I've been speaking to folks across a few different communities about my Lisa 2's PSU issues and was recommended to post a thread here, so I'll try to condense the story so far into a concise post (apologies in advance for almost assuredly failing to be concise).
Several weeks ago I acquired a Lisa 2 with a dead PSU (and battery-bombed I/O board, but that's a story for another day) that I have been working on ever since. The PSU had a blown fuse and some cap leakage, so all electrolytic caps (and the fuse) have been replaced. With the I/O board removed and the remaining PCBs cleaned and repaired, I reseated the PSU in the Lisa and it came to life... briefly. The font power switch lit up and I could hear what I thought was the whine of the CRT, but am now pretty sure was just the transformer in the PSU. It had signs of life for several seconds prior to shutting off once again. Inspection of the PSU showed that the fuse had blown again and caps C18 and C21 had very puffed-out tops (the familiar stink of dead caps also hung in the air). Before proceeding with additional work, I consulted a few different forums and eventually built a load tester for the PSU (see attached images) and got the following results when testing voltages:
+5v rail: +8v
+12v rail: +18v
+33v rail: +53v
-5v rail: -5v
-12v rail: -18v
+5 standby: +5v
Aside from these results, the following represents the body of testing/work I have done around the PSU:
- Tested all Q-series transistors - Q1 was the only weird one which returned .462v when testing base to collector and .525v when testing base to emitter. I must admit that I'm not familiar enough to know if those are truly within spec for the type of transistor Q1 is, whereas all the rest of the 3904s test in the .6v range and look completely fine. Also, I went to check if Q1 was hot to the touch after powering off the PSU (it was still plugged in, just off) and got a slight tingle from the case - should the collector be energized like that even when the PSU is "off"? I also am feeling weird about Q2; is this the regulator that should be
producing +12v? If so, around +18v is coming out of it even though it appeared to test normal.
- R29 is operating within spec - 0-500 Ohms when tested; adjustment in any way does nothing to the outputs.
- CRs 8, 9, and 11
appear to test good on my end, but I'd like to make sure I'm testing correctly and that my values represent correct/expected ones. CR8 showed .155 from both anodes to the central cathode pin and CR11 showed .122 from both anodes to the center pin. CR9 was .680, which should be well within spec. I have no idea how to correctly test CR10, as I don't really know what the heck it is nor can I find a datasheet for it.
- All other normal diodes have been tested (including the three diodes attached to R17 an R19) and their results are below - I don't think anything is bad based on what I found, but it's always nice to have a second set of eyes.
- I have attempted to test CR17 and CR21, but I'm not terribly sure how they work with relation to being tested. They aren't transistors I'm used to working with, so I'm not sure what I should be seeing. All pin combinations result in OL except for 3 to 2, which results in .690 on CR17 and 1.236 on CR21.
- In one of the attached images, the four transformer pins all have continuity, which is slightly odd to me as it means that all three pins boxed in red in the top-left also all have continuity. As for the lower left-hand box, those four pins also have continuity between Q1's base pin and the trace to its left. Is this a sign of a short within the transformer? With the transformer removed these continuities go away, so I know it's local to the transformer, at least.
As stepleton on the 68KMLA forums described the issue: "we know the switching power supply is switching, it just doesn't seem to be regulating". What in the world am I missing, lol?
Diode testing results:
| CR1 | .525/OL |
| CR7 | .450/OL |
| CR8 | .155 |>-o-<| .155 |
| CR9 | .685/OL |
| CR11 | .122 |>-o-<| .122 |
| CR12 | .450/OL |
| CR13 | .205/OL |
| CR14 | .450/OL |
| CR15 | .525/OL |
| CR16 | .525/OL |
| CR18 | .450/OL |
| CR19 | .450/OL |
| CR20 | .460/OL |
| CR22 | .520/OL |
| CR23 | .450/OL |
| R17/R19 Diodes | .480, .450, and .450/OL |
Unfortunately, my knowledge of PSUs this complex is scant and I feel I've waded in to the deep end at this point. Any help forward would be extremely appreciated.
Edit: Some additional info... Got a response from a user on TinkerDifferent (rdmark):
Another tip that I read in a thread somewhere on Lisalist, is that the optocoupler on U3 may go bad with age and cause voltage issues. It has an LED inside the package with wears out with heavy use. And supposedly (this is 2nd hand information) it is in charge of decoupling the hot and cold side of the PSU and a failure mode is that the voltage on the cold site get ramped up beyond spec. I preemptively replaced the one in my PSU with one from this eBay seller.
While I'd rather not spend $30 on a relay/OEC, I will if I need to; is there some credence to this? The schematics don't otherwise look like it should cause power to ramp up on the cold side in the event of a failure, but I'm not exactly an expert on all this. Heck, I figured U3 was just the relay to power on the machine.
One last thought - R29. I replaced it just to see if I was crazy and got the same result - zero change in voltage whatsoever no matter how it's adjusted. It seems like the sense line (and the pot, by extension of that) is just not even factoring in at this point. I pulled Q2, Q3, and Q4 again just to check them one more time and they all test good. CR8, 10, and 11 aside, the only other thing I can't test is CR21 (one of the MPU-131s), but I'll have a NOS one to drop in sometime this week. Are the values for CR8 and CR11 acceptable as I've tested them above? Or are they out of spec? And as before, if anyone can fill me in on how the heck CR10 is supposed to be tested I'd be very grateful. It's like the shutdown circuit isn't even functional, so I'm curious if CR10 is just shot.
