IME the Orange tester finds almost every tube that will fail when used in an amp. And it's not good for power tube matching if your main criteria is bias current - two of the same number can be a poor bias match, two that are a number apart can be a great bias match.

I fixed one a little while back using a custom-built bias-probe (I made myself) that has multiple terminals for multiple meters that permit simultaneous measurement of Va, Vg2, Ik and Vg1 - one tube at a time. I ran this on all six tubes to work out which ones should go on which side. Got the sides balanced to within 1mA! The comparator window LEDs work properly'n'all.

But it had multiple failures prior to this success story that took me days to hunt down and figure out. Blown Rg2 was easy to spot, but the blown PS for the bias protection circuit comparator window wasn't immediately obvious. But the tell-tale signs were there - scorched filament spade terminal contacts for the primary filament leads to the output tube board. These needed clipping off, cleaning up, and soldering the leads directly to the cleaned spade connector tabs on the board. These connection points see 11.1A under idle conditions (leaving aside startup spikes). As far as I can make out, the build-up of oxidised crud between the connectors and the spades had resulted in increasing resistance - and high voltage spikes and arcing, which left a scorched black mess everywhere around the terminal connectors. The voltage spikes from these fireworks had gone back through the filament PT winding and thence across into the winding for the PS for the bias protection circuit and taken out the PS filter caps! Anyway after I found and fixed all the dud parts and got it going again, it has held up so far (touch wood).

I'm going to start tomorrow troubleshooting the fault circuit and check IC2B per Marcus bass.I'll study the schematic tonight. I tell you Tubeswell, as many cracked solder joints this amp had when it came to me i should know to check the fault circuit for cracked joints to. It had bad solder joints on all the power tubes. Ampeg sent out a service notice about it.. I'm willing to bet a cracked solder joint is the problem here and i just have find it. It's just had multiple problems. But, it goes with the territory. It's my job, no matter how aggravating it is sometimes, it's what we all get paid for. I think the customer,who is a friend of mine, bought this amp for about 200.00 dollars. I think he did alright. SVTs are great amps and when they work right,they are hard to beat if you want that tube sound. But you better buy a forklift to move it for you.

I am not going to rewrite it now, but a couple years ago we did an in depth circuit analysis of the bias and protect setup in these. What each part does, how the compartors work, etc. Search it out. It may look complex, but the principle behind it is straightforward.

Just don't start guessing. "Maybe a stuck relay?" Fine, if you think that, don't replace the relay, go look. Is the coil getting energized or not. If energy flows through the coil but the contacts don't transfer, then yes, the relay is bad. But if the voltage at the coil never changes, then neither will the contacts. And it isn't the fault of the relay. To me a shorted shunting diode across the coil is more likely than a bad coil. Everything is a circuit. The relay is controlled by a transistor, which is in turn controlled by other circuits, so trace it back.

Thanks Enzo for the info. I'll see if I can find the piece you're talking about. I'll start tracing it down in the morning and hopefully find it.

Another reason I hate those Orange VT1000 testers.!!

The Orange tester has been pretty reliable up to this point but everything has it's quirks i guess. There is a reason i held onto the B&K. I get amps through, like most techs, that have 7 pin tubes. All of those are vintage amps so hopefully i got it covered. The Orange tester i like because it can quickly test most tube used in today's amps. At least i don't have to do much to set it up.
I found a cracked solder joint on the power in module board where the fault relay is at.i plugged in the amp and turned it on and started probing the wires around the relay and i could make the relay make or break at will.I resoldered it and tested the amp and it worked until a few minutes ago and it's stuck in fault mode again. But now i'm sure the problem is still either a corroded push on connector, which someone on here suggested, or another cracked solder joint i just haven't found yet. As many cracked joints this amp had i should know to look more carefully. Well i think i'm at least close to getting to the problem. The customer is real cool about it. He's a long time customer.Stay tuned for the next episode.

A new problem happened this morning. I was testing the amp this morning and I smelled something get hot so I stopped the test. I heard the relay rattle , that's what I call the noise, and the amp meter on the variac swung to about 13 amps. I shut everything down. I pulled the 6550s and tested the amp. There was no more excessive amperage draw but now the relay opens and then closes in a cyclic manner about every 3 to 4 seconds. So does anyone have the schematic for the relay circuit or can shed some light on it. I found the relay control wire to the main board. I removed all the boards and didn't find any evidence of burned or overheated tracings or anything else. Someone on here gave me a few things to check. IC2 I believe was one. If pin 7 has a negative voltage then it means either the op amp is bad or pin 6 has positive Voltage on it. Having the schematic would sure help things. Sometimes Ampeg uses the preamp from one amp matched to the output from another amp. At least the SVTs. I'll see if I can't find it online. By the way, why do some relay circuits have a diode across the relay coil?

Never mind the schematic. I found an SVT 2 which I think is the same fault circuit as the SVT classic. I remember it as being something like this.

SVT-CL schematic(s)

All the ones I have anyhow

Thanks tubeswell. If I would have thought about the SVT 2 having the same fault circuit, or it looks the same, I could have saved you the trouble. Thanks anyway.

Actually I just realized G1 posted the fault circuit from an SVT 2 a few days ago. If I would have looked closer I could have saved the both of us the trouble.

Back to this SVT. I checked R3,R4 and R2. Out of the circuit they all tested good. I removed the MPS A13 from circuit and it tested in a way that i didn't trust but since i stock those i just replaced it. I think better safe than sorry. I found the article on here where Enzo explained how the fault circuit works. It helped a lot. I checked the voltages at IC2B per Timmy and i had negative volts at pin 7. Question. I thought i was supposed to have 15 volts plus,minus at pins 4 and 8 on a TL072. That voltage is missing on IC2. When i check the voltage with my meter at R3 or R4 on the ends closest to the MPSA13 that trips the relay. But i'm going to recheck the voltages again tomorrow to verify. I measured 115 volts at R3 and that doesn't look right. I'll try another grounding point for my meter.

These are the exact voltages i just measured.
IC2 pins 1,2,3 0 volts
pin4 ( -13 volts)
pin 5 +15 volts
pin 6 +15 volts
pin 7 0 volts
pin 8 + 4 volts
At J 35 , + 11 volts constant. The relay cycles about every 3 seconds but the time varies on the cycling.
R 2 7 volts
R 3 2 volts
R 4 2 Volts

Having an actual schematic on the main board circuit would sure help. I've looked all over. Enzo explained how it works really well and i can troubleshoot from there but i guess i just want to see the whole circuit. Where does IC2 get its voltages from? The other thing,some SVTs i've worked on have the fault relay mounted on the main/driver tube P C board. This amp has the fault relay on the AC power in module. Just to make sure we're talking about the same amp. Thanks.

Gosh. I just realized the schematic I was looking for is right in front of me.