I have a follow-up to this question: devzone.nordicsemi.com/.../
We are interested in dynamically changing the supply voltage because our space-constrained design requires it. Specifically, extra board area for level translation components is not available.
We would greatly appreciate if you could please provide specifications to guide our implementation of dynamically changing the supply voltage. In particular, the most valuable spec would be a slew rate spec for the supply voltage. Clearly, in battery-powered systems, there is no problem as the battery voltage changes during discharge -- this is an example that dynamic supply voltage change is clearly possible.
In addition to a slew rate spec, is it possible to please provide a datasheet(s) for the internal LDOs?
If there are specific hardware issues / concerns that this approach would cause, please explain what they are; it would be helpful for us to understand them so that we can figure out a way to address these issues.
EDIT: This question: devzone.nordicsemi.com/.../ mentions testing supply ripple and the effect on radio sensitivity. Is this where the suggested 100mV-pp value comes from? If the only adverse effect from slewing the supply voltage is on radio performance, we can work around this in our application.
Thanks! Jon
