Help a new tube-amp builder.
In the Mullard 5-10 topology if I do not need the gain of the first stage can I apply the input signal directly to the longtail splitter? I am thinking 12AT7 splitter with CCS.
Or is the first stage needed to apply NFB?
(Be kind if this a stupid question)
In the Mullard 5-10 topology if I do not need the gain of the first stage can I apply the input signal directly to the longtail splitter? I am thinking 12AT7 splitter with CCS.
Or is the first stage needed to apply NFB?
(Be kind if this a stupid question)
I know this phase splitter will drive 6L6's with 2V p-p on the input. (simplified schematic grid stop and grid leak resistors left out just for concept).
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The anode (plate ) voltage of the EF86 determines the operation conditions of the of the phase splitter and correctly employed keeps the tube in the linear position of the tube characteristics.
Thank you for that explanation. So using CCS for the phase-splitter couldn't do that same function?
If you are building an amp like the 5-10 (EL84's) you could use 1/2 of a 12AT7 for gain and the other 1/2 for a cathodyne phase splitter. This is what's done in the Tubelab.com SPP amp.
The Valve Wizard
The Valve Wizard
ASL
Antique Sound Lab (no longer easily available in North America) used to sell an AV-20 and an AV-25 amp using one 12AT7 driving a push-pull pair of 6L6s. IMHO they biased the OP tubes too low for decent sound. Search for the schematic, it's out there.
S.
Antique Sound Lab (no longer easily available in North America) used to sell an AV-20 and an AV-25 amp using one 12AT7 driving a push-pull pair of 6L6s. IMHO they biased the OP tubes too low for decent sound. Search for the schematic, it's out there.
S.
You "can" do whatever you want.
Driving the long-tail is done in many amps including Fender 5F6a.
With pentode in front, sensitivity is <50mV. Without pentode front-end sensitivity is 2V or more. (Unsurprising, since the 100:1 difference is about the gain of the pentode.)
Driving the long-tail is done in many amps including Fender 5F6a.
With pentode in front, sensitivity is <50mV. Without pentode front-end sensitivity is 2V or more. (Unsurprising, since the 100:1 difference is about the gain of the pentode.)
In relation to the question "can I use a CCS instead" .
A CCS in this situation does not deliver equal output signal amplitudes , plate resistances would need to be different - left slightly lower value , I would look at the options suggested above.
A CCS in this situation does not deliver equal output signal amplitudes , plate resistances would need to be different - left slightly lower value , I would look at the options suggested above.
The input stage is required to subtract the NFB from the input signal. You can change it but you cannot do without it.
Feedback can always be applied to the normally AC grounded side of an LTP. You don’t necessarily need another stage just to be able to apply feedback. LTPs do subtraction, too. DC conditions won’t be the same as with the normal input stage, but you can design around that. Using a CCS and even a small negative rail makes it easy. If the feedback is the wrong phase, swap the OPT transformer phase to provide the necessary reversal. Open loop gain will be a lot lower, on the order of what a single ended pentode with 12A*7 driver would be.
You get a lot closer to balance with a CCS than you do with a tail resistor. Make the balance adjustable if it’s not intrinsically good enough.
Nobody removes the input gain stage in front of a phase splitter in a tube amp.
It may be changed to different gain, but never removed.
If you have problems with too high input voltage, reduce it like everyone else does it.
It may be changed to different gain, but never removed.
If you have problems with too high input voltage, reduce it like everyone else does it.
Maybe going down a rathole but I can't see how how the input stage in the original 5-10 schematic effects the splitter to deliver equal output amplitudes. All I can see its there for is to provide gain and a convenient place to apply NFB. Right?
Never read of impedance matching in a tube amp and under what circumstances each stage in an amp functions best? Read some of the basic tube educational literature, its free available on the net.
Have you've ever seen an amp that starts in topology with a phase splitter stage?
Have you've ever seen an amp that starts in topology with a phase splitter stage?
Sure you can. You just need to properly design the LTS for proper bias and operation.
Schmitz,
I've seen, and heard, an amp that started with an LTP splitter then had a gain/driver stage for the power tubes. A bit different I grant you, but it sounded pretty darn good.
I've seen, and heard, an amp that started with an LTP splitter then had a gain/driver stage for the power tubes. A bit different I grant you, but it sounded pretty darn good.
Impedance match to what exactly? I will feed this with a Ram RM-5 preamp that has a 6DJ8 output stage. Isn't that essentially a practical driver for the splitter? I suppose that for a commerical product where you don't know how the amp will be fed an input driver probably the best way to it. If I didn't need gain though, I'd go with a cathode follower then. Right?
I am not arguing against a driver but just asking exactly what the function is. The only responses so far other than hand waving is that is a convenient way to apply NFB.
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No, its not. What defines the output stage of your source. The type of tube you use or the type of circuit it uses? I would say your using a cathode follower stage at the output.
Does this match quite good with a phase splitter input?
You have to think in block schematics and to study what each block has input and output impedances, loadlines and headroom for signal amplifying. Then you will reach the goal.
Does this match quite good with a phase splitter input?
You have to think in block schematics and to study what each block has input and output impedances, loadlines and headroom for signal amplifying. Then you will reach the goal.