In regards to your inquiry, I just wanted to let you know that the support provided for the Intel NUCs is under stock configurations, any customization that you try on the NUC might or might not work, the NUC was tested by Intel using the parts that came with the product, that is why there is no documentation as to why it senses the difference between battery and AC power.
According to the requirements on the NUC, the voltage needed to make it work properly goes from 12-19 V DC, based on this fact if your external battery can provide that voltage you could use it however we cannot guarantee that it will work for sure or damage your NUC since is not validated.
The operating system normally is not related to the power, but in this case for testing purposes you can always go back to Windows® 7 or if you have the option to test the external battery on a different NUC or with a different device.
Any questions, please let me know.
Thanks Alberto for the quick reply. I do have what I think is a pure NUC question at the end of this reply.
Hopefully, some Windows 10 guru out there will send me some ideas.
Unless I am doing something stupid it seems that a NUC running Windows 10 cannot be powered from an external battery. I say 'running Windows 10' because it is not being shut down in the bios, it starts Windows 10. This is weird.
I know that batteries for laptops are complicated with internal intelligence. Question: Is the AC adapter for a NUC just a rectifier (i.e., just converts AC to DC with a voltage stepdown) or does it also have some internal intelligence?
Scott thanks for the suggestion.
1. The battery ran the NUC with Windows 7.
2. The DC-to-DC converter is an Anyvolt 3 which yields 3 amps. It was being used with Windows 7.
3. I monitored the voltage during boot, and it was solid.
4. Yesterday I tried Safe Mode, and the NUC boots and runs until I stop it. This suggests to me that there is something in the Start Menu that is very fussy.
My simple-minded models of the battery power source and the standard AC adapter are that each has ideal voltage source and an internal impedance PERIOD. If this is so, I cannot see how the NUC can tell the difference. Apparently, my models are too simple minded.
Well, it would appear to me that the full-speed startup of Windows 10 - and especially its full-speed initialization of all hardware - is more stressful than that of Windows 7 and requires the pull of more than the 3A that your DC-DC Converter can provide.
Not sure what to suggest you do. Stick with Windows 7? Get a beefier DC-DC Converter?
Thank you very much to N. Scott Pearson for the information provided above.
In regard to your inquiry about the power adapter, yes, it is a rectifier and it does not have internal intelligence, on the following link you will find some details about it, page 52:
Since the problem happens when using Windows® 10, another option will be to get in contact with Microsoft directly, they might be able to provide further details on this matter:
Microsoft’s phone number: 1 800-642-7676
Microsoft’s support site: https://support.microsoft.com/en-us
Any questions, please let me know.
The battery is inside a iRobot vacuum cleaner that is the base of a custom robot. So it, the battery, has enough power; however, its output voltage can go a bit over 21 volts, and I use the DC-to-DC converter to drop it down to about 19 volts.
If it turns out that the DC-to-DC converter is indeed too low power, can I eliminate the DC-to-DC converter and connect the battery directly to the internal power connector of the NUC? I know that it says that I can go as high as 24 volts on the internal connector, but is that really true? I am assuming that I cannot go that high on the external power connector.
Thanks for the info. It allowed me to stop worrying about the AC adapter.
Thanks, again, to both of you.
You are welcome< we are glad to hear that you are not worry about the AC adapter anymore.
Hopefully, you will be able to get the details you are looking for in regard to this type of connection from Scott or any other of the peers viewing this thread.
Well, I wouldn't recommend that you continuously run the unit with an unregulated input, but, since the TPS *does* say that 24V is acceptable, I would think that it should be ok to run without the regulator for a short test. If you find that this alleviates the problem and you can boot Windows 10 consistently, we will know what the issue is (well, was). My recommendation at that point would be to get a new DC-DC regulator that can output at better than 3.43A (65W).
Hope this helps,