Hi there. A guy brought me his G-K 200MB because it was distorting on low notes (he plays an upright bass through it). Here's the schematic:
G-K200MB.pdf
So I check it over and all seems fine, although the bias voltage is a tad low (like 4mV) so I adjust it as per the manufacturer's specs (to 5mV). No problems. So I'm just checking some more voltages on the output transistors (Q11,12,16,18) when I notice the power transformer is chattering and the secondary lines from it are actually shaking (this is without a speaker load attached, BTW)! I turn the power switch off immediately and it stops (I should note that the power switch is on the secondaries in this amp- the primaries stay powered so long as the amp is plugged in!). So I measure voltage on the secondaries thinking they've shorted, but they're fine- each side putting out about 30VAC. Next I think maybe the rectifier is shot- I remove it and test all 4 diode points and they seem fine. I then thought I would be clever and only hook up one side of the secondary at a time to see if the -ve or +ve rail was to blame, but unhooking either results in the same problem. I figure I'm stressing the PT out a lot with these tests, so I'm currently using a step-down transformer to run it on 120V mains (this is an Australian 240V amp).
I scoped the unloaded secondary voltage and it seems fairly clean but when I switch the power on the waveform compresses on both sides, with flattened peaks (I'll attach pics later) and this is the same on both ends of the secondary.
None of the 5W or 2.7K 1W resistors test as open circuit and both filter caps seem to charge up when doing a resistance test. So I'm trying to figure out what would cause this and why would it start happening all of a sudden? I'm certain I didn't short anything out while I was probing and a close inspection of the board doesn't reveal anything out of place. I might replace the filter caps since they're about due anyways, but shotgunning parts never solves anything, IMO.
Any ideas on how to isolate the problem? I'm thinking of maybe disconnecting the +/-12V and +/-15V from the power supply first, since I'd only half to lift 4 resistors.
I honestly don't know why I keep accepting solid state jobs. I can't seem to get my head around them and they seem to go from bad to worse before (hopefully) they get better.
-Jaret
G-K200MB.pdf
So I check it over and all seems fine, although the bias voltage is a tad low (like 4mV) so I adjust it as per the manufacturer's specs (to 5mV). No problems. So I'm just checking some more voltages on the output transistors (Q11,12,16,18) when I notice the power transformer is chattering and the secondary lines from it are actually shaking (this is without a speaker load attached, BTW)! I turn the power switch off immediately and it stops (I should note that the power switch is on the secondaries in this amp- the primaries stay powered so long as the amp is plugged in!). So I measure voltage on the secondaries thinking they've shorted, but they're fine- each side putting out about 30VAC. Next I think maybe the rectifier is shot- I remove it and test all 4 diode points and they seem fine. I then thought I would be clever and only hook up one side of the secondary at a time to see if the -ve or +ve rail was to blame, but unhooking either results in the same problem. I figure I'm stressing the PT out a lot with these tests, so I'm currently using a step-down transformer to run it on 120V mains (this is an Australian 240V amp).
I scoped the unloaded secondary voltage and it seems fairly clean but when I switch the power on the waveform compresses on both sides, with flattened peaks (I'll attach pics later) and this is the same on both ends of the secondary.
None of the 5W or 2.7K 1W resistors test as open circuit and both filter caps seem to charge up when doing a resistance test. So I'm trying to figure out what would cause this and why would it start happening all of a sudden? I'm certain I didn't short anything out while I was probing and a close inspection of the board doesn't reveal anything out of place. I might replace the filter caps since they're about due anyways, but shotgunning parts never solves anything, IMO.
Any ideas on how to isolate the problem? I'm thinking of maybe disconnecting the +/-12V and +/-15V from the power supply first, since I'd only half to lift 4 resistors.
I honestly don't know why I keep accepting solid state jobs. I can't seem to get my head around them and they seem to go from bad to worse before (hopefully) they get better.
-Jaret
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