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[Amps] Measuring filament voltage

To: amps@contesting.com
Subject: [Amps] Measuring filament voltage
From: John Lyles <jtml@losalamos.com>
Reply-to: jtml@losalamos.com
Date: Sun, 5 Jun 2022 11:09:28 -0600
List-post: <mailto:amps@contesting.com>
In the commercial RF amplifiers that I have designed, put into production or installed and operated, filament voltage is measured all the time. For pentodes, tetrodes or triodes with common cathode arrangement, it is simple to have two wires going to the socket, suitably bypassed for common mode as well differential mode RF noise. A cheap DMM won't be accurate enough, depending on the transformer or power supply - use true RMS metering. For years this meant taut band analog meter movements. All the Broadcast Electronics FM transmitters with tubes had these as well as their quality competitors such as Collins and Harris. These days one can find a decent digital meter that has RMS calibration in case of non-perfect sinewave waveform. I have used Newport meters for this. The point is to measure at the socket, not the transformer winding.

For common grid circuits where the cathode is carrying common mode RF voltage with respect to grid and chassis, it's not so easy. If it is a cavity circuit where the structure itself is used to ground the bottom end of the resonator (quarter wave cavity for example) then the meter circuit is applied there at the ground end of the structure. This is how i do it for 2 MW amplifiers at 200 MHz that are grounded grid/screen grid configuration. You can tell if there is RF interference, as the meter will rapidly change with the RF power comes on. If there is appreciable backheating inside the tube (RF and infrared affecting the cathode temperature) then it is more complicated and I will leave that out of this. Assume that the designer did a good job of bypassing the heater carefully for RF.

For HF amplifiers that often use common grid circuit with triodes, it is again more difficult to measure at the socket since RF voltage is applied to the cathode with respect to grid and to chassis. About the best you can do is measure on the transformer secondary (for a center tapped filament transformer) just before the bifilar RF choke. You can measure with RF off on both sides and create a calibration factor, knowing what it is on the cold side of the chokes to estimate what is at the tube/socket. Then you know what it is with RF on or off.

I have one amplifier system that is a cathode follower connected triodes. The RF voltage is as high as 18 kV peak at 2.8 MHz there. It is very difficult to physically measure the filament voltage. The filament transformer has low capacitance and RF isolation between windings. In that case, can only measure the primary AC voltage, 440 VAC in this case. And then create a conversion coefficient for the output voltage, measured with a good RMS meter when the RF/HF is locked out.

73

John

K5PRO


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