Hi Rickybocker. Working for Ampeg, I have repaired a dozen or more of these. Some folks on here may disagree with me, but here's what I do when fixing these. For starters, all of the Mosfets. It looks like you have shorted parts on both the + and - side, so you might as well do all 10. When the mosfets go, in more cases than not these are destroyed as well:
10 x .47ohm (the big guys) on the source
10 x 1.5k ohm on the gate
10 x 47 ohm on the gate
Start there, in addition to the stuff in the biasing circuit that you've already seen. I've seen Q106 and Q107 be all wonky even though it bugs out OK. My record was 76 components replaced on one of these bringing it back to life.
And get a variac and ammeter!

Good reply, Hodgy.

Yeah, when they blow, they blow.

Enzo has often pointed out that it helps to print out the circuit in question & highlight the failed components.
Then you simply connect the 'current' dots.

If you have access to one, a variac with an amp meter is much preferable to a lightbulb limiter. Depending on how it the circuit is set up, you might want to jumper the protection relays if you are using a variac. Do not do your initial test with a load. Since you have a stereo amp with a working channel, you can check for discrepancies as you bring the voltage up SLOWLY and watch the current draw. A lightbulb limiter is better than nothing, but it is not what most bench techs would use in a shop environment. Since you are a serious student with a degree, you might as well do it right if you can.

Agree, never hook up a load on the output until you know that the output section is stable.

The main voltages have got to be stable.
That includes the high voltage V+ & V- and also the +15 & -15 volt supplies.

There are a number of very good test point voltages listed (rare indeed).

Try to keep in mind that the output section itself is a balancing act between the two high voltage supplies.
And being a solid state amplifier, with massive feedback, it will not take much in the way of one blown component to upset the section.
If you have one half of the section slamming on (Vdc on the output) the polarity of the voltage can help in deciding what is wrong.

Both the high side & the low side turning on at the same time is a recipe for smoke.

By the massive amount of damage this amp has incurred, I would suspect that it was turned on more than once in the failed state.
You have your hands full on this one.
Dot your I's and cross your T's.
All it takes is one missing copper trace, open resistor or failed semiconductor.

I am ordering a variac tonite. I dont have access to one at school since we do mainly low current AC/DC there. Ive had to try to take the small amount of theory they have given me to apply it to my quest for becoming a Amplifier resurrectionist..haha. I've havent connected a load to the amp during the tests so far. When you say "jumper the relays" do you mean short them so the common is connected to the Normally open contact? Or keep the relay from closing? As soon as I hear the relay click the smoke comes out.

I agree with JM Fahey's approach, making a functional high voltage amp out of the front end, AFTER replacing Q102-thru Q105, and perhaps Q106 & Q107 if at all questionable. olddawg's suggestion of using a variac with ammeter highly recommended, as it allows watching the circuit come on as you bring up the mains, hopefully preventing further failures.

As Jazz P-Bass suggests, any copper trace damage and you've got real problems. I've had trace breakage on the solder pads of Q012 & Q105 before, very mechanically unstable, and you already indicated burnt traces in that voltage gain stage.

Defeating the output stage on the SVT4-Pro isn't so simple. Lifting up the source end of the gate resistors, and lifting up either end of the 0.47 ohm/5W source resistors of Q110 thru Q119 effectively takes the MosFET stage out of circuit. Little room in between the two heat sinks to get at them though. Maybe be easier to just remove Q110-Q119. Yup....not a service-friendly amp.

I've made myself a set of AC Mains extender jumpers (male/female 1/4" insulated fast-on 12" cables) so you can operate the main power amp PCB out of the chassis...with the chassis standing on it's power xfmr side, allowing it to connect the secondary wires to the PCB assy. and, of course, a large insulated surface underneath the PCB assy!!

If the high voltage 'line amp' does power up without failing, you may also want to lift the two zener's D114, D117 cathodes, so they're not in circuit. The current limiter is out of circuit by the 100 ohm connection from Q102/Q105's collectors. I was going to suggest tying those collectors together, and using around a 1k resistor to tie it to the feedback node at R109, R110 & RT112.

Don't load that circuit...run it open load and see that it's working on it's own. Then, you've got something to compare to Ch B, as far as driving open circuit goes.

If you don't have the PCB layout drawing, I have it here.

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Working for Ampeg, I have repaired a dozen or more of these. Some folks on here may disagree with me, but here's what I do when fixing these. For starters, all of the Mosfets. It looks like you have shorted parts on both the + and - side, so you might as well do all 10. When the mosfets go, in more cases than not these are destroyed as well:
10 x .47ohm (the big guys) on the source
10 x 1.5k ohm on the gate
10 x 47 ohm on the gate
Start there, in addition to the stuff in the biasing circuit that you've already seen. I've seen Q106 and Q107 be all wonky even though it bugs out OK. My record was 76 components replaced on one of these bringing it back to life.
And get a variac and ammeter!