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.. highlight:: cpp
.. _libs-servo:
=======
Servo
=======
This documents the Servo library for controlling RC servomotors. It
is implemented as a thin layer over the built-in :ref:`timer
peripherals <timers>`.
You can use this library in the :ref:`IDE <ide>` by choosing the Servo
item under the Sketch > Import Library... menu.
If you are using the :ref:`Unix toolchain <unix-toolchain>`, the
library is located in ``$LIB_MAPLE_HOME/libraries/Servo/``.
Servo Class Reference
---------------------
You can construct a Servo object by including the declaration ::
Servo servo;
in your sketch. This will create a Servo object called ``servo``.
You can then use any of its methods; for instance, to control a
servomotor attached to pin 9, you could write ::
servo.attach(9);
.. cpp:class:: Servo
Class for controlling RC servomotors via :ref:`timers <timers>`.
.. _libs-servo-attach:
.. cpp:function:: bool Servo::attach(uint8 pin, uint16 min, uint16 max)
Attach this Servo object to the given ``pin``. The pin must be
capable of PWM. You can check this by seeing if "PWM" is written
next to its number on the Maple silkscreen, or by consulting the
:ref:`pwmWrite() <lang-pwmwrite>` documentation.
Sets this pin's :ref:`mode <lang-pinmode>` to :ref:`PWM
<lang-pinmode-wiringpinmode>`, and returns true if successful.
Does nothing and returns false if the pin doesn't support PWM.
Parameter ``min`` is the pulse width corresponding to 0 degrees;
``max`` is the pulse width corresponding to 180 degrees (both are
in microseconds).
.. cpp:function:: bool Servo::attach(uint8 pin)
Equivalent to :ref:`attach(pin, 544, 2400) <libs-servo-attach>`.
.. _libs-servo-attached:
.. cpp:function:: int Servo::attached() const
If currently attached (via :ref:`attach() <libs-servo-attach>`) to
a pin, returns that pin's number. Returns ``NOT_ATTACHED``
otherwise.
.. cpp:function:: bool Servo::detach()
If this Servo object is currently attached to pin, stops driving
the servo by setting a zero pulse width (this is accomplished by
setting the associated :ref:`channel mode
<lang-hardwaretimer-setchannelmode>` to ``TIMER_DISABLED``).
Subsequently, calling :ref:`attached() <libs-servo-attached>` will
return ``NOT_ATTACHED``.
.. cpp:function:: void Servo::write(unsigned int value)
If ``value`` is less than ``SERVO_MAX_WRITE_ANGLE`` (which, for
Arduino compatibility, is 200), it's interpreted as an angle in
degrees. Otherwise, it's treated as a pulse width in microseconds.
Drives the servo to target the given angle, based on a linear
interpolation of the ``min`` and ``max`` pulse widths determined
when :ref:`attach() <libs-servo-attach>` was called.
Be aware that some (especially lower-cost) servos have fairly
non-linear maps between pulse width and target angle. Make sure to
test your motor before relying on this method.
.. cpp:function:: void Servo::writeMicroseconds(uint16 pulseWidth)
Drives the servo using a ``pulseWidth``-microsecond pulse.
If ``pulseWidth`` is outside of the [``min``, ``max``\ ] pulse
width range set during :ref:`attach() <libs-servo-attach>`, it will
be clamped to lie in this range.
.. cpp:function:: int Servo::read() const
Returns the servo's target angle, in degrees. This will be clamped
to lie between 0 (when the pulse width is at most ``min``) and 180
(when the pulse width is at least ``max``).
.. cpp:function:: uint16 Servo::readMicroseconds() const
Returns the pulse width of the wave currently driving the servo, in
microseconds. This will be clamped to lie in the [``min``,
``max``\ ] pulse width range set during :ref:`attach()
<libs-servo-attach>`.
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