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MEF Members….
UPDATE - Just updated the EL34 mention below.
I came across a YouTube video where Stuart Smith of Berkshire Guitar Amplifier Repairs (in the UK) built a bias matching device. (Perhaps Mick knows him!!).
Youtube Video link. The video portion to watch starts at the 24:25 point.
Actually, there are two devices used together. As Stuart mentions in the video, the device sets a predetermined current flow for one tube, and then you simply drop in a second tube to see how closely it matches in terms of current flow.
The first piece of this setup is a high voltage power supply. I have a Heathkit SP-2717a for this. The second device is a jig where he drops in tubes into sockets. As you can see, there are three tube sockets. On the device, Stuart has notes for four different tubes – (1) 6L6, (2) 6V6, (3) EL34, and (4) EL84. In addition, he also shows target voltages.
In the video comments, you will see some exchange I have with Stuart, wondering how he is testing the tubes (circuit wise).
For the 6L6, the plate is going directly to the HT B+ supply. The screen goes to HT B+ using a 470 ohm 2 watt resistor. The grid goes directly to the Bias supply (negative voltage). I put a 1 ohm, ½ watt resistor on the cathode to measure voltage (which in effect is current).
For the 6L6 and 6V6, the first socket and components work great. I have replicated this on my board.
As you can see from his sticky notes, his settings are as follows:
6L6: HT = 360, Bias = -38
6V6: HT = 330, Bias = -25
EL84: HT = 350, Bias = -16
EL34: HT = 330, Bias = -28
And what about the EL34? That is an 8 pin tube, a slightly different pinout, Pins 1 and 8 are connected, so it needs a different socket. But is there a need for different components?
My other question is, how does this change when testing the EL84? I see a separate socket for the EL84 but I am wondering if it uses the same circuit as described above? Perhaps it does? I know that most EL84 single ended applications use Cathode biasing. And in that configuration, I am believing the Plate voltage is higher than the screen? But I am sure you can connect it in a fixed bias mode for this test. So I am wondering about the plate and screen connections and components.
Any ideas on this would be appreciated !!
UPDATE - Just updated the EL34 mention below.
I came across a YouTube video where Stuart Smith of Berkshire Guitar Amplifier Repairs (in the UK) built a bias matching device. (Perhaps Mick knows him!!).
Youtube Video link. The video portion to watch starts at the 24:25 point.
Actually, there are two devices used together. As Stuart mentions in the video, the device sets a predetermined current flow for one tube, and then you simply drop in a second tube to see how closely it matches in terms of current flow.
The first piece of this setup is a high voltage power supply. I have a Heathkit SP-2717a for this. The second device is a jig where he drops in tubes into sockets. As you can see, there are three tube sockets. On the device, Stuart has notes for four different tubes – (1) 6L6, (2) 6V6, (3) EL34, and (4) EL84. In addition, he also shows target voltages.
In the video comments, you will see some exchange I have with Stuart, wondering how he is testing the tubes (circuit wise).
For the 6L6, the plate is going directly to the HT B+ supply. The screen goes to HT B+ using a 470 ohm 2 watt resistor. The grid goes directly to the Bias supply (negative voltage). I put a 1 ohm, ½ watt resistor on the cathode to measure voltage (which in effect is current).
For the 6L6 and 6V6, the first socket and components work great. I have replicated this on my board.
As you can see from his sticky notes, his settings are as follows:
6L6: HT = 360, Bias = -38
6V6: HT = 330, Bias = -25
EL84: HT = 350, Bias = -16
EL34: HT = 330, Bias = -28
And what about the EL34? That is an 8 pin tube, a slightly different pinout, Pins 1 and 8 are connected, so it needs a different socket. But is there a need for different components?
My other question is, how does this change when testing the EL84? I see a separate socket for the EL84 but I am wondering if it uses the same circuit as described above? Perhaps it does? I know that most EL84 single ended applications use Cathode biasing. And in that configuration, I am believing the Plate voltage is higher than the screen? But I am sure you can connect it in a fixed bias mode for this test. So I am wondering about the plate and screen connections and components.
Any ideas on this would be appreciated !!
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