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SubjectRe: [PATCH 1/2] staging: iio: ad7606: replace range/range_available with corresponding scale
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On 11/12/2016 03:24 PM, Jonathan Cameron wrote:
> On 11/11/16 14:18, Lars-Peter Clausen wrote:
>> On 11/11/2016 07:34 AM, Eva Rachel Retuya wrote:
>>> Eliminate the non-standard attribute in_voltage_range and move its
>>> functionality under the scale attribute. read_raw() has been taken care
>>> of previously so only write_raw() is handled here.
>>>
>>> Additionally, rename the attribute in_voltage_range_available into
>>> in_voltage_scale_available.
>>>
>>> Suggested-by: Lars-Peter Clausen <lars@metafoo.de>
>>> Signed-off-by: Eva Rachel Retuya <eraretuya@gmail.com>
>>
>> Hi,
>>
>> Thanks for the patch. Unfortunately this is not quite this straight forward.
>>
>> The scale is what you multiply the raw with to get the value in the standard
>> IIO unit. Range as implemented in this driver is the maximum output voltage.
>>
>> To get the scale we need to look at the transfer function of the ADC [1].
>> The transfer function tells us that 1 LSB is 305uV for the 10V range and
>> 152uV for the 5V range.
>>
>> More specifically this is $RANGE*2/2**16 (times two since the ADC is bipolar).
>>
>> Since the default unit for IIO is mV for voltages we need to multiply this
>> by 1000.
>>
>> The other thing we need to handle is the case where the RANGE pin is not
>> connected to a GPIO but either hardwired to 1 or 0. Which we need to handle
>> somehow.
> Is it just me who thought, we need a fixed GPI like a fixed regulator?
> Would allow this sort of fixed wiring to be simply defined.
>
> Linus, worth exploring?
>
> I doubt this will be the last case of this particular problem
> (not exactly unusual to hard wire control lines like these as which range
> makes sense is often a feature of the device).
>
> Would be a pain to have to add code to every driver to cover the fixed
> case.

We still have to add code to every driver to cover the fixed case since the
mode of operation is inherently different. But it would be nice to have a
coherent way of doing so with a standardized interface rather than having
every device come up with its own code and bindings.

This could either be handled directly by the GPIO API or by a small set of
helper functions on top of it.

I think the most important part for now is to agree on a standard binding to
describe hardwired GPIOs. We can still rework the kernel API later on, but
the DT bindings will be set in stone.

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