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Often the connection from input jack to V1 is via a screened cable, with the screen connected at one end only. Signal return current from the cathode goes via the cathode resistor through some ground connection back to the jack.
Connecting the screen only at one end prevents a ground loop, and gives screening against electric fields, but provides no screening against magnetic fields.
Interference from nearby heater wiring can be magnetic (since heater wiring is relatively low voltage but high current).
To get magnetic screening, in addition to electric, the outer conductor of the screened cable must carry the signal return current.
So how about the following:
Grid leak 1M at the input jack as usual. Outer conductor of screened cable connected to jack ‘sleeve’. Near V1, the outer conductor is soldered to a wire which continues alongside the grid stopper, does a U-turn near the V1 pins, travels close alongside the wire back from the cathode and alongside the cathode resistor eventually connecting to the ‘ground end’ of the cathode resistor.
The single ground connection to the chassis can be at the jack or at the ‘ground end’ of the cathode resistor.
In the above scheme the signal return current goes via the outer conductor and also the overall ‘loop area’ of signal and return is minimised to reduce magnetic interference. No ground loop is formed.
If there is a cathode bypass cap, the wire should go close to that, rather than close to the cathode resistor, as the AC signal passes through the cap.
I’ve tried it and it works, but I can’t present any practical evidence whether it works better than the usual scheme or not. I think in theory it should be better!
Connecting the screen only at one end prevents a ground loop, and gives screening against electric fields, but provides no screening against magnetic fields.
Interference from nearby heater wiring can be magnetic (since heater wiring is relatively low voltage but high current).
To get magnetic screening, in addition to electric, the outer conductor of the screened cable must carry the signal return current.
So how about the following:
Grid leak 1M at the input jack as usual. Outer conductor of screened cable connected to jack ‘sleeve’. Near V1, the outer conductor is soldered to a wire which continues alongside the grid stopper, does a U-turn near the V1 pins, travels close alongside the wire back from the cathode and alongside the cathode resistor eventually connecting to the ‘ground end’ of the cathode resistor.
The single ground connection to the chassis can be at the jack or at the ‘ground end’ of the cathode resistor.
In the above scheme the signal return current goes via the outer conductor and also the overall ‘loop area’ of signal and return is minimised to reduce magnetic interference. No ground loop is formed.
If there is a cathode bypass cap, the wire should go close to that, rather than close to the cathode resistor, as the AC signal passes through the cap.
I’ve tried it and it works, but I can’t present any practical evidence whether it works better than the usual scheme or not. I think in theory it should be better!
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