A tale about DHT Supplies

I’ve been using my choke-input DHT filament supplies for many years. I’ve got many of them as you’d expect. Something I do really hate is to build power supplies. It’s dull and boring, but they’re a necessary evil. I’m afraid I have to admit.

Recently I experienced the dreaded smoke of capacitors blowing up. It’s actually funny in hindsight, however at the moment of the fireworks you don’t laugh. I killed one Coleman regulator as well with my experiments on a flexible DHT supply. That made me revise the design and the stress put on the components, in particular when you’re using filament bias in anger, as I do.

Anyhow, over the last 3 months I’ve been playing with SMPS supplies to try to get the commercial available ones quiet enough to be used with a DHT preamp. I started with classic filter stages like CLCLC, morphed to gyrator filtering (which wasted a lot of heat) and then resisted using LDO regulators which I knew it would do the trick. However, getting rid of the HF noise is a daunting task.

Actually, I have a variable HT SMPS supply built which sounds really good and is extremely quiet. It can deliver 2 channels of 600V/100mA. For a filament supply, the SMPS challenge is of a major league game. You can get the noise to about 1mVrms but the harmonics spread well over the mid and high range. Big chokes have also a big leakage capacitance which makes the choke not that effective at filtering off this HF noise. 1mVrms in 600V is fine, however 1mV in a 16V supply which si feeding the filament bias resistor is a problem.

After giving up, my patience these days isn’t the best I have to admit. In particular when time available for DIY audio is very limited. So I said to myself: “sod the SMPS, I will get a nice pair of custom made transformers with multiple taps and job done”. And that is what I precisely did. JMS transformers in the UK provide an amazing service. I’ve mentioned them in the past several times. I get all my power transformers from them these days. I ordered a pair of split bobbin, with outer copper screens and multiple taps to cater for all the voltage ranges needed for my output stages. From a 4P1L to a 300B.

As I always use choke input supplies for filaments, I used the LL2733s I have in stock and carelessly wired it on 400mH (series bobbins) which provides a huge voltage peak output when the minimum choke input current isn’t in place. This happens at start up, the voltage will raise to the level of cap input supply when the filament is just starting up thanks to the gentle raise of the Coleman regulator. The result is the high voltage peak output which can damage the capacitors.

The solution was to wind the input choke with the two bobbins in parallel to get inductance down to 100mH. Also the resistance is reduced significantly which avoid wasting too much voltage drop on the choke. Also adding a tuning cap (C3) to make the supply to operate in a hybrid mode between choke and cap input is great to dial in the output voltage.

Here is my supply which I use for the VT-25 and the 4P1L preamps:

I’m not going to go through this basic (quasi) choke-input supply because it has been covered extensively by others. Rod Coleman in fact, provides a nice set of recommendations worth following when building LT power supplies. I have some components at hand which I tend to reuse on my supplies. R1 and C2 are the snubber network which I trimmed manually. C3 is the voltage running cap, a polymer aluminium one to ensure low impedance. I use the EPCOS 22mF caps all over my filtering stages and in between I add a CMR choke. C6 and C7 are to improve HF filtering. It could also be a stack pair with the centre connected to earth. I haven’t had any issues with any HF noise on these power supplies, so never had the need to improve them.

Bear in mind that most of them are mounted in a piece of wood 🙂

Here is the PSUD2 simulation to demonstrate the initial peak of the choke input supply when the regulator is slowly coming up. You can see that it goes up to 26-28V. With a higher L1, it goes higher and can damage the caps as it will get close to the Cap input maximum voltage. Also the reverse voltage can put some pressure on the diode bridge, so you want to avoid this.

So here is my final version of the “flexible” filament supply. I have the transformers tapped at 0.5, 1, 2.5, 5, 10 and 20V. This allows me to adjust and trim the output voltage to avoid wasting power on the Rod Coleman regs for example. The filtering stage is slightly different (it has an HF choke at the output L4) which is inheritated from my SMPS experiments. I reaped off the filtering section of the SMPS and reused it here. You can make your own tweaks:

This supply will be used in a varied set of DHT output stages with fixed bias.

Here is a view of the final build using some nice chopping boards I got as a present 🙂

Author: Ale Moglia

"A mistake is always forgivable, rarely excusable and always unacceptable. " (Robert Fripp)

6 thoughts on “A tale about DHT Supplies”

  1. Hi Ale,
    nice write up. It is good practice to overrate components so that in border cases or in case of a fault the components won’t fail. A simple precaution is to put a bleeder resistor in front of your regulator which ensures critical current draw at all times. Nevertheless I always overrate the components used accordingly.

    Thomas

    1. Hi Thomas,
      You’re absolutely right. My laziness takes me to use what I have in stock and not to put the bleeder when it should. Also a protection zener could work and is cheap also to act as a fuse if needed.
      Thanks, Ale

  2. Ale, Can you give us the part number and cost of the transformers from JMS? This supply would be very useful…

  3. OK–sometimes winders still assign a number to the custom order so they can look it up and make more. Since you provide the taps, I can just give them that info–cheers

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