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#1
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6BX7 amp
Opinions?
http://home.comcast.net/~suptjud/6BX7AMP.JPG It sounds fine with both 6BX7s working or with either removed. I have no way to measure distortion except the scope and my ears. -- Kind regards, Terry Judkins http://home.comcast.net/~suptjud What if one day we all find out that the Hokey Pokey really IS what it's all about?! |
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#2
Posted to rec.audio.tubes
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6BX7 amp
TerryJ wrote: Opinions? http://home.comcast.net/~suptjud/6BX7AMP.JPG It sounds fine with both 6BX7s working or with either removed. I have no way to measure distortion except the scope and my ears. I'd be interested in how it sounds substituting a sn7 for the sl7 and removing the feedback loop, or just directly feeding the sn7 splitter, bypassing the sl7 stage. Bob H. |
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#3
Posted to rec.audio.tubes
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6BX7 amp
I tried a 6SN7 for the 6SL7. Not much difference when feeding with CD player
other than having to crank the volume control up. I will try the other options today. "Bob H." wrote in message ps.com... TerryJ wrote: Opinions? http://home.comcast.net/~suptjud/6BX7AMP.JPG It sounds fine with both 6BX7s working or with either removed. I have no way to measure distortion except the scope and my ears. I'd be interested in how it sounds substituting a sn7 for the sl7 and removing the feedback loop, or just directly feeding the sn7 splitter, bypassing the sl7 stage. Bob H. |
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#4
Posted to rec.audio.tubes
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6BX7 amp
TerryJ wrote: Opinions? http://home.comcast.net/~suptjud/6BX7AMP.JPG It sounds fine with both 6BX7s working or with either removed. I have no way to measure distortion except the scope and my ears. The two 82k equal value loads to the 6SN7 should not be equal to get the same amplitude of oppositely phased drive signals to the 6BX7. it looks like the 2 pairs of cathodes of the 2 x 6BX7 should also have a 1,000 uF cap across each 500 ohms to lower the Rout of the amp, but it isn't so, since each half of each twin triode is hooked up to work the OPT balanced so the circuit will work with either 1 of 2 6BX7 used, although there would be a power & distortion & Rout difference. Its usually hard to make a triode amp that sounds poor, but the circuit could be optimised with better ac drive balance. Try removing the 470k from one 6SN7 anode to 6SL7 anodes and strapping whatever needed R across the 82k nearest the 6SL7 so that + / - drive voltages are equal at 1/2 full output voltage into load. Patrick Turner. -- Kind regards, Terry Judkins http://home.comcast.net/~suptjud What if one day we all find out that the Hokey Pokey really IS what it's all about?! |
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#5
Posted to rec.audio.tubes
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6BX7 amp
TerryJ wrote: I tried a 6SN7 for the 6SL7. Not much difference when feeding with CD player other than having to crank the volume control up. I will try the other options today. Just swapping the 6SL7 for 6SN7 means that the anode dc voltage may be wrong ( too low ) 6SN7 input tube but it will still work because V1 does not have to make a huge output signal. Maybe using a 50k input pot and 0.47uF input coupling cap will reduce the input noise and improve the HF a bit. Patrick Turner. "Bob H." wrote in message ps.com... TerryJ wrote: Opinions? http://home.comcast.net/~suptjud/6BX7AMP.JPG It sounds fine with both 6BX7s working or with either removed. I have no way to measure distortion except the scope and my ears. I'd be interested in how it sounds substituting a sn7 for the sl7 and removing the feedback loop, or just directly feeding the sn7 splitter, bypassing the sl7 stage. Bob H. |
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#6
Posted to rec.audio.tubes
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6BX7 amp
TerryJ wrote: I tried a 6SN7 for the 6SL7. Not much difference when feeding with CD player other than having to crank the volume control up. I will try the other options today. Removing the feedback loop would give you gain to compensate for the loss of gain with the sl7. Also, the plate load would be a bit different. I like around 63k for sn7's, with about -5 to -7 volts on the grid, as I recall ( I don't have my notes on me right now), but the cathode resistor would have to be adjusted for the grid voltage, while also keeping the plate current within spec. Bob H. |
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#7
Posted to rec.audio.tubes
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6BX7 amp
"Patrick Turner" wrote in message ... TerryJ wrote: Opinions? http://home.comcast.net/~suptjud/6BX7AMP.JPG It sounds fine with both 6BX7s working or with either removed. I have no way to measure distortion except the scope and my ears. The two 82k equal value loads to the 6SN7 should not be equal to get the same amplitude of oppositely phased drive signals to the 6BX7. it looks like the 2 pairs of cathodes of the 2 x 6BX7 should also have a 1,000 uF cap across each 500 ohms to lower the Rout of the amp, but it isn't so, since each half of each twin triode is hooked up to work the OPT balanced so the circuit will work with either 1 of 2 6BX7 used, although there would be a power & distortion & Rout difference. Its usually hard to make a triode amp that sounds poor, but the circuit could be optimized with better ac drive balance. Try removing the 470k from one 6SN7 anode to 6SL7 anodes and strapping whatever needed R across the 82k nearest the 6SL7 so that + / - drive voltages are equal at 1/2 full output voltage into load. Patrick Turner. OK, I tried a few things. 1- Balanced the splitter by paralleling a 1 meg resistor with the left 82K and removing the 470K. I could not hear a difference. Proper test equipment would probably find it. I thought about changing the 470K to about 680K and recheck the balance but did not. The 470K reduced the left triode output to about 5-6 % less than the right. With the 470K removed gain of the left triode was about 5% more than the right. 2- Connected the input directly to the 6SN7 grid. There was not enough gain to drive the amp to more than half power but fidelity was very good.... very listenable. Note there is no feedback with this arrangement. 3- Paralleled a 2200 ohm resistor with the 2700 ohm connected to the 6SN7 cathode and plugged a 6SL7 in the socket. Bias was -1.62 volts. Fidelity was good up to about half power then distortion crept in until at max volume control (2V P-P drive) it sounded like a PA system. 4- Put 6SN7 in both sockets, returned second 6SN7 to values on schematic, increased 1500 ohm to 2200 and used only half of first 6SN7. First 6SN7 bias is -3.8 volts. Without feedback gain was way too much but with input adjusted fidelity was good up to clipping. With the 470-10 ohm feedback network gain was still more than needed but fidelity good. Looks like Patrick is correct. It is hard to make a bad triode amp.  BTW the amp is stable with only resistors in the feedback path. There is no sign of oscillation or ringing with a square wave input. A square wave looks good down to 100hz and is still recognizable as a square wave up to 15 kHz. A better output transformer might help. I am using a transformer from a 50 year old Hammond organ amp that had push pull 6L6 tubes. |
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#8
Posted to rec.audio.tubes
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6BX7 amp
Looks like you might manage with a two stage amp with no feedback if
you had a higher mu valve in front. I'm wondering about something like a E80CC or even better, ECC40. I've used 6BX7s in output - very good sound. Problem I had is I couldn't parallel the halves because they all varied so much on my samples, which is common. I ran them in fixed bias at one point with seperate bias and coupling cap per half but in the end I couldn't be bothered and substituted single 6AH4s which sounded equally good if not better. I now drive these with a SRPP stage made up of 2C22s. That's a TERRIFIC valve - better than a 6SN7. Combination sounds really excellent. Needs a preamp, though. Andy |
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#9
Posted to rec.audio.tubes
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6BX7 amp
TerryJ wrote: "Patrick Turner" wrote in message ... TerryJ wrote: Opinions? http://home.comcast.net/~suptjud/6BX7AMP.JPG It sounds fine with both 6BX7s working or with either removed. I have no way to measure distortion except the scope and my ears. The two 82k equal value loads to the 6SN7 should not be equal to get the same amplitude of oppositely phased drive signals to the 6BX7. it looks like the 2 pairs of cathodes of the 2 x 6BX7 should also have a 1,000 uF cap across each 500 ohms to lower the Rout of the amp, but it isn't so, since each half of each twin triode is hooked up to work the OPT balanced so the circuit will work with either 1 of 2 6BX7 used, although there would be a power & distortion & Rout difference. Its usually hard to make a triode amp that sounds poor, but the circuit could be optimized with better ac drive balance. Try removing the 470k from one 6SN7 anode to 6SL7 anodes and strapping whatever needed R across the 82k nearest the 6SL7 so that + / - drive voltages are equal at 1/2 full output voltage into load. Patrick Turner. OK, I tried a few things. 1- Balanced the splitter by paralleling a 1 meg resistor with the left 82K and removing the 470K. I could not hear a difference. Proper test equipment would probably find it. I thought about changing the 470K to about 680K and recheck the balance but did not. The 470K reduced the left triode output to about 5-6 % less than the right. With the 470K removed gain of the left triode was about 5% more than the right. 2- Connected the input directly to the 6SN7 grid. There was not enough gain to drive the amp to more than half power but fidelity was very good.... very listenable. Note there is no feedback with this arrangement. 3- Paralleled a 2200 ohm resistor with the 2700 ohm connected to the 6SN7 cathode and plugged a 6SL7 in the socket. Bias was -1.62 volts. Fidelity was good up to about half power then distortion crept in until at max volume control (2V P-P drive) it sounded like a PA system. 4- Put 6SN7 in both sockets, returned second 6SN7 to values on schematic, increased 1500 ohm to 2200 and used only half of first 6SN7. First 6SN7 bias is -3.8 volts. Without feedback gain was way too much but with input adjusted fidelity was good up to clipping. With the 470-10 ohm feedback network gain was still more than needed but fidelity good. Looks like Patrick is correct. It is hard to make a bad triode amp. BTWthe amp is stable with only resistors in the feedback path. There is no sign of oscillation or ringing with a square wave input. A square wave looks good down to 100hz and is still recognizable as a square wave up to 15 kHz. A better output transformer might help. I am using a transformer from a 50 year old Hammond organ amp that had push pull 6L6 tubes. Applying overall loop FB around tube amps with resistance loads is usually OK and without LF or HF oscillations if the FB is below 12dB which is usually plenty with a triode output stage. But if you have a capacitor load of say 0.22 uF, and no other load, any tube amps will oscillate badly at say 200kHz, or whenever the phase shift reaches 180 degrees caused by leakage L, the load capacitance, and shunt C between tube stages and where open loop gain exceeds 1x . But if RL is always a resistance, then the amp will take the 12dB of NFB, usually. If an ESL type of speaker is used, perhaps there could be trouble with a peaked response or oscillations because of the C part of the ESL load. That 470k between anodes of the 6SL7 and 6SN7 is a form of slight local NFB and it also loads the LH SN7 triode more than the RH triode, and its an attempt to balance the outputs. Total loads for each half of the LTP are the dc carrying loads, 82k, and the following grid bias R for the 6BX7. The LH SN7 load should be 82k plus a parallel resistance equal to the RH triode gain x the total common cathode resistance. Its simple this to work out and remember, and the higher the carhode R value, the nearer the loads need to be for balance. At normal low volume levels an imbalance of 50% isn't often audible. But if you want to set your amp up technically right, then ac balancing should be done right, and once done, it doesn't matter if the halves of the 6SN7 are unmatched; balance will stay balanced as long as the tube gain remains within 10% of the new tube value. The main balance setting issue with an LTP is that the signal current change in the LH load = signal current change in the RH load + current change in the common cathode R. Hence to get the balance to be exact the LH load must always be a bit lower value than the RH load, so the imbalance of tube currents generates the same output voltage amplitudes. Plenty of schematics with LTP drivers at http://www.turneraudio.com.au Patrick Turner. |
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#10
Posted to rec.audio.tubes
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6BX7 amp
"Patrick Turner" wrote in message ... TerryJ wrote: "Patrick Turner" wrote in message ... TerryJ wrote: Opinions? http://home.comcast.net/~suptjud/6BX7AMP.JPG It sounds fine with both 6BX7s working or with either removed. I have no way to measure distortion except the scope and my ears. The two 82k equal value loads to the 6SN7 should not be equal to get the same amplitude of oppositely phased drive signals to the 6BX7. it looks like the 2 pairs of cathodes of the 2 x 6BX7 should also have a 1,000 uF cap across each 500 ohms to lower the Rout of the amp, but it isn't so, since each half of each twin triode is hooked up to work the OPT balanced so the circuit will work with either 1 of 2 6BX7 used, although there would be a power & distortion & Rout difference. Its usually hard to make a triode amp that sounds poor, but the circuit could be optimized with better ac drive balance. Try removing the 470k from one 6SN7 anode to 6SL7 anodes and strapping whatever needed R across the 82k nearest the 6SL7 so that + / - drive voltages are equal at 1/2 full output voltage into load. Patrick Turner. OK, I tried a few things. 1- Balanced the splitter by paralleling a 1 meg resistor with the left 82K and removing the 470K. I could not hear a difference. Proper test equipment would probably find it. I thought about changing the 470K to about 680K and recheck the balance but did not. The 470K reduced the left triode output to about 5-6 % less than the right. With the 470K removed gain of the left triode was about 5% more than the right. 2- Connected the input directly to the 6SN7 grid. There was not enough gain to drive the amp to more than half power but fidelity was very good.... very listenable. Note there is no feedback with this arrangement. 3- Paralleled a 2200 ohm resistor with the 2700 ohm connected to the 6SN7 cathode and plugged a 6SL7 in the socket. Bias was -1.62 volts. Fidelity was good up to about half power then distortion crept in until at max volume control (2V P-P drive) it sounded like a PA system. 4- Put 6SN7 in both sockets, returned second 6SN7 to values on schematic, increased 1500 ohm to 2200 and used only half of first 6SN7. First 6SN7 bias is -3.8 volts. Without feedback gain was way too much but with input adjusted fidelity was good up to clipping. With the 470-10 ohm feedback network gain was still more than needed but fidelity good. Looks like Patrick is correct. It is hard to make a bad triode amp. BTW the amp is stable with only resistors in the feedback path. There is no sign of oscillation or ringing with a square wave input. A square wave looks good down to 100hz and is still recognizable as a square wave up to 15 kHz. A better output transformer might help. I am using a transformer from a 50 year old Hammond organ amp that had push pull 6L6 tubes. Applying overall loop FB around tube amps with resistance loads is usually OK and without LF or HF oscillations if the FB is below 12dB which is usually plenty with a triode output stage. But if you have a capacitor load of say 0.22 uF, and no other load, any tube amps will oscillate badly at say 200kHz, or whenever the phase shift reaches 180 degrees caused by leakage L, the load capacitance, and shunt C between tube stages and where open loop gain exceeds 1x . But if RL is always a resistance, then the amp will take the 12dB of NFB, usually. If an ESL type of speaker is used, perhaps there could be trouble with a peaked response or oscillations because of the C part of the ESL load. That 470k between anodes of the 6SL7 and 6SN7 is a form of slight local NFB and it also loads the LH SN7 triode more than the RH triode, and its an attempt to balance the outputs. Total loads for each half of the LTP are the dc carrying loads, 82k, and the following grid bias R for the 6BX7. The LH SN7 load should be 82k plus a parallel resistance equal to the RH triode gain x the total common cathode resistance. Its simple this to work out and remember, and the higher the carhode R value, the nearer the loads need to be for balance. At normal low volume levels an imbalance of 50% isn't often audible. But if you want to set your amp up technically right, then ac balancing should be done right, and once done, it doesn't matter if the halves of the 6SN7 are unmatched; balance will stay balanced as long as the tube gain remains within 10% of the new tube value. The main balance setting issue with an LTP is that the signal current change in the LH load = signal current change in the RH load + current change in the common cathode R. Hence to get the balance to be exact the LH load must always be a bit lower value than the RH load, so the imbalance of tube currents generates the same output voltage amplitudes. Plenty of schematics with LTP drivers at http://www.turneraudio.com.au Patrick Turner. Thank you for the very thoughtful replies. |
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#11
Posted to rec.audio.tubes
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6BX7 amp
"TerryJ" suptjudatcomcastdotnet said:
Opinions? http://home.comcast.net/~suptjud/6BX7AMP.JPG It sounds fine with both 6BX7s working or with either removed. I have no way to measure distortion except the scope and my ears. My version: http://img78.imageshack.us/img78/2218/6bx77hb.jpg If you can read Dutch: http://www.circuitsonline.net/forum/view/24038/1/6bx7 -- "Due knot trussed yore spell chequer two fined awl miss steaks." |
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