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Hi Guys,
I have a general question about how to approach fault finding solid state amps output stage. I would be interested to hear if anyone is willing to share some hints or tips on their approach to the scenario
where the output stage transistors are fried. For me this has come up in response to a specific amp; a GK MB150 SCHEMATIC.pdf but I guess there is a lot of similarities here with other SS amps.
The scenario is that this amp came to me and had stopped working during a gig when it had been driven too hard.
My general approach is:
Isolate the problem to either power supply, pre amp or power amp. In this case slightly ashamedly I have actually ignored my own approach and leapt in on the power amp based on the apparent state of the amp and the fact that another tech had looked at it and started replacing the output devices but then taken ill and been unable to complete the work.
Assuming that I have identified a power amp problem, I start with the output stage and check the output devices, so working from back to front; all four output devices TIP35C and 36C were short from a quick diode check with a multimeter. On these amps, the output devices are soldered flat on the board (with a rectangular hole in the board for the output device to bolt to a heatsink). This is helpful as you can lift a leg and then make a good "out of circuit" measurement.
Next I check out the driver transistors Q620, Q621 and Q617) with a diode check and in this case I discover Q621 is short and actually a little smokey around the board. The other buzzed out ok on the diode checker but since they do not cost too much I just replace them anyway.
Next I check out the bias circuit and associated small transistors in a similar way to the drivers. I replace a few rather blindly as by this point my understanding of the circuit is getting a little fuzzy to say the least.
Next I check all the diodes and resistors and they check out ok
When I think I have dealt with the fault it is time to test.
My approach is to slowly power the amp up on a variac with a dim light bulb and NO SPEAKER LOAD and measure for any DC on the output.
What I am not sure about is how much voltage I can safely apply with the variac. For example there needs to be enough supply for the various bias conditions to be correct but not so much that any damage can occur. I was taking an approach of allowing the supply to give supply rails of 4.5v which is 10% of the normal operating conditions
In the case of this GK amp I am getting a DC voltage roughly in line with the supply volts. Although my current limiter bulb is not lighting up, I feel that the amp must still have a problem because of the DC volts on the output.
Would love to hear any suggestions on alternative approaches, missing steps or logical next steps. And if anyone has any reading recommendations then yes bring em on.
Best wishes to all and hope you can follow my late night post, Mike
I have a general question about how to approach fault finding solid state amps output stage. I would be interested to hear if anyone is willing to share some hints or tips on their approach to the scenario
where the output stage transistors are fried. For me this has come up in response to a specific amp; a GK MB150 SCHEMATIC.pdf but I guess there is a lot of similarities here with other SS amps.
The scenario is that this amp came to me and had stopped working during a gig when it had been driven too hard.
My general approach is:
Isolate the problem to either power supply, pre amp or power amp. In this case slightly ashamedly I have actually ignored my own approach and leapt in on the power amp based on the apparent state of the amp and the fact that another tech had looked at it and started replacing the output devices but then taken ill and been unable to complete the work.
Assuming that I have identified a power amp problem, I start with the output stage and check the output devices, so working from back to front; all four output devices TIP35C and 36C were short from a quick diode check with a multimeter. On these amps, the output devices are soldered flat on the board (with a rectangular hole in the board for the output device to bolt to a heatsink). This is helpful as you can lift a leg and then make a good "out of circuit" measurement.
Next I check out the driver transistors Q620, Q621 and Q617) with a diode check and in this case I discover Q621 is short and actually a little smokey around the board. The other buzzed out ok on the diode checker but since they do not cost too much I just replace them anyway.
Next I check out the bias circuit and associated small transistors in a similar way to the drivers. I replace a few rather blindly as by this point my understanding of the circuit is getting a little fuzzy to say the least.
Next I check all the diodes and resistors and they check out ok
When I think I have dealt with the fault it is time to test.
My approach is to slowly power the amp up on a variac with a dim light bulb and NO SPEAKER LOAD and measure for any DC on the output.
What I am not sure about is how much voltage I can safely apply with the variac. For example there needs to be enough supply for the various bias conditions to be correct but not so much that any damage can occur. I was taking an approach of allowing the supply to give supply rails of 4.5v which is 10% of the normal operating conditions
does that sound like a reasonable approach?
In the case of this GK amp I am getting a DC voltage roughly in line with the supply volts. Although my current limiter bulb is not lighting up, I feel that the amp must still have a problem because of the DC volts on the output.
Would love to hear any suggestions on alternative approaches, missing steps or logical next steps. And if anyone has any reading recommendations then yes bring em on.
Best wishes to all and hope you can follow my late night post, Mike
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