timer_id = 1
while timer_id < total_timer_num:
    while cur_ch < max_channel_num:
        if test_list[timer_id][cur_ch] != go_test:
            print('skip timer ' + str(timer_id) + ' pwm_' + str(cur_ch))
            cur_ch += 1
            continue
        tim = Timer(timer_id, mode=Timer.PWM)  #创建Timer为PWM信号输出
        print(tim)
        pwm = tim.channel(cur_ch, freq=1,
                          duty_cycle=5055)  #PWM输出频率1Hz, 占空比50.55%.
        cur_ch += 1
        print(pwm)
        tim.deinit()
    cur_ch = 0
    timer_id += 1
コード例 #12
0
ファイル: servo.py プロジェクト: Adancurusul/Bedroom_iot
# main.py -- put your code here!
from machine import Pin, Timer
import machine
p7 = Pin('X7', Pin.IN, Pin.PULL_UP)
p8 = Pin('X8', Pin.IN, Pin.PULL_UP)
p9 = Pin('Y9', Pin.IN)
check_p = 3
check_p1 = 3
i = 7.5  # 20ms内的0.5-2.5换成百分比形式就是2.5%-12.5%。7.5即为中间。
sw = pyb.Switch()  # 用板子上的按键控制
#tm2 = Timer(2, freq=100)
tm3 = Timer(5, freq=50)  # 选择定时器5,频率50hz
#led3 = tm2.channel(1, Timer.PWM, pin=Pin.cpu.A15)
#led3.pulse_width_percent(50)
a4 = tm3.channel(1, Timer.PWM, pin=Pin.cpu.A0)  # 选择通道1和定时器5对应引脚A0 X1


def check(t):
    global p7, p8, check_p, check_p1
    if (p7.value() == 1 and p8.value() == 0) or p9.value() == 1:
        check_p = 1
    elif p7.value() == 0:
        check_p = 3

    #elif p9.value()==0:
    #    check_p1 =1
    #elif p9.value()==1 and check_p ==1:
    #    check_p1=3


tim = Timer(4)
コード例 #13
0
ファイル: timer_print.py プロジェクト: ePyBoard/ePyBoard
from machine import Timer
from machine import PIN

tim = Timer(1, mode=Timer.PERIODIC)  #创建Timer 1为一个频率定期运行对象
tim_a = tim.channel(Timer.A, freq=1)  #创建Timer A其频率为1Hz

p = PIN('P21', mode=PIN.OUT)

print_sec = 3
irq_count = 0
print_count = 0


def toggle(t):
    global irq_count
    global print_count
    if (irq_count % print_sec) == 0:
        print(print_count)
        print_count = print_count + 1
    irq_count = irq_count + 1


tim_a.irq(trigger=Timer.TIMEOUT, handler=toggle)  #回调函数将使用设置的频率定期执行中断
コード例 #14
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print('IP address:', wifi.ifconfig()[0])

# assign GP9, GP10, GP11, GP24 to alternate function (PWM)
p9 = Pin('GP9', mode=Pin.ALT, alt=3)
p10 = Pin('GP10', mode=Pin.ALT, alt=3)
p11 = Pin('GP11', mode=Pin.ALT, alt=3)
p24 = Pin('GP24', mode=Pin.ALT, alt=5)

# timer in PWM mode and width must be 16 buts
timer10 = Timer(4, mode=Timer.PWM, width=16)
timer9 = Timer(3, mode=Timer.PWM, width=16)
timer1 = Timer(1, mode=Timer.PWM, width=16)

# enable channels @1KHz with a 50% duty cycle
pwm9 = timer9.channel(Timer.B, freq=700, duty_cycle=100)
pwm10 = timer10.channel(Timer.A, freq=700, duty_cycle=100)
pwm11 = timer10.channel(Timer.B, freq=700, duty_cycle=100)
pwm24 = timer1.channel(Timer.A, freq=700, duty_cycle=100)


def v3_write_handler(value):
    pwm9.duty_cycle(int(value))


def v4_write_handler(value):
    pwm10.duty_cycle(int(value))


def v5_write_handler(value):
    pwm11.duty_cycle(int(value))
コード例 #15
0
ファイル: timer.py プロジェクト: 19emtuck/micropython
from machine import Timer
import os
import time

mch = os.uname().machine
if 'LaunchPad' in mch:
    pwm_pin = ('GP24')
elif 'WiPy' in mch:
    pwm_pin = ('GP24')
else:
    raise Exception('Board not supported!')

for i in range(4):
    tim = Timer(i, mode=Timer.PERIODIC)
    print(tim)
    ch = tim.channel(Timer.A, freq=5)
    print(ch)
    ch = tim.channel(Timer.B, freq=5)
    print(ch)
    tim = Timer(i, mode=Timer.ONE_SHOT)
    print(tim)
    ch = tim.channel(Timer.A, freq=50)
    print(ch)
    ch = tim.channel(Timer.B, freq=50)
    print(ch)
    tim = Timer(i, mode=Timer.PWM)
    print(tim)
    ch = tim.channel(Timer.A, freq=50000, duty_cycle=2000, polarity=Timer.POSITIVE)
    print(ch)
    ch = tim.channel(Timer.B, freq=50000, duty_cycle=8000, polarity=Timer.NEGATIVE)
    print(ch)
コード例 #16
0
print('IP address:', wifi.ifconfig()[0])

# assign GP9, GP10, GP11, GP24 to alternate function (PWM)
p9 = Pin('GP9', mode=Pin.ALT, alt=3)
p10 = Pin('GP10', mode=Pin.ALT, alt=3)
p11 = Pin('GP11', mode=Pin.ALT, alt=3)
p24 = Pin('GP24', mode=Pin.ALT, alt=5)

# timer in PWM mode and width must be 16 buts
timer10 = Timer(4, mode=Timer.PWM, width=16)
timer9 = Timer(3, mode=Timer.PWM, width=16)
timer1 = Timer(1, mode=Timer.PWM, width=16)

# enable channels @1KHz with a 50% duty cycle
pwm9 = timer9.channel(Timer.B, freq=700, duty_cycle=100)
pwm10 = timer10.channel(Timer.A, freq=700, duty_cycle=100)
pwm11 = timer10.channel(Timer.B, freq=700, duty_cycle=100)
pwm24 = timer1.channel(Timer.A, freq=700, duty_cycle=100)


def v3_write_handler(value):
    pwm9.duty_cycle(int(value))
	
def v4_write_handler(value):
    pwm10.duty_cycle(int(value))
	
def v5_write_handler(value):
    pwm11.duty_cycle(int(value))
	
def v6_write_handler(value):
コード例 #17
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import micropython
micropython.alloc_emergency_exception_buf(100)

from machine import UART
import os
uart = UART(0, baudrate=115200)
os.dupterm(uart)
print ('UART initialised')
#uart.irq(trigger=UART.RX_ANY, wake=machine.IDLE)
	
from machine import Pin
from machine import Timer

led_out = Pin('GP16', mode=Pin.OUT)
tim = Timer(1, mode=Timer.PERIODIC)
tim_a = tim.channel(Timer.A, freq=5)
# The slowest frequency the timer can run at is 5Hz
# so we divide the frequency down to toggle the LED
# BUT the callback function doesn't appear to have been developed
# Worth trying again as it is now included in the documentation
	
tim_a.irq(handler=lambda t:led_out.toggle(), trigger=Timer.TIMEOUT)	# Toggle LED on Timer interrupt

#btn_in = Pin('GP17', mode=Pin.IN, pull=Pin.PULL_UP)


# Connect to my WiFi
import machine
from network import WLAN
wlan = WLAN() 					# get current object, without changing the mode
コード例 #18
0
ファイル: wipyDAQ_v1pt6.py プロジェクト: bhclowers/WIPYDAQ
class DAQ_Unit(object):
    def __init__(self):#, freqVal=10000, numpnts = 1000):
        if RDB.ping():
            self.daqDict = pullRedisJson(RDB, DAQPARAMKEY)
            gc.collect()
        else:
            self.daqDict = DAQPARAMS
        self.setDaqParams()
        self.curPos = 0
        self.setupADC()
        self.setupTimer()

    def updateDaqParams(self):
        if RDB.ping():
            self.daqDict = pullRedisJson(RDB, DAQPARAMKEY)
            gc.collect()
        else:
            print("Redis DAQ Param Pull Failed\n\tReverting to defaults...")
        self.setDaqParams()

    def setDaqParams(self):
        self.gpw = self.daqDict['gpw']
        self.numPnts = self.daqDict['numPnts']
        self.acqSpeed = self.daqDict['acqSpeed']
        self.freq = self.daqDict['freq']#40000#1//(self.acqSpeed*1000)#acqSpeed is in microseconds
        self.acqType = self.daqDict['acqType']
        self.numAves = self.daqDict['numAves']
        self.multiplexParam = self.daqDict['multiplexParam']
        self.dataArray = array.array('H', range(self.numPnts))#initialize data array
        self.dataID = uniqid()
        self.daqDict['dataCode'] = self.dataID
        self.filePath = self.dataID+'.txt'
        self.daqDict['filePath'] = self.filePath
        self.daqDict['data'] = self.dataArray
        gc.collect()

    def pushData(self, writeSD = False):
        t = time.time()
        RDB.rpush(self.dataID, self.dataID)
        RDB.rpush(self.dataID, self.numPnts)
        RDB.rpush(self.dataID, self.numAves)
        RDB.rpush(self.dataID, self.gpw)
        RDB.rpush(self.dataID, self.acqSpeed)
        RDB.rpush(self.dataID, self.freq)
        RDB.rpush(self.dataID, self.filePath)
        RDB.rpush(self.dataID, self.acqType)
        RDB.rpush(self.dataID, self.multiplexParam)
        print(time.time()-t)
        j = 0#Break and send data (Not optimum but better than one by one)
        for i in range(1+len(self.dataArray)//INDEXVAL):
            RDB.rpush(self.dataID, str(self.dataArray[j:j+INDEXVAL]))
            j+=INDEXVAL
        RDB.rpush('activeData', self.dataID)
        if writeSD:
            self.writeData()
        gc.collect()
        print("Push Time")
        t = time.time()-t
        print(t)

    def stopTimer(self):
        self.tim.deinit()

    def setupTimer(self):
        '''
        Need to look at the following:
        But how to average? (Do we need two buffers)
        http://docs.micropython.org/en/latest/pyboard/library/pyb.ADC.html
        '''
        #How to stop timer?
        self.tim = Timer(0, mode = Timer.PERIODIC, width = 32)#what is this width? Timer resolution?
        self.timChannel = self.tim.channel(Timer.A, freq = self.freq)
        #What is the function of the trigger, do we need to implement external vs internal?
        self.timChannel.irq(handler=self._addData_, trigger = Timer.TIMEOUT)

    def setupADC(self):
        self.adc = ADC()
        self.adcPin = self.adc.channel(pin = 'GP3')

    def _addData_(self, timer, saveData = False):
        self.dataArray[self.curPos] = self.adcPin()
        self.curPos+=1
        self.curPos%=self.numPnts#this value can ultimately help us with the number of aves.
        
    def writeData(self):
        t = time.time()
        curDir = os.getcwd()
        os.chdir("/sd")#change directory to SD card
        try:
            f = open(self.filePath, 'w')
            # json.dump(self.daqDict, f)#assumes the data has already been converted to a string-Redis doesn't like arrays
            f.write("%s\n"%self.dataID)
            f.write("%s\n"%str(self.numPnts))
            f.write("%s\n"%str(self.numAves))
            f.write("%s\n"%str(self.gpw))
            f.write("%s\n"%str(self.acqSpeed))
            f.write("%s\n"%str(self.freq))
            f.write("%s\n"%self.filePath)
            f.write("%s\n"%str(self.acqType))
            f.write("%s\n"%str(self.multiplexParam))
            for d in self.dataArray:
                f.write("%s,\n"%str(d))
            f.close()
            os.chdir(curDir)
        except:
            os.chdir(curDir)
            print("Saving to %s failed"%fileName)
        gc.collect()
        print("Write Time: %s"%(time.time()-t))