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I've got a question guys. I've recently built an AX84 October and had great success with it. It works and pumps out good volume at about 9-10 watts each tube. I'm sure most of you are familiar with the AX84, if not you can check it out at www.ax84.com. Mine is the october and I have very little variance with what he used.
My problem/question is this. I had trouble getting the grid's mA up to 29 so I had to play around with some resistor values that set up the B+ values for the circuit. I know that has a technical name but I forgot what it is. Anyway, all my voltages matched perfectly with the schematic but all I could get was 14 mA and the amp was WAY to quiet even though it sounded ok. It wouldn't ever break up so it always sounded clean and no louder than say a tv a moderate level. So, after I changed some values of those resistors I finally got the bias set perfect but the plate voltage dropped too much for me. I'm using JJ/Tesla 6V6 tubes and they aren't that expensive so I would like to get that optimal 70 percent dissipation because I'm not worried about having to buy new output tubes. From what I hear, the JJ/Teslas are built like a tank anyway. They've survived a first time amp builder's build so that's proof enough for me. I've posted my schematic and I would like to know what is affecting the plate voltage so much and is there any way I can get it up without sacrificing the bias mA that I have now. I posted this on the AX84 forum and someone suspects the screen resistors, but I'd like a second opinion because I have to special order high wattage resistors because I don't just have those lying around like I do the smaller wattage.
Here is my conversation below on the other forum with the replies.
'Plate voltage on output valves is low.'
Author: Phylomatic (registered user: 7 posts )
My problem started with having too low of an amperage reading on the grid of the output tubes. That seemed to be a common problem and some tweaking of a few resistors resolved this situation for me, like it has so many others.
I won't go into specifics with the voltages because my eyes start to cross when I read about it so I'll post a link to the schematic that I scanned with my current voltages and the resistor values that I changed.
My problem now is that with the resistors that I've changed I suspect I've negatively effected my plates voltage on the output tubes. They are now off by about a little more than 10 percent, which I know is satisfactory, but what bugs me is that all my voltages were just about perfect, except for the ones going to the biasing pots, and of course the biasing amps were off. I was getting only 13 mA instead of the 29 that I got from my calculation. Anyway, I know it doesn't make that much of a difference. I would like to know why the plate voltages are so out of whack now after the changes I made. Is there a better way to get the biasing set than the changes I had made, and because I'm a bit of a perfectionist, I would like to have the plate voltages closer if possible. Any help would be appreciated.
Here is the link to the schematic
[link] //I'll post the attachment
I put a big red square around the resistor values that have been changed. Also, I wrote the new voltages in permanent marker so they'll show up better. Also, before I forget, I ruined the UF4007 diode so I had to use a IN4007 I bought from Radio Shack out of convenience. I suspect I messed up the rectifier, or even more so, I suspect that the IN4007 is causing this mess. If you guys agree that its the diode, could you give insight on why that is?
I'm using JJ/Tesla 8 pin tubes, and the 9 pin preamp tubes are the new Mullards. All of them work wonderfully, and I've tried (not on purpose)to destroy the JJ/Tesla output tubes, but these things are still working. This is my first amp build, I know I should have started with the easier one, but I did my homework and it actually came together relatively trouble free and I didn't shock myself (knock on wood). I did zap about a thousand multi-meter fuses though testing voltages without moving it off the mA setting. Thanks again in advance.
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Author: Harrison Ford Prefect (registered user: 12945 posts )
No, subbing a 1N for a UF wouldn't do that.
But running the current up will drop the voltage if the PT is getting loaded. Did you use the same PT as originally spec'd?
But I think the real problem is your screen current. You're pulling 10mA per tube for that, which is 3.1W. Dunno about the JJs, but the old standard for 6V6s was 2.2W max per screen, and typical screen current was 2-4mA at Ep in the 300V range. I'd try bigger screen resistors. You may need to bump the screen voltage back up a bit if it drops too much from that.
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Author: Phylomatic (registered user: 7 posts )
Is there any reason to use UF over 1N?
The power transformer is exactly the same as the one spec'd.
I'll give it a try. I suspected the screen current, but put it as the very last thing to check. I'll let you know the results. By the way, the JJ/Tesla 6V6 (this is the new ones, not NOS) is spec'd at 13mA at 250V typical.
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Author: MasonAtom (registered user: 259 posts )
UFs tend to cut down on high end noise/switching hash and fizziness compared to the 1n4007s. At least, that is my experience in the builds that I have done. Really simple and cheap mod that makes a noticeable difference.
Mason
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Author: Phylomatic (registered user: 7 posts )
I've got a question about your screen resistor calculation.
Here is what I'm assuming, and I could be completely wrong or my brain isn't working right.
Voltage = amps times resistance
Power = Voltage * Amps
If that's the case then I show a voltage drop of 10 volts across my screen resistor which give me 10/1000 or 10 mA like you said. If Power is Voltage * Amps than I calculate just .1 Watts or 10/1000...am I doing this calculation wrong?
So, you can also see I have a bit of confusion with his calculation if someone could help me out with that also. Thanks guys. I love this forum because you always seem able to help me usually without posting. I fixed a Peavey amp of mine that I would have never known what to do if it wasn't for this place so I appreciate it.
My problem/question is this. I had trouble getting the grid's mA up to 29 so I had to play around with some resistor values that set up the B+ values for the circuit. I know that has a technical name but I forgot what it is. Anyway, all my voltages matched perfectly with the schematic but all I could get was 14 mA and the amp was WAY to quiet even though it sounded ok. It wouldn't ever break up so it always sounded clean and no louder than say a tv a moderate level. So, after I changed some values of those resistors I finally got the bias set perfect but the plate voltage dropped too much for me. I'm using JJ/Tesla 6V6 tubes and they aren't that expensive so I would like to get that optimal 70 percent dissipation because I'm not worried about having to buy new output tubes. From what I hear, the JJ/Teslas are built like a tank anyway. They've survived a first time amp builder's build so that's proof enough for me. I've posted my schematic and I would like to know what is affecting the plate voltage so much and is there any way I can get it up without sacrificing the bias mA that I have now. I posted this on the AX84 forum and someone suspects the screen resistors, but I'd like a second opinion because I have to special order high wattage resistors because I don't just have those lying around like I do the smaller wattage.
Here is my conversation below on the other forum with the replies.
'Plate voltage on output valves is low.'
Author: Phylomatic (registered user: 7 posts )
My problem started with having too low of an amperage reading on the grid of the output tubes. That seemed to be a common problem and some tweaking of a few resistors resolved this situation for me, like it has so many others.
I won't go into specifics with the voltages because my eyes start to cross when I read about it so I'll post a link to the schematic that I scanned with my current voltages and the resistor values that I changed.
My problem now is that with the resistors that I've changed I suspect I've negatively effected my plates voltage on the output tubes. They are now off by about a little more than 10 percent, which I know is satisfactory, but what bugs me is that all my voltages were just about perfect, except for the ones going to the biasing pots, and of course the biasing amps were off. I was getting only 13 mA instead of the 29 that I got from my calculation. Anyway, I know it doesn't make that much of a difference. I would like to know why the plate voltages are so out of whack now after the changes I made. Is there a better way to get the biasing set than the changes I had made, and because I'm a bit of a perfectionist, I would like to have the plate voltages closer if possible. Any help would be appreciated.
Here is the link to the schematic
[link] //I'll post the attachment
I put a big red square around the resistor values that have been changed. Also, I wrote the new voltages in permanent marker so they'll show up better. Also, before I forget, I ruined the UF4007 diode so I had to use a IN4007 I bought from Radio Shack out of convenience. I suspect I messed up the rectifier, or even more so, I suspect that the IN4007 is causing this mess. If you guys agree that its the diode, could you give insight on why that is?
I'm using JJ/Tesla 8 pin tubes, and the 9 pin preamp tubes are the new Mullards. All of them work wonderfully, and I've tried (not on purpose)to destroy the JJ/Tesla output tubes, but these things are still working. This is my first amp build, I know I should have started with the easier one, but I did my homework and it actually came together relatively trouble free and I didn't shock myself (knock on wood). I did zap about a thousand multi-meter fuses though testing voltages without moving it off the mA setting. Thanks again in advance.
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Reply to this Message
Author: Harrison Ford Prefect (registered user: 12945 posts )
No, subbing a 1N for a UF wouldn't do that.
But running the current up will drop the voltage if the PT is getting loaded. Did you use the same PT as originally spec'd?
But I think the real problem is your screen current. You're pulling 10mA per tube for that, which is 3.1W. Dunno about the JJs, but the old standard for 6V6s was 2.2W max per screen, and typical screen current was 2-4mA at Ep in the 300V range. I'd try bigger screen resistors. You may need to bump the screen voltage back up a bit if it drops too much from that.
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Author: Phylomatic (registered user: 7 posts )
Is there any reason to use UF over 1N?
The power transformer is exactly the same as the one spec'd.
I'll give it a try. I suspected the screen current, but put it as the very last thing to check. I'll let you know the results. By the way, the JJ/Tesla 6V6 (this is the new ones, not NOS) is spec'd at 13mA at 250V typical.
views:
Reply to this Message
Author: MasonAtom (registered user: 259 posts )
UFs tend to cut down on high end noise/switching hash and fizziness compared to the 1n4007s. At least, that is my experience in the builds that I have done. Really simple and cheap mod that makes a noticeable difference.
Mason
Reply to this Message
Author: Phylomatic (registered user: 7 posts )
I've got a question about your screen resistor calculation.
Here is what I'm assuming, and I could be completely wrong or my brain isn't working right.
Voltage = amps times resistance
Power = Voltage * Amps
If that's the case then I show a voltage drop of 10 volts across my screen resistor which give me 10/1000 or 10 mA like you said. If Power is Voltage * Amps than I calculate just .1 Watts or 10/1000...am I doing this calculation wrong?
So, you can also see I have a bit of confusion with his calculation if someone could help me out with that also. Thanks guys. I love this forum because you always seem able to help me usually without posting. I fixed a Peavey amp of mine that I would have never known what to do if it wasn't for this place so I appreciate it.
Attached Files
. Could this be RF? Also, you said earlier the amp is quiet...what are you using as a preamp for this poweramp?
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