Good job on the repairs. Always check the power supplies first.
I still maintain I have the easiest fix ever for an ebay "broken/not working" instrument. Keithley 199 5.5 digit multimeter, would not take readings on any function, just displays "------". Scored it for $25. Upon receipt, it is in excellent physical condition. Clean, no nasty stickers, permanent marker, etc. Plugged it in, and it powers on fine, but displays "------". I know exactly how to fix it because I have another 199 in my lab.
I pressed the Trigger button. Then it started to take readings. And it has done so perfectly for the past 3 years.
Oh, I have another good one. I bought an AM503 current probe amp in a one-slot power supply frame that 'does not power on'. Can't remember how much I paid for it, but it wasn't very much. It came in. I plug it in. I go to turn it on. Hmm, power switch feels a bit stiff.
I pull harder on the power switch. POP. The switch comes un-stuck, and it turns on. A few cycles of the switch later, and it works just fine.
Definitely a good idea to check the power supply circuitry first. I have a whole list of stuff I picked up with power supply issues that required only one or two swapped components in the power supply. Like 3 Sorensen 40V 13A power supplies that I picked up for $50 each. Wouldn't go to full range. After poking around on the control board, I found that the power suppy rail was oscillating at 120 Hz. Hmm. Blown cap, anyone? Electrolytic cap had failed open. After replacing it, the unit worked fine. I also picked up an 85645A 300 kHz to 26.5 GHz tracking source not too long ago for $1k that was failing an ADC self test. It came in, I openend it up, 32.5V was reading zip. Figured it was the regulator, so I popped over to radioschmuck for some LM317s. Replaced it, plugged it in, POP. Whoops, forgot to check if the rail was shorted. It was. Removed shorted cap, replaced regulator again, and hey, it now passes the self test.
I was given an old HP 8590L spectrum analyzer that did not power on. Opened it up, removed the power supply, looked at it, didn't see anyting obvious, reinstalled power supply, and tried again. It powered up. Really??
I also picked up an HP 8340A H02 10 MHz to 20 GHz sweep generator that did not power on for about $800. Everything depends on the 20V supply, which was not starting. Traced that to a blown fuse caused by a shorted regulator transistor. After replacing that, the 5v rail read zip. Noting obviously wrong with the power supply, so I started removing boards. I think I just pulled out four or five of the boards and then turned it on. The rail came up. I turned it off, reinstalled one board, and turned it on. It powered on correctly. I repeated that until I had reinstalled all of the boards, and it still powered on correctly. Still not sure what was going on there. However, it failed the self test and the level could not be controlled. Eventually traced that back to a bad op amp in the power level reference generation circuitry. After replacing that and making a handful of adjustments, it works perfectly.
I also picked up an Agilent 54854 Infiniium 4 GHz 20 GSa/s scope that did not want to boot up. Eventually traced that one to a blown fuse.
In the removable hard drive caddy. Shorted across that one with a wire as I didn't have a replacement fuse in the correct form factor. Ended up salvaging the calibration data off of the drive and then performing a system restore due to some windows update issues.
Moral of the story: buy stuff that doesn't power on as it is (relatively) easy to fix power supplies.
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