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Our Guitar Dept brought over a GK1001RB that got dropped, with the complaint that it now produces loud hum when turned on, connected to speakers. I was able to restore the output phone jacks, which have the tiny Ground-Protrusions from their Gnd terminal to dig into the chassis, making the circuit ground to chassis ground that way. Never been a big fan of those tiny contacts getting circuit ground that way, but I did restore that. Probably should have fashioned some brass grounding washers on the connector side of the output jacks, and soldering them to the ground terminal. Other than the usual solder joint issues I find on these when I go digging, I didn’t find anything obvious. Went thru the preamp PCB as well, re-soldering any of the pot terminals that even looked dubious. I believe the amp was mounted in a rack mount road case, but had been removed before getting here.
The steady hum and line-synced noise spikes I saw initially aren’t here now since making what repairs I found and putting it back together, then re-biasing. But, what I’m now finding when I first powered it up was wildly-fluctuating random noise in the 60-100mV range, then goes quiet, being around 500uV RMS, 20kHz BW. It now comes and goes, and I have been hearing it thru the speakers, so I can't ignore it. And, it’s only in the LF Power Amp. Not coming from the Preamp (have both LF/HF amps connections unplugged), nor am I seeing it in the HF amp.
This reminds me of a recent 1001RB that had been posted with similar noise problems, which hadn’t yet been resolved, or at least I don’t recall reading it had been found. I searched briefly for it but didn't spot it. Ah, found it. https://music-electronics-forum.com/...ghlight=1001RB
The PCB Revision I have here is 206-0260-B2. My documentation covers Rev A1 thru A6 with all the schematics, parts lists & PCB layouts, and I also have just the schematic for Rev B.
I’m assuming the culprit(s) causing this random fluctuating noise is in the front end of the power amp, ahead of the two-tier bipolar Output Stage. I calculated the currents thru the front end thru voltage gain stage which has the bias circuit in it, then measured those voltages across the collector & emitter resistors at both ends of the power supply rails, calculated the currents, and it’s very similar to the published voltages.
On the front end side of R39/R17, I have +/- 100.3V, with +/- 100.6V at the output stage side. So, nominal current for the front end is 300mV/10 ohm or 30mA. It would be more, since I’m getting more current thru Q14/Q11, and I only looked briefly at the rail voltages. When I measured across R39 (10 ohm), I was reading around 410-420mV or 41-42mA. The currents thru R33, R15,R16, R24 and R31 bear that out.
Res Voltage Current Resistance
R15 2.67V 1.34mA 2.00k
R16 2.60V 1.30mA 2.00k
R24 2.11V 1.06mA 2.00k
R31 2.18V 2.18mA 1.00k
R33 1.70V 35.8mA 47.5R
R21 0.53V 2.65mA 200R
R22 2.03V 1.15mA 2.00k
R20 2.20V 2.20mA 1.00k
R26 1.47V 30.9mA 47.5R
So, the front end is running close to spec…well within tolerances.
Now, what I’m contemplating, though have never done this, is to disconnect the front end from the output stage power supplies by lifting R39 & R17, disconnecting the AC secondary wiring plug from the power supply, and powering the front end from an external regulated dual-tracking supply (a pair of Lambda LQ534 0-120V @ 0-1.7A power supplies, strapped for Master/Slave tracking use, which I had on my bench at BGW Systems decades ago. I’ve never tried this on the GK amps. On other more conventional power amps, disconnecting the driver stages from the voltage gain stages, shorting out the bias circuit with a jumper, and tying those collectors together to the feedback network let the front end work like a high voltage op amp. And even with the feedback opened, have had it stable.
If I lift up R39/R17, along with D12 & D1 to isolate the upper/lower voltage gain stages from the upper bipolar tiers of the GK two-tier output stage, while leaving Q16/Q7 connected, where just their B-E junctions would be passing current between the bias circuit. I think I’d also want to lift R10 up, it being the feedback resistor from the output stage to the inverting side of the front end.
Would this allow me to go digging for the random noise source in the front end?
1001RB-II_POWER_AMP_PN_206-0260.pdf
The steady hum and line-synced noise spikes I saw initially aren’t here now since making what repairs I found and putting it back together, then re-biasing. But, what I’m now finding when I first powered it up was wildly-fluctuating random noise in the 60-100mV range, then goes quiet, being around 500uV RMS, 20kHz BW. It now comes and goes, and I have been hearing it thru the speakers, so I can't ignore it. And, it’s only in the LF Power Amp. Not coming from the Preamp (have both LF/HF amps connections unplugged), nor am I seeing it in the HF amp.
This reminds me of a recent 1001RB that had been posted with similar noise problems, which hadn’t yet been resolved, or at least I don’t recall reading it had been found. I searched briefly for it but didn't spot it. Ah, found it. https://music-electronics-forum.com/...ghlight=1001RB
The PCB Revision I have here is 206-0260-B2. My documentation covers Rev A1 thru A6 with all the schematics, parts lists & PCB layouts, and I also have just the schematic for Rev B.
I’m assuming the culprit(s) causing this random fluctuating noise is in the front end of the power amp, ahead of the two-tier bipolar Output Stage. I calculated the currents thru the front end thru voltage gain stage which has the bias circuit in it, then measured those voltages across the collector & emitter resistors at both ends of the power supply rails, calculated the currents, and it’s very similar to the published voltages.
On the front end side of R39/R17, I have +/- 100.3V, with +/- 100.6V at the output stage side. So, nominal current for the front end is 300mV/10 ohm or 30mA. It would be more, since I’m getting more current thru Q14/Q11, and I only looked briefly at the rail voltages. When I measured across R39 (10 ohm), I was reading around 410-420mV or 41-42mA. The currents thru R33, R15,R16, R24 and R31 bear that out.
Res Voltage Current Resistance
R15 2.67V 1.34mA 2.00k
R16 2.60V 1.30mA 2.00k
R24 2.11V 1.06mA 2.00k
R31 2.18V 2.18mA 1.00k
R33 1.70V 35.8mA 47.5R
R21 0.53V 2.65mA 200R
R22 2.03V 1.15mA 2.00k
R20 2.20V 2.20mA 1.00k
R26 1.47V 30.9mA 47.5R
So, the front end is running close to spec…well within tolerances.
Now, what I’m contemplating, though have never done this, is to disconnect the front end from the output stage power supplies by lifting R39 & R17, disconnecting the AC secondary wiring plug from the power supply, and powering the front end from an external regulated dual-tracking supply (a pair of Lambda LQ534 0-120V @ 0-1.7A power supplies, strapped for Master/Slave tracking use, which I had on my bench at BGW Systems decades ago. I’ve never tried this on the GK amps. On other more conventional power amps, disconnecting the driver stages from the voltage gain stages, shorting out the bias circuit with a jumper, and tying those collectors together to the feedback network let the front end work like a high voltage op amp. And even with the feedback opened, have had it stable.
If I lift up R39/R17, along with D12 & D1 to isolate the upper/lower voltage gain stages from the upper bipolar tiers of the GK two-tier output stage, while leaving Q16/Q7 connected, where just their B-E junctions would be passing current between the bias circuit. I think I’d also want to lift R10 up, it being the feedback resistor from the output stage to the inverting side of the front end.
Would this allow me to go digging for the random noise source in the front end?
1001RB-II_POWER_AMP_PN_206-0260.pdf
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