Tweet
I decided it would be best if I start a new thread rather than hijack someone else's. I'm adding in the previous posts from the other one so people can see what was being talked about. I appreciate any help that anyone can provide.
Greg
It started life as a Sovtek MIG 100U, and I kept the power transformer because it had the correct voltages and was running a quad of EL34's, so I figured it should keep up. I modified it into a clone of a VOX AC100, with a second channel with higher gain in addition to the stock Vox single channel. I'm using the same phase inverter as VOX used, a 12AU7 seesaw variant of the paraphase. To mix the channels, I added another triode (half a 12AU7) in parallel with the first triode in the phase inverter. They share a plate resistor and cathode resistor, and the second triode in the phase inverter has it's own plate and cathode resistors for better performance. The VOX circuit had both halves of the phase inverter sharing the cathode resistor.
I seem to have a problem in the phase inverter area as I only get around 23v AC signal out of the first half of the phase inverter, and this is with a 55v signal coming out of the high gain preamp. The bias is -35v in fixed bias and around 29v in cathode bias. I pulled the output tubes and get about the same signal swing without them in there, so I don't think the output stage is affecting things. I built the stock Vox circuit with the single triode and a Fender LTP in an outboard chassis and subbed it one at a time into my amp in place of my phase inverter circuit, and I get around the same performance...which is not enough. The supply voltage for the phase inverter is around 410v, so there should be plenty of signal swing. The signal looks good on the scope too. I've checked and verified all of my wiring several times, and checked parts values and everything appears correct. The amp is perfectly stable with low hum and good tone, no oscillations that I can hear or see on the scope....yet I still have low power.....does anyone have any ideas of what kind of things I should check or where I should go from here?
Thanks,
greg
POSTED by soundmasterg
--------------------------------------------------------------------------
What's your screen voltage and idle plate current?
__________________
Jon Wilder
Wilder Amplification
POSTED by Wilder Amplification
--------------------------------------------------------------------------
Hey Greg,
Check the power tube grid waveforms on a scope. Can the PI drive the grid voltage right up to 0V? If so, the power tubes will clip it with grid current there, so the PI is doing as much as it can be expected to.
If it doesn't make it to 0V then you need more PI output. With 35V bias, you need 70V p-p of drive for each grid, which an AC voltmeter would see as 25V RMS.
Now, what about the screen voltage and screen resistors? If the screens aren't getting enough juice, you can drive the control grids as hard as you like, but the output will still be lacking. KT88s need a bit more than EL34s.
Next, what about the power supply, does it sag excessively under load?
If you put EL34s back in, does the power output go up to what it should be?
Etc.
POSTED by Steve Conner
--------------------------------------------------------------------------
I'm not sure how to tell if the PI is driving the grid voltage up to 0v? I think I was getting about 20v AC out of the plate of the first half of the PI when I had a clean signal coming into it, and the second half of the PI was a couple volts less than that. Those numbers go up as I run the preamps up more of course, but then its distorting the signal past the RMS power level where I should be checking for output power of course.
The screen voltage is about 460v or so I think and the plate is at 470v. I have 1k 5w screen resistors, and I'm using KT77's, not KT88's. I haven't tried EL 34's in it yet, but have a set of used old stock Mullards that I can try. I doubt if those will make a huge difference however as a JJ KT77 is pretty similar output power to an EL34.
The power supply doesn't seem to sag a whole lot under load. I forget what it was and will have to measure it again tomorrow, but it wasn't going down lower than 400v on the screen when loaded if I remember right. I post what it is tomorrow. The power transformer was running a quad of EL34's at 485v, and three 12AX7's in the Sovtek. In my amp, I have an EF86 and 12AX7 in one channel, and a 12AU7 and 12AX7 in the second channel, and a 12AU7 seesaw paraphase inverter, and then the quad of KT77's. In place of lots of 12AX7's and 12AU7's, I've used a couple 12DW7's so my overall tube count is lower. With the extra tubes over the Sovtek, the filaments are still at 6.3v, so no issue there.....and the B+ drops to 470v in my circuit instead of the 485 in the Sovtek. I'll gret some numbers for you tomorrow and thanks for the help!
Greg
POSTED by soundmasterg
--------------------------------------------------------------------------
...assuming the power supply is providing sufficient Vp and Vs, here's the basic equation for tube/transformer PP output power:
Po = rp' * (Vg*gm)^2
...where:
Po = output power (at primary-side of OT)
rp' = effective plate load resistance (tube and reflected load)
Vg = control grid rms signal voltage
gm = tube average transconductance
...the only "tricky" part is rp', the effective plate load resistance combination of tube rp and reflected speaker load Zo back through OT.
...notice that the equation is simply: Power = I-squared x R, expressed in vacuum tube variables, ie: Ip = Vg*gm.
__________________
...and the Devil said: "...yes, but it's a DRY heat!"
POSTED by Old Tele Man
Greg
It started life as a Sovtek MIG 100U, and I kept the power transformer because it had the correct voltages and was running a quad of EL34's, so I figured it should keep up. I modified it into a clone of a VOX AC100, with a second channel with higher gain in addition to the stock Vox single channel. I'm using the same phase inverter as VOX used, a 12AU7 seesaw variant of the paraphase. To mix the channels, I added another triode (half a 12AU7) in parallel with the first triode in the phase inverter. They share a plate resistor and cathode resistor, and the second triode in the phase inverter has it's own plate and cathode resistors for better performance. The VOX circuit had both halves of the phase inverter sharing the cathode resistor.
I seem to have a problem in the phase inverter area as I only get around 23v AC signal out of the first half of the phase inverter, and this is with a 55v signal coming out of the high gain preamp. The bias is -35v in fixed bias and around 29v in cathode bias. I pulled the output tubes and get about the same signal swing without them in there, so I don't think the output stage is affecting things. I built the stock Vox circuit with the single triode and a Fender LTP in an outboard chassis and subbed it one at a time into my amp in place of my phase inverter circuit, and I get around the same performance...which is not enough. The supply voltage for the phase inverter is around 410v, so there should be plenty of signal swing. The signal looks good on the scope too. I've checked and verified all of my wiring several times, and checked parts values and everything appears correct. The amp is perfectly stable with low hum and good tone, no oscillations that I can hear or see on the scope....yet I still have low power.....does anyone have any ideas of what kind of things I should check or where I should go from here?
Thanks,
greg
POSTED by soundmasterg
--------------------------------------------------------------------------
What's your screen voltage and idle plate current?
__________________
Jon Wilder
Wilder Amplification
POSTED by Wilder Amplification
--------------------------------------------------------------------------
Hey Greg,
Check the power tube grid waveforms on a scope. Can the PI drive the grid voltage right up to 0V? If so, the power tubes will clip it with grid current there, so the PI is doing as much as it can be expected to.
If it doesn't make it to 0V then you need more PI output. With 35V bias, you need 70V p-p of drive for each grid, which an AC voltmeter would see as 25V RMS.
Now, what about the screen voltage and screen resistors? If the screens aren't getting enough juice, you can drive the control grids as hard as you like, but the output will still be lacking. KT88s need a bit more than EL34s.
Next, what about the power supply, does it sag excessively under load?
If you put EL34s back in, does the power output go up to what it should be?
Etc.
POSTED by Steve Conner
--------------------------------------------------------------------------
I'm not sure how to tell if the PI is driving the grid voltage up to 0v? I think I was getting about 20v AC out of the plate of the first half of the PI when I had a clean signal coming into it, and the second half of the PI was a couple volts less than that. Those numbers go up as I run the preamps up more of course, but then its distorting the signal past the RMS power level where I should be checking for output power of course.
The screen voltage is about 460v or so I think and the plate is at 470v. I have 1k 5w screen resistors, and I'm using KT77's, not KT88's. I haven't tried EL 34's in it yet, but have a set of used old stock Mullards that I can try. I doubt if those will make a huge difference however as a JJ KT77 is pretty similar output power to an EL34.
The power supply doesn't seem to sag a whole lot under load. I forget what it was and will have to measure it again tomorrow, but it wasn't going down lower than 400v on the screen when loaded if I remember right. I post what it is tomorrow. The power transformer was running a quad of EL34's at 485v, and three 12AX7's in the Sovtek. In my amp, I have an EF86 and 12AX7 in one channel, and a 12AU7 and 12AX7 in the second channel, and a 12AU7 seesaw paraphase inverter, and then the quad of KT77's. In place of lots of 12AX7's and 12AU7's, I've used a couple 12DW7's so my overall tube count is lower. With the extra tubes over the Sovtek, the filaments are still at 6.3v, so no issue there.....and the B+ drops to 470v in my circuit instead of the 485 in the Sovtek. I'll gret some numbers for you tomorrow and thanks for the help!
Greg
POSTED by soundmasterg
--------------------------------------------------------------------------
...assuming the power supply is providing sufficient Vp and Vs, here's the basic equation for tube/transformer PP output power:
Po = rp' * (Vg*gm)^2
...where:
Po = output power (at primary-side of OT)
rp' = effective plate load resistance (tube and reflected load)
Vg = control grid rms signal voltage
gm = tube average transconductance
...the only "tricky" part is rp', the effective plate load resistance combination of tube rp and reflected speaker load Zo back through OT.
...notice that the equation is simply: Power = I-squared x R, expressed in vacuum tube variables, ie: Ip = Vg*gm.
__________________
...and the Devil said: "...yes, but it's a DRY heat!"
POSTED by Old Tele Man
Comment