Documentation/iio/ad7606.rst - linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0-only

 =============
 AD7606 driver
 =============

 ADC driver for Analog Devices Inc. AD7606 and similar devices. The module name
 is ``ad7606``.

 Supported devices
 =================

 The following chips are supported by this driver:

 * `AD7605 <https://www.analog.com/en/products/ad7605.html>`_
 * `AD7606 <https://www.analog.com/en/products/ad7606.html>`_
 * `AD7606B <https://www.analog.com/en/products/ad7606b.html>`_
 * `AD7616 <https://www.analog.com/en/products/ad7616.html>`_

 Supported features
 ==================

 SPI wiring modes
 ----------------

 These ADCs can output data on several SDO lines (1/2/4/8). The driver
 currently supports only 1 SDO line.

 Parallel wiring mode
 --------------------

 There is also a parallel interface, with 16 lines (that can be reduced to 8 in
 byte mode). The parallel interface is selected by declaring the device as
 platform in the device tree (with no io-backends node defined, see below).

 IIO-backend mode
 ----------------

 This mode allows to reach the best sample rates, but it requires an external
 hardware (eg HDL or APU) to handle the low level communication.
 The backend mode is enabled when through the definition of the "io-backends"
 property in the device tree.

 The reference configuration for the current implementation of IIO-backend mode
 is the HDL reference provided by ADI:
 https://wiki.analog.com/resources/eval/user-guides/ad7606x-fmc/hdl

 This implementation embeds an IIO-backend compatible IP (adi-axi-adc) and a PWM
 connected to the conversion trigger pin.

 .. code-block::

     +---+                                       +----------------------------
     |   |               +-------+               |AD76xx
     | A |  controls     |       |               |
     | D |-------------->|  PWM  |-------------->| cnvst
     | 7 |               |       |               |
     | 6 |               +-------+               |
     | 0 | controls  +-----------+-----------+   |
     | 6 |---------->|           |           |<--| frstdata
     |   |           | Backend   |  Backend  |<--| busy
     | D |           | Driver    |           |   |
     | R |           |           |           |-->| clk
     | I |  requests |+---------+| DMA       |   |
     | V |----------->|  Buffer ||<----      |<=>| DATA
     | E |           |+---------+|           |   |
     | R |           +-----------+-----------+   |
     |   |-------------------------------------->| reset/configuration gpios
     +---+                                       +-----------------------------


 Software and hardware modes
 ---------------------------

 While all the AD7606/AD7616 series parts can be configured using GPIOs, some of
 them can be configured using register.

 The chips that support software mode have more values available for configuring
 the device, as well as more settings, and allow to control the range and
 calibration per channel.

 The following settings are available per channel in software mode:
  - Scale

 Also, there is a broader choice of oversampling ratios in software mode.

 Conversion triggering
 ---------------------

 The conversion can be triggered by two distinct ways:

  - A GPIO is connected to the conversion trigger pin, and this GPIO is controlled
    by the driver directly.  In this configuration, the driver sets back the
    conversion trigger pin to high as soon as it has read all the conversions.

  - An external source is connected to the conversion trigger pin. In the
    current implementation, it must be a PWM. In this configuration, the driver
    does not control directly the conversion trigger pin. Instead, it can
    control the PWM's frequency. This trigger is enabled only for iio-backend.

 Reference voltage
 -----------------

 2 possible reference voltage sources are supported:

  - Internal reference (2.5V)
  - External reference (2.5V)

 The source is determined by the device tree. If ``refin-supply`` is present,
 then the external reference is used, otherwise the internal reference is used.

 Oversampling
 ------------

 This family supports oversampling to improve SNR.
 In software mode, the following ratios are available:
 1 (oversampling disabled)/2/4/8/16/32/64/128/256.

 Unimplemented features
 ----------------------

 - 2/4/8 SDO lines
 - CRC indication
 - Calibration

 Device buffers
 ==============

 IIO triggered buffer
 --------------------

 This driver supports IIO triggered buffers, with a "built in" trigger, i.e the
 trigger is allocated and linked by the driver, and a new conversion is triggered
 as soon as the samples are transferred, and a timestamp channel is added to make
 up for the potential jitter induced by the delays in the interrupt handling.

 IIO backend buffer
 ------------------

 When IIO backend is used, the trigger is not needed, and the sample rate is
 considered as stable. There is no timestamp channel. The communication is
 delegated to an external logic, called a backend, and the backend's driver
 handles the buffer. When this mode is enabled, the driver cannot control the
 conversion pin, because the busy pin is bound to the backend.
	.. SPDX-License-Identifier: GPL-2.0-only

	=============
	AD7606 driver
	=============

	ADC driver for Analog Devices Inc. AD7606 and similar devices. The module name
	is ``ad7606``.

	Supported devices
	=================

	The following chips are supported by this driver:

	* `AD7605 <https://www.analog.com/en/products/ad7605.html>`_
	* `AD7606 <https://www.analog.com/en/products/ad7606.html>`_
	* `AD7606B <https://www.analog.com/en/products/ad7606b.html>`_
	* `AD7616 <https://www.analog.com/en/products/ad7616.html>`_

	Supported features
	==================

	SPI wiring modes
	----------------

	These ADCs can output data on several SDO lines (1/2/4/8). The driver
	currently supports only 1 SDO line.

	Parallel wiring mode
	--------------------

	There is also a parallel interface, with 16 lines (that can be reduced to 8 in
	byte mode). The parallel interface is selected by declaring the device as
	platform in the device tree (with no io-backends node defined, see below).

	IIO-backend mode
	----------------

	This mode allows to reach the best sample rates, but it requires an external
	hardware (eg HDL or APU) to handle the low level communication.
	The backend mode is enabled when through the definition of the "io-backends"
	property in the device tree.

	The reference configuration for the current implementation of IIO-backend mode
	is the HDL reference provided by ADI:
	https://wiki.analog.com/resources/eval/user-guides/ad7606x-fmc/hdl

	This implementation embeds an IIO-backend compatible IP (adi-axi-adc) and a PWM
	connected to the conversion trigger pin.

	.. code-block::

	+---+ +----------------------------
	\| \| +-------+ \|AD76xx
	\| A \| controls \| \| \|
	\| D \|-------------->\| PWM \|-------------->\| cnvst
	\| 7 \| \| \| \|
	\| 6 \| +-------+ \|
	\| 0 \| controls +-----------+-----------+ \|
	\| 6 \|---------->\| \| \|<--\| frstdata
	\| \| \| Backend \| Backend \|<--\| busy
	\| D \| \| Driver \| \| \|
	\| R \| \| \| \|-->\| clk
	\| I \| requests \|+---------+\| DMA \| \|
	\| V \|----------->\| Buffer \|\|<---- \|<=>\| DATA
	\| E \| \|+---------+\| \| \|
	\| R \| +-----------+-----------+ \|
	\| \|-------------------------------------->\| reset/configuration gpios
	+---+ +-----------------------------


	Software and hardware modes
	---------------------------

	While all the AD7606/AD7616 series parts can be configured using GPIOs, some of
	them can be configured using register.

	The chips that support software mode have more values available for configuring
	the device, as well as more settings, and allow to control the range and
	calibration per channel.

	The following settings are available per channel in software mode:
	- Scale

	Also, there is a broader choice of oversampling ratios in software mode.

	Conversion triggering
	---------------------

	The conversion can be triggered by two distinct ways:

	- A GPIO is connected to the conversion trigger pin, and this GPIO is controlled
	by the driver directly. In this configuration, the driver sets back the
	conversion trigger pin to high as soon as it has read all the conversions.

	- An external source is connected to the conversion trigger pin. In the
	current implementation, it must be a PWM. In this configuration, the driver
	does not control directly the conversion trigger pin. Instead, it can
	control the PWM's frequency. This trigger is enabled only for iio-backend.

	Reference voltage
	-----------------

	2 possible reference voltage sources are supported:

	- Internal reference (2.5V)
	- External reference (2.5V)

	The source is determined by the device tree. If ``refin-supply`` is present,
	then the external reference is used, otherwise the internal reference is used.

	Oversampling
	------------

	This family supports oversampling to improve SNR.
	In software mode, the following ratios are available:
	1 (oversampling disabled)/2/4/8/16/32/64/128/256.

	Unimplemented features
	----------------------

	- 2/4/8 SDO lines
	- CRC indication
	- Calibration

	Device buffers
	==============

	IIO triggered buffer
	--------------------

	This driver supports IIO triggered buffers, with a "built in" trigger, i.e the
	trigger is allocated and linked by the driver, and a new conversion is triggered
	as soon as the samples are transferred, and a timestamp channel is added to make
	up for the potential jitter induced by the delays in the interrupt handling.

	IIO backend buffer
	------------------

	When IIO backend is used, the trigger is not needed, and the sample rate is
	considered as stable. There is no timestamp channel. The communication is
	delegated to an external logic, called a backend, and the backend's driver
	handles the buffer. When this mode is enabled, the driver cannot control the
	conversion pin, because the busy pin is bound to the backend.