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My beloved Harmon Kardon 430 receiver just developed a loud hum in one channel. The speaker output on that channel is at -27.6V …not good. Should be 0V.
The output transistors are 2SC1030 npn in “totem-pole” arrangment. B+ of 29V on the “upper” collector, base at 0.5VDC, emitter at 0 VDC (out to speaker) hooked to the collector of the “bottom” transistor that is tied by emitter to the B- (-29.2VDC) That base sits at -28.6 VDC. This is the GOOD channel.
The BAD channel has similar B+ and B- rails, but the base of the top transistor is sitting at -27.1 VDC (instead of 0.5V) with the emitter at -27.6VDC. The bottom transistor base is -28.6VDC an the emitter is tied to the -29.2 VDC rail.
I was thinking there is a short in the bottom transistor, but I would have expected the emitter and collector to be at the same voltage for a dead short. No way to test for a short until I remove the transistor from the circuit. No burning smell or smoke, but I did eventually blow the 3 Amp fuse in the B+ rail for the involved channel.
Before I replace the power transistors, would a bias failure be an alternative explaination for these voltage readings? It would be easier to replace the bias components before unsoldering TO-3's from the board. I already replaced the driver transistors about a year ago, which successfully fixed a gradual loss of volume in both channels.
Any advice would be appreciated.
Thanks
fred
The output transistors are 2SC1030 npn in “totem-pole” arrangment. B+ of 29V on the “upper” collector, base at 0.5VDC, emitter at 0 VDC (out to speaker) hooked to the collector of the “bottom” transistor that is tied by emitter to the B- (-29.2VDC) That base sits at -28.6 VDC. This is the GOOD channel.
The BAD channel has similar B+ and B- rails, but the base of the top transistor is sitting at -27.1 VDC (instead of 0.5V) with the emitter at -27.6VDC. The bottom transistor base is -28.6VDC an the emitter is tied to the -29.2 VDC rail.
I was thinking there is a short in the bottom transistor, but I would have expected the emitter and collector to be at the same voltage for a dead short. No way to test for a short until I remove the transistor from the circuit. No burning smell or smoke, but I did eventually blow the 3 Amp fuse in the B+ rail for the involved channel.
Before I replace the power transistors, would a bias failure be an alternative explaination for these voltage readings? It would be easier to replace the bias components before unsoldering TO-3's from the board. I already replaced the driver transistors about a year ago, which successfully fixed a gradual loss of volume in both channels.
Any advice would be appreciated.
Thanks
fred
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