How to Convert ATX PSU to 24V output or +/-12V output at 10 Amps or more! Power Supply MOD

HI, you explained in detail how to get 24v I didn't think it was possible. You put in theory (on paper) and it work. GOOD JOB!!! Can't wait for the next video.regards.

I don’t know why but I’ve never been able to understand what the dots on inductors means until hearing your explanation of it. Now I get it. Thank you!

Thank you, you are amazing, no BS, no ego. It’s just fascinating to watch your work. Very best regards.

Well done Richard, your thinking is logical and obvious once you understand what you've done there.

I rewound the transformer on one oh these years ago to give 5, 12, 24 and 36v. I disabled all the OV protection circuits and used some of the unused pins on the controller for extra feedback, it worked for several years then exploded :D

Very cool project. In a past video in this subject, I mentioned the HP-DPS600pb server power supply. Upon discovering this PSU, I completely switched/abandoned modifying ATX PSUs. The HPs are better quality, cheaper, easier to mod, and have much more power.
You ought to check those out.

Richard, very clever! I am fascinated by your work and this was quite a clever little experiment. I am currently working on a couple atx power supplies and this would be perfect so I may give it a go.
I have a tremendous amount of respect for your knowledge and experience, really enjoy your content!

Good video, thanks for sharing. Great demonstration of your understanding of circuits, thinking "outside the box" and then putting what you have found to good use in making a very useful modification. I have been a little critical of some of your content on occasion - though I do appreciate your time and effort - so it's only right to give acknowledgement when due 🙂

Well done Richard.... I am sorry, but most of these comments are just asinine. What are these people on about, changing resistor dividers and capacitor ratings and adding snubber circuits? All you did was utilize a redundent half cycle? Am I missing something? Where was the regulation or any of that changed? People need to stop making assumptions before they finish watching or have only skipped through the video and not actually seen what was done!

I wonder if it was my comment you were referring to about 12V+5V = 17 - I typed a long rambling comment when you were trying to get that variable PSU running.
I just checked and I did state you'd need 2x ATX PSUs to get 17V this way:
"SUGGESTION - temporarily combine 12V from one ATX PSU in series with the 5V rail from the second one"
(the second ATX PSU's PCB needs to be floated from the mains earth of course)
Missed the last couple of your vids, sorry, or I would have pointed that out earlier, but hey, all this ATX PSU rail messing is all fascinating and very educational too.
A few years ago I saw some good mods that ham radio guys had done on ATX PSUs to jack them up to 13.8V as well as more advanced mods but I can't find it in my bookmarks unfortunately.
A 100W HF transciever needs a beefy "12V" supply (actually, they are designed for 13.8V for car mobile use) and a sagging PSU rail can cause non-linearity and be a bad thing,
If ever you need a big load resistor for testing ATX PSUs buy some galvanised steel fence wire and wind it spiral fashion around an old wooden chair or stool turned upside down. Tap into it with some ceramic "chocolate block" screw terminals that are sold for heavy duty earth bonding - plastic ones can melt because they clamp onto the hot steel wire. Just be careful you don't set the chair legs on fire haha.

one more thing to add
by using this method you can make 17V power suply using full 12v amp ratings if your 5v is twice that
for instance with 10A 12v and 20 A 5V rails, you can buildnegative 5v rail, don't use positive rail and get pseudo 17V at rated 10 A from an old pentium 3 era power suply and the load capabilities should scale up
the only problem with those circuits is you better insolate dc ground fromcha sis ground if your device powered from it uses negative rail as ground

In order to get a stable 24V Dc you had to use the grup coupling inductor on the board, and make a new loop on it identical to the +12V rail one.

SPOILER WARNING for the impatient viewers
Revealed - does it work or doesn't it....
*For those who commented that they don't want to watch unless it works - Yes the theory was good. It Works*

Hi Richard, this is a great idea, I could not wait to test it but two of ATX PSU I am trying it I am getting -24V out of the common anode, even after filters and caps connected. I'm scratching my head why but may be this is happening to someone else as well. Measuring the transformer output I find around 9V AC and in the output of the diodes I have +12V and -24V. Strange.....
Thank You for all your Lessons.

Excellent (again). I love when you push the limits 😂😂😂

Impressive young man. Will you make a functional +/- 12V 10 amp benchtop power supply as a follow up that uses the most excellent work you have done here? By the way, XRayTonyB recommended your channel to his viewers and I am extremely happy I followed his advice and watched your channel. I am certainly going to recommend your channel at every opportunity.

It is alive and work 👌👍🖖
Nice explanation Richard .

It is maybe already suggested by others, but what about converting a (old) high wattage audio amplifier to a bench powersupply ?
Most of the older amplifiers have a decent transformer inside, which can easy put out +60V AC, then a DIY PCB with voltage and current regulation, and the amplifier housing can be repurposed by adding a blanc sheet of alumium as the frontpanel, a panelmeter and some banana jacks, and you are good to go. Grtz

DiodesGoneWild has a series of videos where he goes in detail about various atx power supply designs and how changing the voltage or modifying the transformer affects the components and how the voltages change at various points in the circuit, those videos are really worth watching.
(edit: interesting approach, didn't consider doing it like this and wrote before watching... end edit ) Converting this to 24v may work but you have to be careful about all the components, changing the resistors on the voltage reference, changing capacitors to ones rated for 35v, changing the resistors in the over voltage / under voltage protection circuit, and you may also have to change the rectifier diodes on the secondary heatsink, because you have much higher voltages and the diodes may not handle them.

I'm just thinking, you said in the title 10 amps or more. However, one of the 12v supply is rated at 10 amps, the other one at 2 amps. 24v at 1amp should be fine, but once you go over 1amp, won't it overload the lesser circuit? I'm asking because I want to use an atx for a cnc to power 3 motors (rated at 24-80v), drivers, control board, fans, etc

Well done Richard, I’m very impressed but not at all tempted to try to emulate this myself. Maybe you could design a board which connects to an unmodified ATX psu and gives the bench controls needed? At least in that way the variable implementations inside the psu are shielded from the project and, if one fails, another can be swapped-in. Just a thought. Keep up the great work 👍😀

Have you an isolating transformer Richard? I once had a bad short scoping on a SMPS! I won’t forget that in a hurry!

This is a nice demo and great that it works so well.
I seem to recall the inductor and load resistor is used as a filter to remove the wave-form of the HF sine wave at the specific frequency ranges, a low-pass filter if you will.
The wave form would be centred at a DC offset of 12v but would peak (without load) well above the point.
Resonant circuit magic like that is kinda cool to see even if I still don't fully understand it.
I may have to revisit an experiment with some flyback style systems to see what their reverse voltage is like, maybe I could use the 12v+ through an inductor on a counter-winding, transistor, voltage reference and load resistor to force the other side -12v to not go upto +200v, basically relying on the reverse current of the flyback to create a current-mode generated -12v and a voltage-mode +12v (or the other way round? I sometimes mistaken terminologies).

nice job Richard :) so glad you worked out that problem :) well done sir :)

I have a problem, the output voltage is -19v.
Is it okay if I keep it? While I just change the capacitor to 25v.
Note: I used 2 diodes from my broken ATX PSU. Because I don't have common anode diode.

I appreciate your help. I'm wondering if this would be compatible with 110v ATX power supplies?

Great , great video.Thanks for sharing your expertise. I learned a lot here. I tried it and get the inverse voltage alright but any load whatsoever makes the power supply unit shut down. Any ideas appreciated

small update on my questions
i diged out old pentium 4 power suply, that is it was made in year 2001 and got a sticker inadequate for the device
i have aded negative 5v rail to it acording to the video, but it did not play nice since as any old power suply the only regulated power rail is +5v by ka7500b chip
so whenever i loaded 12v or from 12 to minus 5 the voltage saged dramatically
so i cut feedback from 5v to the regulator ic sensing pin and conected it to voltage divider potentiometer located on 12v rail , 10k potentiometer to ground and fed output to pin 1 on the regulator ic
now 12v is rock solid down regulated to 11 so i could get 15 under load from between 12 and -5
overcurrent protection likely don't exists in this one
thanks for the idea

Did we get confirmation on the current symmetry ?
My last attempt, transformer went short, sparks, smoke, etc. at just over 3 amps.
Have to remember these are mass-produced by the lowest bidder...
I wind my own toroids now.
;)

What if we make a separate circuit with diodes in bridge connection taken from the two 12v points. Two inductors and pair of capacitors, just like 12v output, but we get 24v without connecting the ground.
For 20 amp which number diodes can we use?

Amazing Richard. Learned a new one. Thank you.. 🙂

now here's funny qyestion
how would overcurent protection of the power suply play around if you load just the negative rail? and how wuld it work with loads connected to 24v?
because as far as i know if you didn't disarm the current monitoring, which is most likely on the output side, sensing the voltage and compensating on off timing of the primary, you would still have a brain that thinks it can give the same current as it did before the mod
if the ic is smart and monitoring more than one rail it may go crazy and trip before you draw that half power because other voltage rails might go up too much, or the primary transformer might get too hot if it don't
what would happen if you forcfully lower the 12v rail to 8-10 can you get the amps back or would the other rails be a problem

I was going to ask what is the easiest way to check a motherboard with appropriate meters.

Great. Looks like you have got a 0-12v or 0-24v PSU that would work great in the Variable Bench PSU you were building. How about it?

Great presentation. Thank you

Is it true in a atx power supply , if you connect all 12 volts wires together will give you the max amps listed , let say it has total 4 wires will give you the total amps? Example 12-16 amps

Hi
I did send a comment last evening, however this was in the comments section in the vlog on your new adventure live Q&A. I tuned into watch last night at the designated time, but nothing and nothing in your RUclips site, could you update me on what happened and have missed or mixed up something.
Regards David

Your half way to the bench supply I don't need but want and that would be a 50v supply that's capable of 10 amps.
Two of these Frankenstein power supplies in series?

Very interesting mod. Genius really, never seen that before. In the video you mentioned putting 2 atx psu's in series to get 24 volts. If you convert 2 atx psu's like this, I suppose you could then get 48 volts in series using your mod. Would make a useful cheap psu if you could do that and have the 48 volts adjustable. I'm guessing this mod could be implemented on any atx psu's that outputs 12 volts in this way.

The capacitors to ground at 8:53 and 9:04 ... how does this work? Does it smooth the output? What stops a direct short to ground.

Do you have 320v monofase in the canary islands? Is it not 230v like in Europe? I heard about 120v and 230v monofase and 340v trifase. Never heard of 320v...

Not to appear dum but what you sort of created is a centre tap transformer?

❤ Excellent❤

Takes a few minutes to bolt diode to heat sink/fan. Why not stress test it at say 9A for a day? A successful test would make most of the doubting thomas's scramble for cover.

tienes -14 volts, porque esa nueva linea negativa ,NO PASA POR EL C I CONTROLADOR !!!!! ....

Do you know why there is no "save" function for this video?

you sound like a fellow stokie

camera from above view filmed in the seventies

Already have minus 12v in the factory ATX power supply, the wire with blue color... you just need to replace the built-in diodes with others for higher amperage, I would install x4 identical ones for +/- Recommendation for an identical capacitor and to run the same number and cross-section of wires through the same inductor... stop polluting youtube space with nonsense, no need to invent hot water!

hahaha he is allways coocking something

The title sounds like you figured it out but in the description it sounds like you didn’t, that's stupid and makes me not want to watch