On Fri, 16 Feb 2024 10:57:33 -0600 David Lechner <dlechner@xxxxxxxxxxxx> wrote: > On Fri, Feb 16, 2024 at 8:22 AM Jonathan Cameron <jic23@xxxxxxxxxx> wrote: > > > > On Thu, 15 Feb 2024 11:13:19 -0600 > > David Lechner <dlechner@xxxxxxxxxxxx> wrote: > > > > ... > > > > > > > Tables 22, 23 and 24 in the AD7194 datasheet show that this chip is > > > much more configurable than AD7192 when it comes to assigning > > > channels. There are basically no restrictions on which inputs can be > > > used together. So I am still confident that my suggestion is the way > > > to go for AD7194. (Although I didn't actually try it on hardware, so > > > can't be 100% confident. But at least 90% confident :-p) > > > > You would have to define a channel number for aincom. There is an explicit > > example in the datasheet of it being at 2.5V using a reference supply. > > > > I wonder what expectation here is. Allways a reference regulator on that pin, or > > an actually varying input? Maybe in long term we want to support both > > options - so if aincom-supply is provided these are single ended with > > an offset, but if not they are differential channels between channel X and > > channel AINCOM. > > > > Note though that this mode is described a pseudo differential which normally > > means a fixed voltage on the negative. > > > > So gut feeling from me is treat them as single ended and add an > > aincom-supply + the offsets that result if that is provided in DT and > > voltage from it is non 0. > > Calling AINCOM a supply doesn't sound right to me since usually this > signal is coming somewhere external, i.e. you have a twisted pair > connected to AIN1 and AINCOM going to some signal source that may be > hot-pluggable and not known at compile time. As an example, if AINCOM > was modeled as a supply, then we would have to change the device tree > every time we changed the voltage offset on the signal generator while > we are testing using an evaluation board. We tend to stick away from designing features to support testing with devboards where external wiring is involved because anything could be wired up there. (Examples are things like shunt resistors - normally they are DT only) So sometimes it's a bit painful to work with such boards. The main focus has to be production devices or at least stable set ups where a fixed DT is sufficient. So I'm more interested in focusing on production device use cases. Do we have an information on how this is this used in those environments? Jonathan