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how close can a choke be to the OT?
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It can be right next door, and if the EMF flux axes of the two cores are perpendicular to each other, that is probably even better.Building a better world (one tube amp at a time)
"I have never had to invoke a formula to fight oscillation in a guitar amp."- Enzo
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On a related note, beware that the choke wires can radiate 120Hz hum into input preamp circuitry if the choke is located over the top of the preamp section of the amp and the wires enter the chassis and run underneath the preamp board components.
Best to keep the choke wires away from the low-level preamp sections, they carry bursts of high current noise as the input AC signal "tops off" the charge on the filter capacitors twice on every AC cycle, and these high-current bursts create electromagnetic fields that can radiate quite a distance. I had to fight this problem on one of my own designs.Last edited by raiken; 04-20-2014, 04:00 PM.
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+1 It's widely UNDER appreciated what rectifiers and filters do, and what high pulse currents and discontinuous voltages flow in there.
Most of the high pulse currents are in the wires from transformer through rectifiers to the first filter cap, then out of the first filter cap back to the CT. The choke *can't* change current fast, that's what it's there for. But ripple voltages can get steeper with a choke load driving them if the choke and cap are not operating at resonance. And the stock filter cap -> choke can't operate at resonance and do a good job of filtering. So you can get fast transients at a 120Hz rate.
Good, careful design of a power supply pays close attention to currents and wire routing for everything up to the second filter cap - and beyond if you're really trying to make a quiet amp.
Did you try shielding the choke leads? That had to be voltage noise, cause chokes don't do fast current pulses.Amazing!! Who would ever have guessed that someone who villified the evil rich people would begin happily accepting their millions in speaking fees!
Oh, wait! That sounds familiar, somehow.
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Originally posted by R.G. View PostThe choke *can't* change current fast, that's what it's there for. But ripple voltages can get sr with a choke load driving them if the choke and cap are not operating at resonance. And the stock filter cap -> choke can't operate at resonance and do a good job of filtering. So you can get fast transients at a 120Hz rate.
Did you try shielding the choke leads? That had to be voltage noise, cause chokes don't do fast current pulses.Last edited by raiken; 04-20-2014, 05:26 AM.
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I believe it was the voltage change. It would be interesting to try moving the wires back so they interfered, then subbing in shielded ones.
I normally go for twisted pairs for reducing interference, but in this case, I don't think twisting the choke leads would help.
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You know, the choke leads *would* be a good place for launching bursts of RFI from rectifier slam-off. Was this a tube rectifier or solid state? And if solid state, un-snubbed rectifiers or snubbed, or FREDs?Amazing!! Who would ever have guessed that someone who villified the evil rich people would begin happily accepting their millions in speaking fees!
Oh, wait! That sounds familiar, somehow.
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I don't know if this is good practice, but it works for me. Maybe you guys can tell me if this is not good for some reason. But i run all my choke and OT wires outside the chassis so theres a grounded shield (the chassis itself) between the wires and the other circuitry. The wires then enter the chassis at their destination point via small hole with a rubber grommet and the wires are bunched up inside hear shrink till they enter the chassis. As for the placement of the choke, ot and pt, i used a marshall as a model since it's a known good design.
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Originally posted by daz View PostMaybe you guys can tell me if this is not good for some reason. But i run all my choke and OT wires outside the chassis so theres a grounded shield (the chassis itself) between the wires and the other circuitry. The wires then enter the chassis at their destination point via small hole with a rubber grommet and the wires are bunched up inside hear shrink till they enter the chassis.Originally posted by EnzoI have a sign in my shop that says, "Never think up reasons not to check something."
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I've not had issue with the OT, and PT leads.
All of my past hum and noise issues, have either been Ground or Heater wiring issues.
Maybe I got lucky.
On my last build I did, PT--Choke--OT.
Reasonable separation between each.
The OT wire routing worked out better that way.
It turned out to be the quietest Cascade Preamp Amplifier, I've heard to date.
T"If Hitler invaded Hell, I would make at least a favourable reference of the Devil in the House of Commons." Winston Churchill
Terry
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I fought 120 Hz pulse noise on an amp I shipped about 3 weeks ago. The choke was inside the chassis ala SLO style and the wires were short and never came close to the preamp board. I tried FREDs, put the filaments on battery along with the switching circuitry, checked out different grounding schemes and nothing phased it. I finally ran out of time and had to ship it.
It wasn't very loud and the customer laughed at me when he got it, saying it was the quietest amp he ever owned, including his dad's SLO. But you know how it is, they don't have to make noise if they are designed right...Joe L
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