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.. _adc:

=====
 ADC
=====

Analog-Digital Conversion is the process of reading a physical voltage
as a number. The Maple has a large number of pins which are capable of
taking 12-bit ADC measurements, which means that voltages from 0 to
3.3V are read as numbers from 0 to 4095.  This corresponds to a
theoretical sensitivity of just under 1 millivolt. In reality, a
number of factors introduce noise and bias into this reading, and a
number of techniques must be used to get good precision and accuracy.

.. contents:: Contents
   :local:

.. _adc-noise-bias:

Noise and Bias
--------------

.. FIXME [0.0.12, Maple Native]

The biggest issues with analog to digital conversion are noise and
bias.  With the Maple line, we have tried to isolate the ADC pins and
traces from strong noise sources, but there are always trade-offs
between noise, additional functionality, cost, and package size.
We've tried to enable good analog performance by isolating as many ADC
pins as possible from digital noise on each board.

More information on these isolated pins is available in each board's
hardware documentation:

* :ref:`Maple <maple-adc-bank>`
* :ref:`Maple RET6 Edition <maple-ret6-adc-bank>`
* :ref:`Maple Mini <maple-mini-adc-bank>`

.. :ref:`Maple Native <maple-native-adc-bank>`

That said, there are a number of more general things you can do to try
to get good readings.  If your input voltage changes relatively
slowly, a number of samples can be taken in succession and averaged
together, or the same voltage can even be sampled by multiple ADC pins
at the same time.

Another important factor when taking a voltage reading is the
reference voltages that the sample is being compared against. In the
case of the Maple, the high reference is |vcc| and the low reference
is ground.  This means that noise or fluctuations on either |vcc| or
ground will affect the measurement. It also means that the voltage you
are trying to sample must be between ground and 3.3 V.

.. _adc-range:

In the case of a variable reading, it is best if the voltage varies
over the entire range of 0 through 3.3 V; otherwise, only a fraction
of the sensitivity is being used.  Some basic tools to accomplish this
are `resistor dividers
<http://en.wikipedia.org/wiki/Voltage_divider>`_ and `Zener diodes
<http://en.wikipedia.org/wiki/Voltage_source#Zener_voltage_source>`_\
.  However, `operational amplifiers
<http://en.wikipedia.org/wiki/Operational_amplifier>`_ and other
powered components can also be used if greater precision is required.

.. _adc-function-reference:

Function Reference
------------------

* :ref:`lang-analogread`
* :ref:`lang-pinmode`

.. _adc-recommended-reading:

Recommended Reading
-------------------

* `Wikipedia: Analog-to-Digital Converter
  <http://en.wikipedia.org/wiki/Analog-to-digital_converter>`_
* `Arduino Analog Input Tutorial
  <http://arduino.cc/en/Tutorial/AnalogInputPins>`_
* ST documentation:

  * `Application Note on ADC Modes
    <http://www.st.com/stonline/products/literature/an/16840.pdf>`_ (PDF)
  * `Application Note on ADC Oversampling
    <http://www.st.com/stonline/products/literature/an/14183.pdf>`_ (PDF)