Push-Pull 6B4G Amplifier

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This is a design I’ve built five times! I don’t own one myself, as I had other desires. This particular one I built for my father, and he wanted it set up so any rectifier tube, including a solid-state plugin, could be used. Again we have the standard 17″ x 10″ x 3″ hammertone-painted steel chassis, this time with Hammond 1645 output transformers and a surplus power transformer. My father insisted on painting the transformers I would have kept as black. The solid-state rectifier is the painted cylinder in the middle. The completed unit puts out 15 watts per channel.

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This, unlike the single-ended 6B4G amp, is not a simple affair. This is a three stage circuit, using one section of the input 6SL7 as a paraphase phase inverter. The second stage is the driver, using the 6SN7, to achieve the high voltage swing the 6B4Gs require. The output stage is very straightforward, except for the connection of the cathode-bias circuitry. In order to set up each channel’s output tubes, two 6.3 volt center-tapped windings are required. The three stages are enclosed in a negative feedback loop, without any step circuits to prevent oscillation! This is possible because the 6B4G has a high input capacitance, acting as it’s own step circuit or filter. The circuit can still be unstable unless a sufficiently wideband output transformer is used. This design is a close copy of a design in the Acrosound catalog, and in this case, the Hammond transformers have a somewhat lower bandwidth. This made it necessary to carefully tune the feedback loop for stability. The end result is a solid performer with decent power, sounding unlike push-pull pentode designs. It does sound louder than the watts indicate. Anyone building this circuit should spare no expense on the output transformers.

3 thoughts on “Push-Pull 6B4G Amplifier

  1. In your schematic, you have the 5v of the rectifier going to the choke and B+ rail.

    I assume this is an error in the drawing?

  2. Sorry I realized that is actually correct about the 5v to b+.

    Since the schematic has two output tubes, but the amp being stereo has four tubes, my question is how do you feed the second input from a single source and do you branch off the b+ after the last filter cap for the other sides b+ supply?

    Thanks for your time .
    Zach

    • I am not sure what you mean by “how do you feed the second input from a single source”. If you mean one input to both channels, you can connect both inputs together. You may need to explain that statement. Yes, the second channel is a duplicate of the first connected to the same B+ after the second filter cap.

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