From 0431113181385c90a98a08ec378eb42b713ca0b6 Mon Sep 17 00:00:00 2001 From: "chataigner.g" <> Date: Wed, 12 Oct 2022 10:44:10 +0200 Subject: [PATCH] base --- main.py | 123 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 123 insertions(+) create mode 100644 main.py diff --git a/main.py b/main.py new file mode 100644 index 0000000..4ec493f --- /dev/null +++ b/main.py @@ -0,0 +1,123 @@ +# Programme voiture autonome a completer +import pyb, time +from pyb import delay, Timer + +class HBridge: + """ Control à H-Bridge. Also support PWM to control the speed (between 0 to 100%) """ + PWM_FREQ = 100 # Frequency 100 Hz + (UNDEFINED,HALT,FORWARD,BACKWARD) = (-1, 0,1,2) + + def __init__( self, input_pins, pwm = None ): + """:param input_pins: tuple with input1 and input 2 pins + :param pwm: dic with pin, timer and channel """ + self.speed = 0 + self.state = HBridge.UNDEFINED + + # Init HBridge control pins + self.p_input1 = pyb.Pin( input_pins[0], pyb.Pin.OUT_PP ) + self.p_input2 = pyb.Pin( input_pins[1], pyb.Pin.OUT_PP ) + + # Init PWM Control for speed control (without PWM, the L293D's + # Enable pin must be place to HIGH level) + self.has_pwm = (pwm != None) + if self.has_pwm: + self._timer = pyb.Timer( pwm['timer'], freq=self.PWM_FREQ ) + self._channel = self._timer.channel( pwm['channel'], Timer.PWM, pin=pwm['pin'], pulse_width_percent=100 ) + + self.halt() + + def set_speed( self, speed ): + if not(0 <= speed <= 100): + raise ValueError( 'invalid speed' ) + # Use PWM speed ? + if self.has_pwm: + self._channel.pulse_width_percent( speed ) + self.speed = speed + else: + # Non PWM + self.speed = 0 if speed == 0 else 100 + if self.speed == 0 and self.state != HBridge.HALT: + self.halt() # force motor to stop by manipulating input1 & input2 + + + def halt( self ): + self.p_input1.low() + self.p_input2.low() + self.state = HBridge.HALT # Do not invert ... + self.set_speed( 0 ) # thoses 2 lines + + def forward(self, speed = 100 ): + # reconfigure HBridge + if self.state != HBridge.FORWARD : + self.halt() + self.p_input1.low() + self.p_input2.high() + self.state = HBridge.FORWARD + # Set speed + self.set_speed( speed ) + + def backward(self, speed = 100 ): + # reconfigure HBridge + if self.state != HBridge.BACKWARD: + self.halt() + self.p_input1.high() + self.p_input2.low() + self.state = HBridge.BACKWARD + # Set speed + self.set_speed( speed ) + + +# Pont-H broches de commande Input 1 et Input 2 +MOT1_PINS = (pyb.Pin.board.X6, pyb.Pin.board.X5) +# Commande PWM pont-H +MOT1_PWM = {'pin' : pyb.Pin.board.Y9, 'timer' : 2, 'channel' : 3 } + +# Pont-H broches de commande Input 3 et Input 4 +MOT2_PINS = (pyb.Pin.board.X7, pyb.Pin.board.X8) +# Commande PWM pont-H +#MOT2_PWM = {'pin' : pyb.Pin.board.X10, 'timer' : 5, 'channel' : 4 } +MOT2_PWM = {'pin' : pyb.Pin.board.Y10, 'timer' : 2, 'channel' : 4 } +# moteur droit h1 moteur gauche h2 +h1 = HBridge( MOT1_PINS, MOT1_PWM ) +h2 = HBridge( MOT2_PINS, MOT2_PWM ) + +# bouton sur carte prototype +btn = pyb.Pin( 'Y8', pyb.Pin.IN, pull=pyb.Pin.PULL_UP ) +# bouton sur la carte USR +sw = pyb.Switch() +# photoresistance +ldr = pyb.ADC('X19') +# accelerometre +accel = pyb.Accel() +x = accel.x() +SENS = 3 +# led sur la carte +myled = pyb.LED(1) +xlights = (pyb.LED(3), pyb.LED(4)) +# servo direction +sd = pyb.Servo(1) + + +def dist_obstacle(): + trigger = pyb.Pin(pyb.Pin.board.Y5, mode=pyb.Pin.OUT, pull=None) + trigger.low() + echo = pyb.Pin(pyb.Pin.board.Y6, mode=pyb.Pin.IN, pull=None) + trigger.high() + time.sleep(0.00001) + trigger.low() + while echo.value() == 0: + pass + start = time.ticks_us() + while echo.value() == 1: + pass + stop = time.ticks_us() + return round((stop-start)*34/2000,1) + +def lectension(): + lecture = ldr.read() + tension = (lecture*3.3)/4095 + pyb.delay(100) + return tension + + +