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nRF52840 SAADC Input Stage

Hi,

We are using the nRF52840 SoC.

  1. The following image is taken from the datasheet:

It shows a Gain block before the SAR core

a. Does the Gain block serve also as a buffer?

b. What is the Gain BW?

 

  1. The following image describes a simplified SAADC sample network:

- Does the Rsource external to the nRF52840 SoC?

 

Thank you

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  • Hi,

    Does the Gain block serve also as a buffer?

    This is a simplified block diagram. There are input buffers between the MUX and the SAR core.

    What is the Gain BW?

    I'm not sure we have any parameters for this. Can you elaborate more on what you are looking for?

    Does the Rsource external to the nRF52840 SoC?

    Yes, this is the external source resistance.

    Best regards,
    Jørgen

  • Forwarding the response from our developers:

    "The Gain block is a switch capacitor amplifier. As long as the input capacitors settles sufficiently, then the gain block has sufficient BW to drive the internal ADC. The Rsource criterias is determined by settling, as such it depends on TACQ. 

    In general the SAADC does not need any external amplifier, but of course, it depends on the source of the signal. If the output impedance of sensor, or input network your using exceeds 800 kOhm (TACQ = 20us) or you need a faster TACQ, then you do need a buffer. 

    What type of buffer would depend on your recquirements for gain accuracy, single ended or differential, signal source etc, so we would need to understand the usecase better to come with recommendations."

Reply
  • Forwarding the response from our developers:

    "The Gain block is a switch capacitor amplifier. As long as the input capacitors settles sufficiently, then the gain block has sufficient BW to drive the internal ADC. The Rsource criterias is determined by settling, as such it depends on TACQ. 

    In general the SAADC does not need any external amplifier, but of course, it depends on the source of the signal. If the output impedance of sensor, or input network your using exceeds 800 kOhm (TACQ = 20us) or you need a faster TACQ, then you do need a buffer. 

    What type of buffer would depend on your recquirements for gain accuracy, single ended or differential, signal source etc, so we would need to understand the usecase better to come with recommendations."

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