Dear all, Dear all,I use a NUCLEO_H7A3ZI_Q, connected through an external Arduino/Zio-type connector to an external signal generator, which outputs a constant voltage level.the input channel of the μCU appears to be saturated to 3.3V; it shows this value, even if I increase the incoming voltage to e.g. 4.0V.However, the manual DS13313 states, that this channel should be 5.0V tolerant (see attachment)Could this be related to the caution notice from the UM2408 Manual (see attachment) I wonder how the adapter board is able to saturate the value, if that is true... Many thanksL.A.

Graduate

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A/D input signal saturated at 3.3V, despite "5 V tolerant I/O"

Forum|Forum|10 months ago
April 24, 2025
3 replies
886 views

Dear all,

I use a NUCLEO_H7A3ZI_Q, connected through an external Arduino/Zio-type connector to an external signal generator, which outputs a constant voltage level.

the input channel of the μCU appears to be saturated to 3.3V; it shows this value, even if I increase the incoming voltage to e.g. 4.0V.
However, the manual DS13313 states, that this channel should be 5.0V tolerant (see attachment)

Could this be related to the caution notice from the UM2408 Manual (see attachment)

I wonder how the adapter board is able to saturate the value, if that is true...

Many thanks

L.A.

This topic has been closed for replies.

Best answer by Ozone

Here a snipped from a datasheet of another STM32 - I don't have nor use a H7 :

Check the respective section in the datasheet of your MCU variant.

And check for footnotes like this :

The term "5V-tolerant" does not mean "operating properly with 5V applied".
And analog pins are explicitely exempt anyway.

O

Ozone

Explorer

Of course.

Read the datasheet.

L

LysAnAuthor

Graduate

So I disconnected the adapter, and even now my readings don't climb above 3.3V, when I apply a higher voltage directly at pin PA3 (ADC_123_INP10) of my Nucleo board. Anyone has an explanation for that?
Cheers

O

OzoneAnswer

Explorer

Here a snipped from a datasheet of another STM32 - I don't have nor use a H7 :

Check the respective section in the datasheet of your MCU variant.

And check for footnotes like this :

The term "5V-tolerant" does not mean "operating properly with 5V applied".
And analog pins are explicitely exempt anyway.

A

Andreas Bolsch

Explorer II

Datasheet says V_AIN <= V_Ref+ <= V_DDA <=3.6V.

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