AD7705/AD7706 datasheet describe that the AD7705 is 2 fully differential input channel ADCs. But this procedure is not clear how to proceed in the schematic.
AD7705
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The AD7705 / AD7706 are complete analog front ends for low frequency measurement applications. These 2-/3-channel devices can accept low level input signals...
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AD7705 on Analog.com
AD7705/AD7706 datasheet describe that the AD7705 is 2 fully differential input channel ADCs. But this procedure is not clear how to proceed in the schematic.
The AD7705 is fully-differential. It subtracts the voltage at AIN1(+) from the voltage
at AIN1(-), and that difference value is what is digitized. If I parse your question
literally ... AIN1(+) and AIN1(-) must be applied "simultaneously". But I'm guessing
that's not what you're really asking. I'm guessing what you're asking is, "I want
to digitize the absolute value of the signal applied to AIN1(+) and the signal
applied to AIN1(-), applied simultaneously to the two pins, rather than the
difference between them." If that's your question, the answer, I believe, would
be "no",
How to proceed depends upon your application, If all you need from the part
is to digitize 2 (or even 3) voltages simultaneously against a fixed value, then
you want to use the AD7706, which is the pseudo-differential variant, which
has three inputs measured against the COMMON pin. If you have a more
complicated application where you sometimes you want to measure
differences between two pins and other times you want to measure the
absolute value of those pins, you'd be better off looking at a more complex
part that has internal multiplexers that changes the "personality" of the pins
under digital control. Here's an example of a part like that (ADI has many,
you would need to pick the one that's the best match for your application):
https://www.analog.com/media/en/technical-documentation/data-sheets/ad4130-8.pdf
Finally, if you're not familiar with "pseudo-differential" vs "fully differential", the
two links below are different explanations of the concepts:
Hope this helps !
Thank you, John, for the explanation.
However, my question was incomplete.
I have two pairs of pins (A-B) and (C-D) of a sensor.
The conections are the following: A in AIN1(+); B in AIN(-); C in AIN2(+) and D in AIN(-).
The CHN1 subtracts the voltage at AIN1(+) from the voltage at AIN1(-), which corresponds to the difference value between A and B that is digitized. Simultaneously, the CHN2 subtracts the voltage at AIN2(+) from that at AIN2(-), returning the difference between C and D pins.
Is this configuration possible using AD7705?
No, in that case you're looking for a "simultaneous ADC", that captures differential signals on N channels simultaneously and then digitizes the multi-channel snapshot. The product selection table here:
https://www.analog.com/en/parametricsearch/10994#/
lets you browse the parts that do this function. If you limit the search to 2 channel parts, there are 48. The key things to filter on are your sampling rate requirements and your desired accuracy. Good luck,
Hi Juner ,
john-lazzaro is correct. You cannot have two simultaneous input signals using AD7705. You can only configure AD7705 with one differential analog input channel at a time. Thank you.
Regards,
Rod
Hi Juner ,
john-lazzaro is correct. You cannot have two simultaneous input signals using AD7705. You can only configure AD7705 with one differential analog input channel at a time. Thank you.
Regards,
Rod