kopia lustrzana https://github.com/micropython/micropython
123 wiersze
4.2 KiB
ReStructuredText
123 wiersze
4.2 KiB
ReStructuredText
.. currentmodule:: machine
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.. _machine.PWM:
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class PWM -- pulse width modulation
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===================================
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This class provides pulse width modulation output.
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Example usage::
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from machine import PWM
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pwm = PWM(pin) # create a PWM object on a pin
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pwm.duty_u16(32768) # set duty to 50%
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# reinitialise with a period of 200us, duty of 5us
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pwm.init(freq=5000, duty_ns=5000)
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pwm.duty_ns(3000) # set pulse width to 3us
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pwm.deinit()
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Constructors
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------------
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.. class:: PWM(dest, *, freq, duty_u16, duty_ns)
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Construct and return a new PWM object using the following parameters:
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- *dest* is the entity on which the PWM is output, which is usually a
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:ref:`machine.Pin <machine.Pin>` object, but a port may allow other values,
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like integers.
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- *freq* should be an integer which sets the frequency in Hz for the
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PWM cycle.
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- *duty_u16* sets the duty cycle as a ratio ``duty_u16 / 65535``.
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- *duty_ns* sets the pulse width in nanoseconds.
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Setting *freq* may affect other PWM objects if the objects share the same
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underlying PWM generator (this is hardware specific).
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Only one of *duty_u16* and *duty_ns* should be specified at a time.
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Methods
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-------
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.. method:: PWM.init(*, freq, duty_u16, duty_ns)
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Modify settings for the PWM object. See the above constructor for details
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about the parameters.
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.. method:: PWM.deinit()
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Disable the PWM output.
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.. method:: PWM.freq([value])
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Get or set the current frequency of the PWM output.
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With no arguments the frequency in Hz is returned.
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With a single *value* argument the frequency is set to that value in Hz. The
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method may raise a ``ValueError`` if the frequency is outside the valid range.
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.. method:: PWM.duty_u16([value])
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Get or set the current duty cycle of the PWM output, as an unsigned 16-bit
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value in the range 0 to 65535 inclusive.
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With no arguments the duty cycle is returned.
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With a single *value* argument the duty cycle is set to that value, measured
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as the ratio ``value / 65535``.
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.. method:: PWM.duty_ns([value])
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Get or set the current pulse width of the PWM output, as a value in nanoseconds.
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With no arguments the pulse width in nanoseconds is returned.
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With a single *value* argument the pulse width is set to that value.
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Specific PWM class implementations
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----------------------------------
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The following concrete class(es) implement enhancements to the PWM class.
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| :ref:`pyb.Timer for PyBoard <pyb.Timer>`
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Limitations of PWM
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------------------
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* Not all frequencies can be generated with absolute accuracy due to
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the discrete nature of the computing hardware. Typically the PWM frequency
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is obtained by dividing some integer base frequency by an integer divider.
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For example, if the base frequency is 80MHz and the required PWM frequency is
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300kHz the divider must be a non-integer number 80000000 / 300000 = 266.67.
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After rounding the divider is set to 267 and the PWM frequency will be
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80000000 / 267 = 299625.5 Hz, not 300kHz. If the divider is set to 266 then
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the PWM frequency will be 80000000 / 266 = 300751.9 Hz, but again not 300kHz.
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Some ports like the RP2040 one use a fractional divider, which allow a finer
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granularity of the frequency at higher frequencies by switching the PWM
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pulse duration between two adjacent values, such that the resulting average
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frequency is more close to the intended one, at the cost of spectral purity.
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* The duty cycle has the same discrete nature and its absolute accuracy is not
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achievable. On most hardware platforms the duty will be applied at the next
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frequency period. Therefore, you should wait more than "1/frequency" before
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measuring the duty.
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* The frequency and the duty cycle resolution are usually interdependent.
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The higher the PWM frequency the lower the duty resolution which is available,
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and vice versa. For example, a 300kHz PWM frequency can have a duty cycle
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resolution of 8 bit, not 16-bit as may be expected. In this case, the lowest
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8 bits of *duty_u16* are insignificant. So::
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pwm=PWM(Pin(13), freq=300_000, duty_u16=2**16//2)
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and::
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pwm=PWM(Pin(13), freq=300_000, duty_u16=2**16//2 + 255)
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will generate PWM with the same 50% duty cycle.
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