"Ideal" supply voltage for nRF52 to maximize efficiency?

RE: "Ideal" supply voltage for nRF52 to maximize efficiency?

davman — Sat, 10 Jun 2017 11:37:37 GMT

Hi Øyvind,

Would it be possible to get the online calculator with a "no dc/dc" option? And... pref. also at higher payloads.

Since I'm in need of 1.8V I/O-logic, I'd like to understand if there is much benefit of (adding the extra inductors) using the internal dc/dc to just drop the last 1.8 -> 1.3V

ps. any plans on offering a separate IO-domain in future nrf's? right now, using the internal regulators kind of assumes all peripheral ic's can support the same supply

RE: "Ideal" supply voltage for nRF52 to maximize efficiency?

Øyvind Karlsen — Sun, 16 Oct 2016 17:26:01 GMT

You pretty much answered your questionin your first reply. Go for the voltage that the calculator spits out as the most efficient wrt. total power consumption (ie. voltage times average current draw).

One thing to keep in mind is that you might be restricted in your choice of battery by the inrush current (10-15 mA) needed to power the chip when it goes in TX.

RE: "Ideal" supply voltage for nRF52 to maximize efficiency?

ScottBBBB — Sun, 16 Oct 2016 16:43:41 GMT

Hi Øyvind, yes, I understand that. It's a very nice feature. However, what I'm trying to understand is, what is the best choice for the voltage, so that the overall efficiency is maximized? In other words, if you could choose any voltage in the valid VDD range, what voltage would that be?
Thanks, Scott

RE: "Ideal" supply voltage for nRF52 to maximize efficiency?

Øyvind Karlsen — Sun, 16 Oct 2016 15:38:03 GMT

The chip automatically selects LDO or DCDC (as long as you have it enabeled in HW and FW) based on which is the most efficient. Typically the DCDC is only used when you have high current draws, such as radio or CPU activity.

RE: "Ideal" supply voltage for nRF52 to maximize efficiency?

ScottBBBB — Wed, 12 Oct 2016 15:17:09 GMT

Hi Øyvind, Thank you for pointing me at the profiler. I've played with it, and the average current appears to be linear with supply voltage, with the lowest current at the highest voltage. I note that the DCDC converter is assumed to be enabled. I have a couple of questions as a result:

Does the model assume the DCDC is always operating during the period of the calculation, or is it being turned on and off under the control of the PMU?
In our application, there will be long periods of idleness. Is it correct to assume that the PMU will decide to turn off the DCDC during those periods and instead enable the LDO?
Am I correct in thinking that, when running on the LDO, the lower supply voltage would be preferable to minimize the voltage drop across the LDO?

Thanks, Scott

RE: "Ideal" supply voltage for nRF52 to maximize efficiency?

Øyvind Karlsen — Wed, 12 Oct 2016 06:53:32 GMT

Hi,

For the nRF52 we have an online power profiler. Play around with the parameters there to see what will have the most impact. Generally the closer you get to the final voltage of a converter the less loss you will have and the more efficient your supply system will be.

Best regards,

Øyvind