• WARNING: Tube/Valve amplifiers use potentially LETHAL HIGH VOLTAGES.
    Building, troubleshooting and testing of these amplifiers should only be
    performed by someone who is thoroughly familiar with
    the safety precautions around high voltages.

Using SE OT for PP.

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Old German OT taken from tube radio. Primary is 0- 0,8K -1.6K -3,2K. Secondary is 3 Ohms. I'm using the 3.2K primary, secondary load is an 8 Ohms CTS alnico speaker. Build a 5W SE guitar amp with it but sounds bad. Since I don't like it as SE OT I thought of wiring it as PP using the 1.6K as center tap. Maybe in a PP will sound OK. I don't know how much watts can handle but its size tells me it can do 10 watts. Is it worth trying this?
 
Only one way to find out for sure.

Keep in mind that 3K2 (P-2-P) means that each phase will see 1K6 per phase if running Class A, and 800R if in Class AB. That seems to be a pretty steep loadline either way.

Also, since this was intended as an SE OPT, they probably didn't take any special care with ensuring that the capacitance per phase was as balanced as a proper PP OPT design would have.

You might be better off putting the SE OPT on E-bay and using the proceeds to get a proper OPT.
 
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Only one way to find out for sure.


You might be better off putting the SE OPT on E-bay and using the proceeds to get a proper OPT.

Yeah, if I don't try it I will never know. Thing is, I have to do a lot of chassis work to find out. I'm not selling this, don't want anyone wasting their time and money. I have a proper OPT but I'm just using junk box parts to build this amp as a present to a friend. Saving better parts for myself. :D

I think Kenpenter is right, the reflected impedance will be 8K (4K per phase) with an 8 Ohms speaker. Good enough for 6V6's. Another choice is to use it as a choke and built a guitar preamp for his SS guitar amp. Just wanted to know if anyone here had any experience wiring a SE OT for PP duties. Thanks for the replies.
 
If the 800 ohm tap (0.8k) is halfway or close enough, and you connected a 3 ohm speaker to the 3 ohm output, you would have 1.6K anode load per side in class A, 800 ohms in class AB per Miles post.

But you are connecting an 8 ohm speaker to the 3 ohm tap so multiply that by 8/3, so about 4K3 ohms anode load per side in class A and 2K1 in class AB.

Sound like class A is the way to go. Should be interesting to hear about the result.

I suspect the leakage inductance would be too high to run it in AB anyway without a lot of nasty switching glitches.
 
Yeah, if I don't try it I will never know. Thing is, I have to do a lot of chassis work to find out.


No, use "mini grabbers" and test leads. You don't cut metal until you are sure you want the transformer.

Also check that what you think is the center tap is in fact in the center. Simply measure the DC resistance of each half. This is a quick check The next level of test is to put a small AC voltage on the secondary and measure the voltages on the primary (watch out they will be very high) and see if the voltages match. It is hard to measure impedance but voltage ratio is easy to do. If the voltages on the two halves of the primary match when you put (say) 6 VAC on the speaker terminals then there is a good chance the OT will work for you. Double check the impedance ratio by quaring the voltage ratios How it will sound is a different mater. You will have to try it
 
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No, use "mini grabbers" and test leads. You don't cut metal until you are sure you want the transformer.

Also check that what you think is the center tap is in fact in the center. Simply measure the DC resistance of each half. This is a quick check The next level of test is to put a small AC voltage on the secondary and measure the voltages on the primary (watch out they will be very high) and see if the voltages match. It is hard to measure impedance but voltage ratio is easy to do. If the voltages on the two halves of the primary match when you put (say) 6 VAC on the speaker terminals then there is a good chance the OT will work for you. Double check the impedance ratio by quaring the voltage ratios How it will sound is a different mater. You will have to try it

Depending on the size of this transformer you may want to place a resistor in series with the 6VAC source to limit the current to a safe value. Something like 22 ohms ought to be reasonable for this purpose. I have heard of more than one small OPT burning up this way when tested without the resistor due to core saturation when excessive power was applied to the secondary at mains frequency..
 
Depending on the size of this transformer you may want to place a resistor in series with the 6VAC source to limit the current to a safe value. Something like 22 ohms ought to be reasonable for this purpose. I have heard of more than one small OPT burning up this way when tested without the resistor due to core saturation when excessive power was applied to the secondary at mains frequency..


Yes. Correct. I forgot to say that because I use those 1/2 amp plug in power supplies for the voltage source. These have so much series resistance built in they can't supply much current. But if you happened to use a 12 amp heater transformer to test a small OPT you might have a melt down.

So just find any old junk wall wort, the smaller and cheaper the better and crack it open and remove the rectifier and you will ave a safe source of AC for all kinds of testing. Many of these cheap suplies already have fuses inside. Most will pop open if you place them in a vice diagionally

This is also a good way to test a new amp's AC wiring durring a build. Put 6VAC from a 500 ma wall wort into the mains socket and check that nothing is shorted and that the switches work and so on. then apply mains power
 
Hi Stalker,
on some Hasimoto circuit I saw a SE output used for push-pull. The four primaries had a tap such that it gives two sections on both sides. The SE impedance is 3k5; the Raa wil then also be the same, 3k5.
Then what is the impedance of the "tap"? This is 2k5, as this is the 3k5 divided by 1,4 [2 square root].
What I see in your example does not fit this logic!

In the described circuit, 2x 2k5 is admissible for a 300B for instance.

alberti
 
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