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diff --git a/docs/source/lang/api/analogwrite.rst b/docs/source/lang/api/analogwrite.rst new file mode 100644 index 0000000..9147b96 --- /dev/null +++ b/docs/source/lang/api/analogwrite.rst @@ -0,0 +1,173 @@ +.. highlight:: cpp + +.. _lang-analogwrite: + +.. _lang-api-analogwrite: + + +analogWrite() +============= + +.. note:: + + On the Maple, calling analogWrite() is the same as calling + :ref:`lang-pwmwrite`\ ; we recommend using that function directly + instead. + + This is because PWM is not true analog output (i.e., is not the + output of a `DAC + <http://en.wikipedia.org/wiki/Digital-to-analog_converter>`_\ ), so + the function is badly named. For instance, analogWrite() **has + absolutely nothing to do with** :ref:`lang-analogread`\ , which is + potentially confusing. + + The alias of analogWrite() to pwmWrite() is provided for the sake + of compatibility with Arduino only. + +.. contents:: Contents + :local: + +.. _lang-analogwrite-compatibility: + +Arduino Compatibility +--------------------- + +There are a few important differences between Arduino's `analogWrite() +<http://arduino.cc/en/Reference/AnalogWrite>`_ and Maple's +:ref:`lang-pwmwrite` that you should keep in mind. In each case, we +have some recommendations you can use to help converting from Arduino +to Maple. + +Difference 1: Duty cycle range is different +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +The first and most important difference is that the largest possible +value for the duty cycle is much bigger on the Maple. Using Arduino's +analogWrite(), the duty cycle ranges between 0--255 (always off -- +always on)\ [#fbytemax]_\ . Using Maple's pwmWrite(), the duty cycle +ranges from 0--65,535 by default\ [#fuint16max]_\ . + +This is a good thing! The greater range of values on the Maple gives +you much more precise control over the duty cycle of your PWM output. + +If you're porting code from the Arduino and want a quick-and-dirty +fix, one solution is to :ref:`map <lang-map>` the argument to +analogWrite into the right range:: + + // Arduino code: + analogWrite(pin, duty); + + // Becomes Maple code: + analogWrite(pin, map(duty, 0, 255, 0, 65535)); + +This will convert values in the range 0-255 to values in the range +0--65,635, which is the correct default range for all of the timers +which control PWM output. See the :ref:`timers reference <timers>` +for more information. + +Another fix is to consult the :ref:`pin mapping mega table +<pin-mapping-mega-table>` to find the timer which controls PWM on the +pin you're using, then set that Timer's overflow to 255. Subsequent +calls to analogWrite() should work as on the Arduino (with the same +loss of precision). Note, however, that that affects the overflow for +the **entire timer**, so other code relying on that timer (such as any +:ref:`interrupts <lang-attachinterrupt>` the timer controls) will +likely need to be modified as well. + +Difference 2: You must use pinMode() to set up PWM +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +The second difference is that on the Maple, you **must** set up the pin +for PWM output using :ref:`lang-pinmode`\ , with argument ``PWM``. +This should just be one extra line of code in your +:ref:`lang-setup` function. Example:: + + void setup() { + // set up pin 9 for PWM + pinMode(9, PWM); + } + +This also means that you can't later call :ref:`lang-digitalread` +or :ref:`lang-digitalwrite` on that pin (unless some time in +between, you use pinMode() to reconfigure that pin for ``INPUT`` or +``OUTPUT``; see the :ref:`lang-pinmode` page for more information). + +Difference 3: No PWM on pin 10 +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +On the Maple, the pins which support PWM are: 0, 1, 2, 3, 5, 6, 7, 8, +9, 11, 12, 14, 24, 27, and 28 or fifteen pins in total. That's *more* +PWM-capable pins as any Arduino board, but there are differences in +*which* pins support PWM. + +* On **most Arduino boards** (those with the ATmega168 or ATmega328; + this includes the **Arduino Uno**), this function works on pins 3, + 5, 6, 9, 10, and 11, or six pins total. Note that these boards + support PWM on pin 10, while Maple does not. + +* On the **Arduino Mega**, PWM works on pins 2 through 13, or twelve + pins total. Note that this board supports PWM on pins 4, 10, and + 13, while the Maple does not. + +* **Older Arduino boards** with an ATmega8 only support analogWrite() + on pins 9, 10, and 11. Maple does not support PWM on pin 10. + +In all cases, Arduino boards support PWM on pin 10, unlike Maple. We +did our best to make PWM as pin-compatible as possible; however, +circuit layout constraints prevented us from achieving perfect +compatibility. + +The "safest" pins to use for PWM output are pins 9 and 11. These pins +work on any Arduino board and on Maple. The "safe" pins, which work +on most recent Arduino boards, the Arduino Mega and the Maple, are +pins 3, 5, 6, 9, and 11. Thus, if you want your project to be as +portable as possible between Maple and Arduino, we recommend using the +"safest" pins first, then the "safe" pins, then any other pins, as +necessary. + +Difference 4: PWM frequency +^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +The frequency of the PWM signal (i.e., the frequency of a complete +on/off cycle) on the Arduino is approximately 490 Hz. + +On the Maple, the frequency is configurable, defaulting to about 1100 +Hz, or 1.1 KHz. This is because the PWM frequency is the frequency of +the timer which controls PWM output on the particular pin (\ +:ref:`the PWM tutorial has the details <pwm>`\ ). + +If your application definitely requires Arduino's PWM frequency, then +the steps are: + +1. Figure out which :ref:`timer <lang-hardwaretimer>` controls PWM + output on your pin (\ :ref:`this table <pwm-timer-table>` is your + friend here). Let's say it's ``Timern``\ , where ``n`` is some + number 1, 2, 3, or 4. + +2. Call ``Timern.setPeriod(2041)``\ . This will set the timer's + period to approximately 2041 microseconds, which is a frequency of + approximately 490 Hz. + +Be aware that this will change the period for the **entire timer**\ , +and will affect anything else in your program that depends on that +timer. The important examples are :ref:`timer interrupts +<lang-hardwaretimer-attachinterrupt>` and :ref:`PWM +<timers-pwm-conflicts>`\ . + +See also +-------- + +- :ref:`Maple PWM tutorial <pwm>` + +.. rubric:: Footnotes + +.. [#fbytemax] This is because the value for the duty cycle on Arduino + must fit in 1 byte of memory, and an unsigned (i.e., nonnegative) + integer with size 1 byte can hold the values between 0 and 255. + +.. [#fuint16max] This is because the value for the duty cycle on the + Maple uses 2 bytes of memory, and an unsigned (i.e., nonnegative) + integer with size 2 bytes can hold the values between 0 and 65,535. + + +.. include:: cc-attribution.txt |