[sdiy] Jupiter 8 not booting

Adam Inglis (synthDIY) synthdiy at adambaby.com
Fri Feb 5 22:44:09 CET 2021


Thanks Phillip and Brian
I’m happy to report the fix I mentioned (below) a few days ago seems to have done the trick, so it would seem to have been a capacitor problem.
Pretty shoddy quality eh? It’s only 40 years old this year…

A

> On 3 Feb 2021, at 5:35 pm, Adam Inglis (synthDIY) <synthdiy at adambaby.com> wrote:
> 
> Before I started cutting traces etc I pulled the board out and measured the ESR of the three electrolytic caps in that little circuit - and lo and behold C7 read high, and C8 was off scale (i.e. more than 99 ohms on my little tester). Removing C8 you could see the corrosion/damage. I replaced all three and the problem does indeed appear to have been fixed!
> 
> Many thanks once again - and Brian, thanks for the circuit analysis. I had muddled out a rough idea something along those lines. Now that I think of it, my DX7 has a similar circuit and has given me similar trouble in the past.
> 
> cheers
> Adam
> 
>> On 2 Feb 2021, at 3:39 pm, Brian Willoughby <brianw at audiobanshee.com> wrote:
>> 
>> I suspect that C7 or C8 is bad (or both). I had a bad capacitor in a TR-808 where touching it would make it work again, but a slight bump and it would stop working. This would explain your intermittent troubles.
>> 
>> 
>> If you had a digital/analog scope with recording abilities, you could look at what happens to the two Base and Collector voltages over time.
>> 
>> 
>> The circuit is a bit surprising. I've never looked at one of these startup Reset timing circuits before, so I never analyzed the time constants.
>> 
>> Ignoring all but the last stage, I would expect that TR2 could pull the Reset line low (active) rather quickly, because there's little resistance when the transistor is conducting, and that will discharge C9 rather quickly.
>> 
>> In contrast, when TR2 turns off, the 47 kΩ R4 and 10 uF (16 V) C9 would take 0.47 seconds to charge up to 3.16 V and 2.35 seconds to charge to basically the full 5 V. Of course, it depends upon the logic threshold for the Reset line, because it should trigger before the full 5 V anyway. Maybe the intention is for the system to keep the processor in Reset for a second or two while power stabilizes. This is the only part I find surprising, but maybe it's actually normal.
>> 
>> None of this explains 5 or 10 minutes, unless R4 is open-circuited. As far as I can tell, R4 brings the CPU out of Reset as soon as TR2 stops conducting.
>> 
>> 
>> Looking at the rest of the circuit, TR2 should conduct in under 1 millisecond after power-up. At some point, TR1 conducts and turns off TR2. I just can't quite figure out what happens to C7 that would control the timing of the Reset pulse. I assume that C7 starts with 0 V across it, then charges up to 4.31 V.
>> 
>> As I mentioned, the weirdest thing to me is the slow rise time of more than one second. Many modern processors would require a sharper rise time on the Reset line for proper operation.
>> 
>> 
>> I would expect that when not working, TR2 Base would be 0.59 V, not 0.14 V. That's because I assume R4 is good and TR2 is on. If that's not the case, then check R4.
>> 
>> Brian
>> 
>> 
>> On Feb 1, 2021, at 20:03, Adam Inglis wrote:
>>> 
>>> Could I trouble some patient soul to cast their eyes over this circuit and explain what should happen?
>>> The JP8 CPU reset circuit is in the grey box on the right half of the image.
>>> 
>>> <JP8 CPU reset.jpeg>
>>> 
>>> 
>>> 
>>> My jupe has been taking its time booting these last few months, 5 or 10 minutes, and now sometimes is refusing to boot at all. (Occasionally it will boot as usual in a couple of seconds after going through the tune routine, so the fault appears to be intermittent). 
>>> Up on the bench, when failing to boot, I measure the reset pin 26 on the CPU as 1.4 v. When it boots successfully, that voltage takes a second to go from 1.4 up to 4.9 volts.
>>> So I’m suspecting something in the reset circuit.
>>> 
>>> When working:
>>> Transistor 1 measures
>>> E  = 00 v
>>> C = 0.14 v
>>> B = 0.59 v
>>> Transistor 2 measures
>>> E = 00v
>>> C = 4.9 v
>>> B = 0.14 v
>>> 
>>> When not working the only change is the collector of TR2 doesn’t come up above 1.4  v
>>> 
>>> cheers
>>> Adam
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>> 
> 
> 
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