How to modify an ATX Analyzer to make it actually useful. kzbin.info/www/bejne/r6iaZWqAYp55Z9U

I've been overly interested in electronics since I turned 9 (12/27/1985), in which I took my sister's Christmas gift Cassette stereo apart lol 😊. I was beat with a hanger but it was well worth it!! At 47, I am still just as curious. I love how you give a drawing. It gives a sense of hands on learning which for me is extremely important. How you explain it all in detail is a huge game changer for me. I wish I known you 20 years ago. Thank you so much for all the time and priceless information you give. I hope you are well and in good health!

Thanks Richard. I have a 1200w that died shortly after blowing dust out of it. Really appreciate the thorough explanation. Keep up the quality

Your content is really awesome!!! I can watch your videos for hours on end. Most of my professional working life has been high end (medical, aerospace, etc.... none of this consumer electronics made in China junk) electronics so I had a "high opinion" of myself until I cam across your videos, then I realized I was not as good as I thought I was. You're the kind of bloke who teaches "grand masters" and not "beginners". When you get hours of my attention span you must be good. Imagine that I repaired switch-mode power supplies for a living and I was considered highly competent by my employer, but man I never came close to being the expert you are. Your knowledge is really impressive.

This is the 2nd video from your channel i have came across, and im loving the content =) Im a master technician in a car dealership, Your videos will help me save (in time!) a lot of people a lot of money =) Nobody will touch automotive circuitry where im from! keep them coming =) All the best from sunny Scotland

I really appreciate all your videos. I have been doing this professionally over a decade and 2 decades as a hobby. I still learn every day and I would like to thank you for filling in many gaps in my knowledge. Thankyou brother keep it coming please. Peace

Tobe honest, I got some tasting of a high voltage from a TV repair many years ago. For a "normal" high voltage of 220V I'm only getting pissed off a little and I might say a few swear words but that's it. The high voltage I got from that TV years ago, I heard some discharge just like a spark sounds, I felt dizzy for a few seconds, gently pulled my hands out of the TV, had to sit down for a while and understood that I am very lucky to still be alive. Never, ever since then I did work on anything recklessly. Every time I took precautionary measures, every time I was working in electronics repair I took extra care, double checked precautionary measures every single time. Never started to work on anything in a rush. It's "safety first" then it comes the working. If I'm tired, I'd rather not work on anything. This routine saved me a lot of trouble for many years. I'm 54 years old now but I might've been already dead at 24. Yes, I remember when it happened for that was the day when I was very close to dying. Don't do what I did. Take safety as the most serious and important thing in your life because it is the most serious and important thing in your life.

The PSU is the best introduction to into the repair Sektor

I just started practicing my soldering and repairing pcbs but i have the utmost respect for components with high voltage like power supplies or anything that is connected to the "mains". Thanks for the helpful information. I really want to try and repair some power supplies too and understanding how they work better definitely helps.

THANK YOU for the amazing and detailed, yet straightforward & simple, walkthroughs and breakdowns. EXTREMELY helpful. I never fixed an ATX PSU before, and after watching a couple videos of yours over the last week, was able to fix it! Such a great feeling😁👍 Keep up the amazing work!!! Its much appreciated.

this is a super add on to this series :) very in depth on the ATX power supply's :)

Very comprehensive. I definitely learned a lot! Thank you

excellent video. It was very helpful to see a schematic and an explanation of how the circuit worked and current flowed through it. Really helped me to understand how the smps circuit worked and when you know how something works it really helps you to see what's wrong with the circuit.I purchased a couple of ATX nonworking power supplies of eBay to try and diagnose the faults. and thanks to your previous videos I fully understand the dangers involved with capacitors. I also have current limiter which I built from your design and an isolation transformer. thank you so much for the excellent videos, I will let you know if I repaired the two SMPS.

By far the best channel on this topic. Down to earth real life. A lot better than some

Thank you, Rich! I ALWAYS learn from you no matter how short or long your videos are. You are very thorough! Cheers!!!

It is good to listen him his voice is certainly a pleasing one to listen to and the way how he explains

excellent video i learned a lot from seeing a hands on visual approach along with schematics.

Cool video, with probably enough material for a mini series. I like diodegonewild for power supply youtube videos too.

First one of your videos that I have watched. Also the first one that I actually come away from understanding what's going on! Great video. Thanks

your work is so great i am sure many technicians will agree that it is really golden in the hearts of everyone, a lot of insight.!!! thank you..keep up the great work.

King Richard, I find that all of your videos are awesome but this one in particular is your best IMHO

Cheers, mate!! I've always wanted to learn electronics and to repair my own stuff. YT and your channel make it possible for me to make my dream come true. Thanks and keep up the good work!!

very detailed analysis, love your videos. I used to do electronic repairs, IT now, but makes me want to go back. Thanks indeed!

31:53 This the most important part about hot, not safety ground, which you cannot mix with normal ground during measurements. You have to see it. P.s. Thank you again for that. Last time you've explained it to me in comment section, and it flip my repairs knowledge/experience upside down -because I finally understand how measure things on that hot area without making a short or killing my measurement devices.

1:27:56 Hi Richard. We ARE interested! Looking forward for the video of that PSU's repair.

Therese videos are incredible pedagogic, even for a mathless beginner, with 4 thumbs, and actually also serves well as an ambient ongoing anti-bore surround therapy. Hot air!

Powerful tutorial that was too short. Thank you.

What a great video. You are a great Teacher on your knowledge you share . Don’t stop Thanks for taking your time on getting these videos out .

Super helpful video. I have started watching your vids from the start, and have picked up soo much. You have tied a few puzzled together for me, so thanks.

ty today i fixed my old psu :D , 12 volt schottky diode shorted 1 side

Wow, i appreciate your effort to make such a long and detailed video. Tkank you

I've been using a screwdriver to discharge caps for over 30 years without any issues... My old man did it as well with big filter caps in old tube amps which is probably where I learned it...

I simply love this guy..watfched the vid without blink of an eye .will watch it again so I can understand from 2nd time :) though explanation is more then simple enough to understand.

Extrem gut erklärt ! Sehr motivierend mal wieder in die Schrottkiste zu gucken und es selbst zu versuchen. Danke !

Thank you so much for your wonderful lectures.

Good stuph. Well explained and useful. Somewhere along the line you must have went on a major redux of "uh" and "so" be because I watch an earlier vid of yours that I swear was composed of about 30% of those gap fillers. Well done! So much easier to stay attentive this way.

Thanks for sharing you knowledge... Greatings from Portugal 🇵🇹 🌟

Good evening. Very long video but...very informative as well! I have really appreciated the theoretically dissertation. Thank you so much Richard. I hope in a part 2 when you will receive the components to finish the excellent job. Regards from Italy. Ah!! Please, if I make any mistake in my English feel free to suggest the correction. This would be perfect to improve my language skills...along with repairing knowledge. Thanks in advance.

Light bulb (25W is ideal) is also good way to discharge high voltage capacitors. Additional benefit is you can observe bulb to see if caps are discharged.

thats the stuff Guvanah

Good evening and very grateful thanks from a recent UK subscriber. Took me a few days a bit at a time to watch the lot but I got there in the end. An amazing tutorial, the ATX PSU thoroughly demystified. Great safety first warnings, I would certainly tackle a duff ATX in the future (can"t make it any worse, right?) but would almost certainly refer back a few times to this vid. I am sure I will become very acquainted with this channel in the future. Once again thanks a lot. I enjoyed this one very much.

Excellent 👌 very well explained!!

Thank you for the educational infomation your actually managing to teach me lol old dog new tricks kinda thing thanks

This part (@10:00) is quite interesting for me given its possibly the first time I've seen this, but I am a little confused where you were saying we would read 0V if we measured at the full wave rectifier chip given I would of assumed it would of taken the path of going over the diode and then measured the voltage across the capacitor. Thinking about it a bit more I think it comes down to two things, one we have a polarized capacitor that can only discharge its current out from the positive end, which is currently blocked on both sides, to the right of it there is other circuitry that we cannot see but if it was anything that would allow it to discharge, it would of done so already hence it will be some form of a switch, transistor , relay etc that is past that point which is currently turned off therefore blocking the capacitor from discharging. Then to the left of the capacitor is the diode, which again is currently blocking any current flowing. The other part is that in order for a volt meter to work it needs to have some path for electrons to flow through them and I know the design of volt meters requires them ideally to draw no current and just solely read the voltage but in reality there will be some current flowing through them, where really the main thing is that there is a path that electrons can travel through aka no opens in the path. Then there is the fact a volt meter needs is a power supply in order to read voltages, and given our power supply in this case is the polarized capacitor which is actually cut off from the volt meter due to the diode being present, given the volt meter needs to receive this power from the capacitor and is currently being blocked. When we read across the full wave rectifier, the path has an open in it, and therefore we read no voltage. Then when we read from the diode or just directly across the capacitors leads, there is now a path from the positive end of the capacitor through the volt meter and back to the negative end of the capacitor, and despite the current being almost nothing there is a path for the electrons to travel through and therefore we can read the voltage of the capacitor. (I thought I would post this just in case anyone else is stuck, and it can also be checked to make sure its correct but I do think I understand it)

Very excellent video.

Thank you very much for taking the time to make these videos and for choosing to use some life span to do so. I've got many of these to fix on old computers (just because I want to). I also have some similar supplies in some sub-woofer bass units with internal supplies that have quit and I look forward to using this info to help with those as well. Peace and be well.

smps are 4 types, 1 smps isolated, flyback and forward (in the video is a flyback), 3 buck, boost and buck -boost. smps are simple to repair and mod, most of the defective problem come from the "hot side" like 95%, ic controler blow, transistor/mosfet dead or blow, bridge rectifier dead of blow

Thank for sharing your knowledge

Hello. I am just a beginner on this, I have a question: When is a transformer used, and when a buck regulator or PWM? If my question is stupid, I want to know why. I am really happy with your videos, keep it up!

Excellent Tutorials! Keep Like this!

Excellent video. Thanks.

You crack me up with your intro, and have taught me a bunch! I can't help wondering where you're from or where you live. My Australian friend called himself a POME. Maybe you are too! LOL

What ATX type design do you prefer or think is better in some way? Low esr top quality caps is always mandatory in all the stages? ....your video restore my faith in find good new content creators in this platform, you're excellent teaching what you master. blessings from Chile!

Aside from the dim bulb tester, what safety equipment do you use, and when? GFCI, isolation transformer, etc. Is your variac isolated?

Fantastic video!

i do understaning this power supply very well like a piece of cake thing you that you shows the videos

Thank you very sir 🙏🙏🙏

This great video led me to identify a blown up chip on an ATX supply - it was a seven leg 8 dil with a TYN2 visible and you gave me the info that it was a standby power supply chip probably a TNY209P which I have ordered. Can you suggest where I should look next as to why the chip blew it's top - was it probably from too much current being drawn or do these chips fail like that? Cool video, I enjoyed all 2:13:06 of it and I am a somewhat wiser now. I have 4 ATX PSUs broken at the moment and I'm hoping to salvage at least one of them with your help.

Excellent

All good - as usual 🙂

41:00 why does it take DC current from the rectifier and turn it into AC current for the secondaries? Is there further rectifiers on the safe side of the board? You mentioned something about avoiding capacitors from filling up or the coil from filling up (inductance?). Don't quite understand that bit, could you go a bit further into that part?

Great vid mate thanks 👍

I have a confession to make, I design PCBs for small electronics, and I really wish I could make a board without vias like these ATX power supplies. I just can't see how they could've done them this way so packed with components wires going everywhere and few or no vias. I'm jealous.

Hello, Ive repaired industrial electronics for over 15 years (inverter drives, PLCs etc for a well known UK company. I was trained using a curve tracer which shows the V/I signature of components and could never imagine only just using a multimeter now as it would be like working blindly. Have you ever used this method?

Correct secondary of the main transformer, but that drive transformer should be push pull with split winding on secondary, so one coil per gate-source pair, or base emitter pair. Also, when explaining difference between ground earh and reference ground it is crucial to know why is reference dangerous: every piece of equipment is grounded directly to earth, especially oscilloscope reference ground on the probe(s). So, connecting already earth grounded device to reference ground of power supply makes short of voltage of negative potential to ground=zap (boom). About active PFC: Most new PSUs, no matter the power must have active PFC due to more rigorous regulations on grid power factor. Greater the power factor, less harmonics in the grid and less current draw for the same required power by the load (for example PC, or air conditioner, inverter type, or inverter washing machine etc.). And the boost converter doesn't necessarily need the third bypassing diode. The bypassing diode is for capacitor pre charge, so boosting is in range from 320V DC to around 390V DC on the DC link (on the main capacitors). The second one PSU, with active PFC, considering 2 FETs is most likely two transistor forward topology, so there must be 2 diodes across the winding, and mosfets, that play role of demagnetizing primary winding, in order to maintain volt-second balance for the winding. Hysteresis is part of current mode control, at least for the flyback topology. Want to know details on SMPSs? Go to Keith Billings "Handbook of Switchmode Power Supplies", or similar from Abraham Pressman, then and only then see practical circuits. It just seems like third PSU has synchronous (POWER MOSFETS) rectifiers on the secondaries. Those 2 chokes on the PFC are probably for the interleaved BOOST type topology (2-phase PFC).

Hello again. I have another question for you, can you determine the inputs and outputs of the transformer by the markings of the text on the transformers in the ATX-psu's?

Very good video...sir i have a questions about the pg signal timings ,what are the reasons that this depends on....i have some power supplies with increased timing mother boards fail to start b'cos of this....ur help will be much appreciated....thanks

Really best ever .

Excellent, thanks for the video!

Well done. Thank you.

Thumbs up done sir tnx for the video tutorial presentation

Thank you the deep dive into SMPS. I still don't understand how the Standby IC reads the OPTO. Is the IC monitoring the voltage on the transistor side of the OPTO? I know that the transistor in the OPTO can be on more, or on less, depending on the intensity of the LED inside the Optoisolator.

Heya I love these vlogs for me they may have more detailed info ( I mean wen you drow the main componments I like to see alle the components drown and explanted what they do and how the work ect ect more to learn

Great video!

Very useful thank you

Great video. Thanks!

Really informative video… big thank you

Hi Richard. I have an ATX 600W type I (similar to yours, video 4:00). I want to turn it into DC Bench Supply. Green wire to ground. Violet, brown and gray cables not connected. It works without load. But on 5V rail (14A) a 2 Ω load drops voltage to 4.6V and with 1 Ω it stops. Similar in the other outputs. As you say, I have connected 2 Ω to the brown cable (3.3V) but not solution the problem and it stops... What am I doing wrong? Thanks for everything.

Do you know what would be a cool video idea for building a simple SIMP PSU with spare PSU parts!

I know this is a year old. I was looking for a part 2 for the "practical repair example" at the end but, I don't see it. If you recall, did this PSU get fixed? Did the transistor you had to order along with a new bridge rectifier do the trick or was there any other issues? Just curious. Thanks for the tutorial!

Very nice videos. Do You remember in what video You are working with A cBel ? I've got one, PC7033, which is not working at all. Dead in other word.

what's the make of that multimeter? the make is blurred on the video

i see also adapters which dont have transformers so what are the benefits of transformers, just safety ? And what are their purpose in system except decreasing voltage to our adjustments? Their switching duty cycle affect current in secondary side or just skin effect make system efficient ?

Thanks a lot...

Hey Rick. What name of tools to connect the psu cable to the main when you wanna measure/test the psu with your multimeter?

Why not connect safety ground on the low voltage side to earth ground coming in through the third AC connector prong?

There is most likely a Relay that gets turned on when the Motherboard tells the PSU that you have pressed the power button somewhere on the PC case, then the PSU will get turned off by a /shtdwn signal from the motherboard when the OS has triggered shutdown before exiting it's main loop, I was looking at the PSU AT pinout for the DAA78L Motherboard cannot find the /shtdwn control line is it most likely the power_on# control line.

Where did you get rectified UK mains as being 270V? pk =rms x root2 i.e. 240Vrms -> 339Vpk when I went to college.

This will be fun. 👍🇮🇪💚

This was a super awesome video overall. I especially liked the explanation of hot fround vs safety ground which is critical to understand in order to not blow expensive test equipment! Thank you very much!!

Question here, what can cause on an ATX power supply, for it to power the 20+4 pin connector but not the CPU 4+4 connector?

I would have enjoyed to se it working in the end

I have 685 watt power supply with active pfc which does not turn on, when i checked the 5vsb output it was about 3 and unstable, can you tell me where to look for the fault ?! i also took out the pfc controller board as if it was the source of problem, but the voltage is still the same, is it from the supervisor chip or is it the optoisolator feedback circuit ? by the way it is the two choke design , and has a controller chip with embedded mosfet for the vsb ... thanx in advance.

Let's try to use denoiser VST on your vocal path during film editing ;)

I have a cheap ATX power supply. it switches on and all the voltages are okay except the 3.3v. The 3.3v on the orange wire is not coming. I check and its not shorted and rectifier diode after the transformer is okay. what can be fault?, did you have this issue before?

Thousands of thumbs up

what can I wear to mitigate the danger working with the primary power of the PSU? I got I lot of electrical shocks from power supplies and didn't die yet (that doesn't mean I won't by working with PSU)...

20K subs in the blink of an eye

Thank you so much.

If the primary and secondary of the transformer are supposed to be isolated from each other then why in some well-designed SMPS put a cap from primary to secondary. As I've understood it, it's to suppress high frequency due to stray capacitance between primary and secondary windings. This capacitance may interact with the switching operation of the converter. If that cap shorts then all the work for separation between Pri. and Sec. is useless. So why.. lemme know this? btw, you're not using a fume fan, are you? I don't either but it's not good to breath it in even though it smells lovely :P