Chkcpu wrote on 2026-05-31, 19:47:Thanks for reporting your test values.
So a 2.2V setting was not among them, but you found a nice 2.04V setting for a K6-2+! :) […]
Show full quote
Thanks for reporting your test values.
So a 2.2V setting was not among them, but you found a nice 2.04V setting for a K6-2+! 😀
I’m sorry to hear the board won’t boot. The CMOS backup battery inside the DALLAS or BENCHMARQ RTC chip is probably dead. This sometimes causes a board to stall early during the Power-On-Self-Test.
Do you have a POST analyzer card to see where the boot process hangs?
Cheers, Jan
Ok, I got the board working again. It must have been the RTC, because it posts now with the external battery hooked up. I continued testing. Here are more results (minus what is already documented in the manual):
(Previously tested)
JV4-5 OPEN JV6-7 CLOSED 1.93v
JV4-5 OPEN JV6-7-8 CLOSED 1.73v
JV4-5 OPEN JV7-8 CLOSED 2.04v
JV4-5 OPEN JV6-8 CLOSED 1.95v
(More tests)
JV4-5 OPEN JV6-7-8 OPEN 4.05V
JV5 CLOSED JV6-7-8 OPEN 3.60V
JV4 CLOSED JV6-7-8 OPEN 3.51V
JV5 CLOSED JV6 CLOSED 2.06V
JV5 CLOSED JV7 CLOSED 2.19V
JV5 CLOSED JV8 CLOSED 2.22V
JV5 CLOSED JV6-7 CLOSED 1.77V
JV5 CLOSED JV6-7-8 CLOSED 1.65V
JV5 CLOSED JV7-8 CLOSED 1.85V
JV5 CLOSED JV6-8 CLOSED 1.79V
JV4 CLOSED JV6 CLOSED 2.05V
JV4 CLOSED JV7 CLOSED 2.17V
JV4 CLOSED JV8 CLOSED 2.20V
So at this point it seems pretty clear that everything open gives you the highest voltage (I didn't want to push the P166MMX I had in there too much with further high voltage tests) then JV 5 drops the voltage by a certain factor, JV4 by a little more, probably JV4 and 5 both closed is going to bring it down even further, and the JV 8, 7, and 6 drop the voltage further incrementally more in that order, with combinations being additive.
So then just to be clear, even though I can derive the 2.2v for my K6-2, you would advise against running it on this motherboard, due to the heat issues on the voltage regulator? Bigger heatsink on it or active cooling probably wouldn't make a difference?
