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Hi all,
Please be patient with me!
I've done a lot of reading, both here, in Merlin B's pre-amp book, and all over the internet.
I'm trying to set-up a DC coupled cathodyne in a sort of hot rodded 5E3 amp, using a post PI MV (dual gang), and using the gain stage/cathodyne as the pre-amp distortion generating stage.
Because I am trying to get a lot of gain on the gain stage, I have been using a 12AX7 as both gain stage and cathodyne.
First i tried an AC coupled version. Set up the gain stage roughly centre biased, and also the cathodyne roughly centre biased using cathode bias. For the cathodyne loads I tried both 56K Ra and Rk, and 100K Ra and Rk. I tried both 470K and 1M input grid stoppers on the cathodyne. I used a trimpot for cathodyne Rb, and played with varying values in each scenario.
The AC coupled sounded great when run clean, really bright, clean and responsive. When pushed, it moved to overdrive fairly suddenly, and when pushed further it gave an unpleasant "buzz" that sat atop the note then decayed erratically, reminding me of the sound of badly biased germanium fuzzes! This "buzz" occured especially on lower strings/lower frequencies.
To reduce/remove the "buzz", i tried varying the bias of both the gain stage and the cathodyne. I tried both a 470K and a 1M cathodyne grid stopper. I tried extra bass attenuation before this stage. I have a 150K grid stopper on the gain stage. None of these things made much difference, I couldn't remove the "buzz".
So next I tried a DC coupled version. I used a 12AX7 for both stages, and a 470K cathodyne grid stopper. I tried 100K, 220K and 330K for the gain stage Ra. I tried both 56K and 100K for cathodyne load Ra and Rk. I altered the bias on the gain stage with a trimpot. And I measured voltages with my DVM, and scoped output waveforms.
The best I have achieved so far is the following -
Gain stage - 330K Ra, 1K Rk, HT = 297V, A = 78V, K = 0.65V, Voltage gain = 75
Cathodyne - 100K Ra and Rk, HT = 297V, A = 192V, K = 86V. Max output pre-clip - Anode output = 50Vpp, Cathode output = 78Vpp
My concern is that using this set-up, the clean signal sounds a bit 'muffled', not as bright or clean as using AC coupling. The overdrive is amazing though! But the ideal that i'm seeking is great cleans AND great overdrive.
I scoped the input signal to amp versus the output, with the MV all of the way up. The wavefroms tracked very well until compression began at nearing full output, so I am assuming that the output stage was causing this compression. So by the scope it looks very linear at lower signal levels. But it doesn't sound it!
So to the theory of the DC coupled cathodyne. I understand that using a 12AX7, or other high ra valve, will lead to quiescent grid current flowing from the gain stage anode to the cathodyne grid. This will cause assymetric compression, and also assymetry between the cathodyne outputs.
So am I correct in thinking that to get the "cleanest" DC coupled performance, this quiescent grid current wants to be minimised?
And what are the best methods to minimize it? Is it to lower the gain stage anode voltage down to, or even lower than the cathodyne cathode voltage?
In my current best set-up, I am using a 330K Ra on the gain stage, but even using such a large Ra, I still found that I had to bias the stage very hot to obtain the best output symmetry via a scope. So it is running only 0.65V Vk.
I am wondering if this very hot bias is in part to blame for the 'muffled' clean tone I am hearing. Or is it due to the high Ra of 330K?
If i increase gain stage Ra to say 390K, or even 470K, will I then be able to increase Vk and cool the bias a bit, and will this give me better cleans?
I greatly appreciate any help here!
Please be patient with me!
I've done a lot of reading, both here, in Merlin B's pre-amp book, and all over the internet.
I'm trying to set-up a DC coupled cathodyne in a sort of hot rodded 5E3 amp, using a post PI MV (dual gang), and using the gain stage/cathodyne as the pre-amp distortion generating stage.
Because I am trying to get a lot of gain on the gain stage, I have been using a 12AX7 as both gain stage and cathodyne.
First i tried an AC coupled version. Set up the gain stage roughly centre biased, and also the cathodyne roughly centre biased using cathode bias. For the cathodyne loads I tried both 56K Ra and Rk, and 100K Ra and Rk. I tried both 470K and 1M input grid stoppers on the cathodyne. I used a trimpot for cathodyne Rb, and played with varying values in each scenario.
The AC coupled sounded great when run clean, really bright, clean and responsive. When pushed, it moved to overdrive fairly suddenly, and when pushed further it gave an unpleasant "buzz" that sat atop the note then decayed erratically, reminding me of the sound of badly biased germanium fuzzes! This "buzz" occured especially on lower strings/lower frequencies.
To reduce/remove the "buzz", i tried varying the bias of both the gain stage and the cathodyne. I tried both a 470K and a 1M cathodyne grid stopper. I tried extra bass attenuation before this stage. I have a 150K grid stopper on the gain stage. None of these things made much difference, I couldn't remove the "buzz".
So next I tried a DC coupled version. I used a 12AX7 for both stages, and a 470K cathodyne grid stopper. I tried 100K, 220K and 330K for the gain stage Ra. I tried both 56K and 100K for cathodyne load Ra and Rk. I altered the bias on the gain stage with a trimpot. And I measured voltages with my DVM, and scoped output waveforms.
The best I have achieved so far is the following -
Gain stage - 330K Ra, 1K Rk, HT = 297V, A = 78V, K = 0.65V, Voltage gain = 75
Cathodyne - 100K Ra and Rk, HT = 297V, A = 192V, K = 86V. Max output pre-clip - Anode output = 50Vpp, Cathode output = 78Vpp
My concern is that using this set-up, the clean signal sounds a bit 'muffled', not as bright or clean as using AC coupling. The overdrive is amazing though! But the ideal that i'm seeking is great cleans AND great overdrive.
I scoped the input signal to amp versus the output, with the MV all of the way up. The wavefroms tracked very well until compression began at nearing full output, so I am assuming that the output stage was causing this compression. So by the scope it looks very linear at lower signal levels. But it doesn't sound it!
So to the theory of the DC coupled cathodyne. I understand that using a 12AX7, or other high ra valve, will lead to quiescent grid current flowing from the gain stage anode to the cathodyne grid. This will cause assymetric compression, and also assymetry between the cathodyne outputs.
So am I correct in thinking that to get the "cleanest" DC coupled performance, this quiescent grid current wants to be minimised?
And what are the best methods to minimize it? Is it to lower the gain stage anode voltage down to, or even lower than the cathodyne cathode voltage?
In my current best set-up, I am using a 330K Ra on the gain stage, but even using such a large Ra, I still found that I had to bias the stage very hot to obtain the best output symmetry via a scope. So it is running only 0.65V Vk.
I am wondering if this very hot bias is in part to blame for the 'muffled' clean tone I am hearing. Or is it due to the high Ra of 330K?
If i increase gain stage Ra to say 390K, or even 470K, will I then be able to increase Vk and cool the bias a bit, and will this give me better cleans?
I greatly appreciate any help here!
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