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264 lines
11 KiB
264 lines
11 KiB
.. currentmodule:: pyb
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.. _pyb.Timer:
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class Timer -- control internal timers
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======================================
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Timers can be used for a great variety of tasks. At the moment, only
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the simplest case is implemented: that of calling a function periodically.
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Each timer consists of a counter that counts up at a certain rate. The rate
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at which it counts is the peripheral clock frequency (in Hz) divided by the
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timer prescaler. When the counter reaches the timer period it triggers an
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event, and the counter resets back to zero. By using the callback method,
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the timer event can call a Python function.
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Example usage to toggle an LED at a fixed frequency::
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tim = pyb.Timer(4) # create a timer object using timer 4
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tim.init(freq=2) # trigger at 2Hz
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tim.callback(lambda t:pyb.LED(1).toggle())
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Example using named function for the callback::
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def tick(timer): # we will receive the timer object when being called
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print(timer.counter()) # show current timer's counter value
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tim = pyb.Timer(4, freq=1) # create a timer object using timer 4 - trigger at 1Hz
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tim.callback(tick) # set the callback to our tick function
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Further examples::
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tim = pyb.Timer(4, freq=100) # freq in Hz
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tim = pyb.Timer(4, prescaler=0, period=99)
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tim.counter() # get counter (can also set)
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tim.prescaler(2) # set prescaler (can also get)
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tim.period(199) # set period (can also get)
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tim.callback(lambda t: ...) # set callback for update interrupt (t=tim instance)
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tim.callback(None) # clear callback
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*Note:* Timer(2) and Timer(3) are used for PWM to set the intensity of LED(3)
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and LED(4) respectively. But these timers are only configured for PWM if
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the intensity of the relevant LED is set to a value between 1 and 254. If
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the intensity feature of the LEDs is not used then these timers are free for
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general purpose use. Similarly, Timer(5) controls the servo driver, and
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Timer(6) is used for timed ADC/DAC reading/writing. It is recommended to
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use the other timers in your programs.
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*Note:* Memory can't be allocated during a callback (an interrupt) and so
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exceptions raised within a callback don't give much information. See
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:func:`micropython.alloc_emergency_exception_buf` for how to get around this
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limitation.
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Constructors
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------------
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.. class:: pyb.Timer(id, ...)
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Construct a new timer object of the given id. If additional
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arguments are given, then the timer is initialised by ``init(...)``.
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``id`` can be 1 to 14.
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Methods
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-------
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.. method:: Timer.init(\*, freq, prescaler, period)
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Initialise the timer. Initialisation must be either by frequency (in Hz)
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or by prescaler and period::
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tim.init(freq=100) # set the timer to trigger at 100Hz
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tim.init(prescaler=83, period=999) # set the prescaler and period directly
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Keyword arguments:
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- ``freq`` --- specifies the periodic frequency of the timer. You might also
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view this as the frequency with which the timer goes through one complete cycle.
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- ``prescaler`` [0-0xffff] - specifies the value to be loaded into the
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timer's Prescaler Register (PSC). The timer clock source is divided by
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(``prescaler + 1``) to arrive at the timer clock. Timers 2-7 and 12-14
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have a clock source of 84 MHz (pyb.freq()[2] \* 2), and Timers 1, and 8-11
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have a clock source of 168 MHz (pyb.freq()[3] \* 2).
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- ``period`` [0-0xffff] for timers 1, 3, 4, and 6-15. [0-0x3fffffff] for timers 2 & 5.
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Specifies the value to be loaded into the timer's AutoReload
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Register (ARR). This determines the period of the timer (i.e. when the
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counter cycles). The timer counter will roll-over after ``period + 1``
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timer clock cycles.
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- ``mode`` can be one of:
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- ``Timer.UP`` - configures the timer to count from 0 to ARR (default)
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- ``Timer.DOWN`` - configures the timer to count from ARR down to 0.
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- ``Timer.CENTER`` - configures the timer to count from 0 to ARR and
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then back down to 0.
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- ``div`` can be one of 1, 2, or 4. Divides the timer clock to determine
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the sampling clock used by the digital filters.
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- ``callback`` - as per Timer.callback()
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- ``deadtime`` - specifies the amount of "dead" or inactive time between
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transitions on complimentary channels (both channels will be inactive)
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for this time). ``deadtime`` may be an integer between 0 and 1008, with
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the following restrictions: 0-128 in steps of 1. 128-256 in steps of
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2, 256-512 in steps of 8, and 512-1008 in steps of 16. ``deadtime``
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measures ticks of ``source_freq`` divided by ``div`` clock ticks.
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``deadtime`` is only available on timers 1 and 8.
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You must either specify freq or both of period and prescaler.
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.. method:: Timer.deinit()
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Deinitialises the timer.
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Disables the callback (and the associated irq).
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Disables any channel callbacks (and the associated irq).
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Stops the timer, and disables the timer peripheral.
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.. method:: Timer.callback(fun)
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Set the function to be called when the timer triggers.
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``fun`` is passed 1 argument, the timer object.
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If ``fun`` is ``None`` then the callback will be disabled.
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.. method:: Timer.channel(channel, mode, ...)
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If only a channel number is passed, then a previously initialized channel
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object is returned (or ``None`` if there is no previous channel).
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Otherwise, a TimerChannel object is initialized and returned.
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Each channel can be configured to perform pwm, output compare, or
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input capture. All channels share the same underlying timer, which means
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that they share the same timer clock.
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Keyword arguments:
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- ``mode`` can be one of:
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- ``Timer.PWM`` --- configure the timer in PWM mode (active high).
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- ``Timer.PWM_INVERTED`` --- configure the timer in PWM mode (active low).
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- ``Timer.OC_TIMING`` --- indicates that no pin is driven.
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- ``Timer.OC_ACTIVE`` --- the pin will be made active when a compare match occurs (active is determined by polarity)
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- ``Timer.OC_INACTIVE`` --- the pin will be made inactive when a compare match occurs.
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- ``Timer.OC_TOGGLE`` --- the pin will be toggled when an compare match occurs.
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- ``Timer.OC_FORCED_ACTIVE`` --- the pin is forced active (compare match is ignored).
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- ``Timer.OC_FORCED_INACTIVE`` --- the pin is forced inactive (compare match is ignored).
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- ``Timer.IC`` --- configure the timer in Input Capture mode.
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- ``Timer.ENC_A`` --- configure the timer in Encoder mode. The counter only changes when CH1 changes.
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- ``Timer.ENC_B`` --- configure the timer in Encoder mode. The counter only changes when CH2 changes.
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- ``Timer.ENC_AB`` --- configure the timer in Encoder mode. The counter changes when CH1 or CH2 changes.
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- ``callback`` - as per TimerChannel.callback()
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- ``pin`` None (the default) or a Pin object. If specified (and not None)
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this will cause the alternate function of the the indicated pin
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to be configured for this timer channel. An error will be raised if
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the pin doesn't support any alternate functions for this timer channel.
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Keyword arguments for Timer.PWM modes:
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- ``pulse_width`` - determines the initial pulse width value to use.
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- ``pulse_width_percent`` - determines the initial pulse width percentage to use.
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Keyword arguments for Timer.OC modes:
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- ``compare`` - determines the initial value of the compare register.
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- ``polarity`` can be one of:
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- ``Timer.HIGH`` - output is active high
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- ``Timer.LOW`` - output is active low
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Optional keyword arguments for Timer.IC modes:
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- ``polarity`` can be one of:
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- ``Timer.RISING`` - captures on rising edge.
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- ``Timer.FALLING`` - captures on falling edge.
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- ``Timer.BOTH`` - captures on both edges.
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Note that capture only works on the primary channel, and not on the
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complimentary channels.
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Notes for Timer.ENC modes:
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- Requires 2 pins, so one or both pins will need to be configured to use
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the appropriate timer AF using the Pin API.
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- Read the encoder value using the timer.counter() method.
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- Only works on CH1 and CH2 (and not on CH1N or CH2N)
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- The channel number is ignored when setting the encoder mode.
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PWM Example::
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timer = pyb.Timer(2, freq=1000)
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ch2 = timer.channel(2, pyb.Timer.PWM, pin=pyb.Pin.board.X2, pulse_width=8000)
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ch3 = timer.channel(3, pyb.Timer.PWM, pin=pyb.Pin.board.X3, pulse_width=16000)
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.. method:: Timer.counter([value])
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Get or set the timer counter.
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.. method:: Timer.freq([value])
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Get or set the frequency for the timer (changes prescaler and period if set).
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.. method:: Timer.period([value])
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Get or set the period of the timer.
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.. method:: Timer.prescaler([value])
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Get or set the prescaler for the timer.
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.. method:: Timer.source_freq()
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Get the frequency of the source of the timer.
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class TimerChannel --- setup a channel for a timer
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==================================================
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Timer channels are used to generate/capture a signal using a timer.
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TimerChannel objects are created using the Timer.channel() method.
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Methods
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-------
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.. method:: timerchannel.callback(fun)
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Set the function to be called when the timer channel triggers.
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``fun`` is passed 1 argument, the timer object.
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If ``fun`` is ``None`` then the callback will be disabled.
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.. method:: timerchannel.capture([value])
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Get or set the capture value associated with a channel.
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capture, compare, and pulse_width are all aliases for the same function.
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capture is the logical name to use when the channel is in input capture mode.
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.. method:: timerchannel.compare([value])
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Get or set the compare value associated with a channel.
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capture, compare, and pulse_width are all aliases for the same function.
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compare is the logical name to use when the channel is in output compare mode.
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.. method:: timerchannel.pulse_width([value])
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Get or set the pulse width value associated with a channel.
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capture, compare, and pulse_width are all aliases for the same function.
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pulse_width is the logical name to use when the channel is in PWM mode.
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In edge aligned mode, a pulse_width of ``period + 1`` corresponds to a duty cycle of 100%
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In center aligned mode, a pulse width of ``period`` corresponds to a duty cycle of 100%
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.. method:: timerchannel.pulse_width_percent([value])
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Get or set the pulse width percentage associated with a channel. The value
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is a number between 0 and 100 and sets the percentage of the timer period
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for which the pulse is active. The value can be an integer or
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floating-point number for more accuracy. For example, a value of 25 gives
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a duty cycle of 25%.
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