I live infineons application notes. You can teach a college course from them lol

i can excuse the crudity of the models because there is no scale BUT, i have to argue that you obviously did mspaint it! I wonder if LC power supplies will become the norm as more and more power is required from smaller supplies, there is companies boasting 100 watts from a cell phone charger sized wallwart now with usbc out!

I doubt if they use LLC, I cant see the resonant Cap, and with inductor that big, its more likely to be a phase shift full bridge. The CoolMOS CFD7 can be used for LLC and PSFB as well, as long as you dont need body diode force commutation capability

Hi Dave, once again, thanks a lot for this great video! I do power supply design for quite a while now, and I think in the R&S it's done this way: since there are two current sense transformers, two transformers which look like they do gate driving, two power transformers, four FETs and four diodes, I guess it's two separate LLC stages. For one stage with two power transformers one current sense would be sufficient. I think the two stages are phase shifted. This makes sense, to counter for the LLCs big output ripple currents. Also, in nearly all my LLC designs, I integrate the resonant inductor into the power transformer. Because LLC stages are very bad at wide input to output voltage ranges (they work best at a fixed in/out ratio), I would suspect the large inductor with the spare transistor down right forms a buck post-regulator. Maybe the missing free-wheeling diode is below the board... Anyway, I hope you well have time to investigate this further, I'm very curious how they have done this. Greetings from Germany!

Excellent video! I learned alot here, mostly about why I don't use resonant mode converters. Too much math! (I can see it taking a team weeks to get the math for something like that bench supply sorted out.) Anyhow, not useful for small MCU projects of mine that typically consume

Parts and licenses? You mean, the cores with windings and innovative circuit design?

@@edinfific2576 The power supplies were the only hardware we sold on the project, which was about 5% of the revenue. The other 95% of the revenue came from other tech we developed then licensed (it was a nuclear reactor control system, after all).

Schematic or it didn’t happen. In all seriousness, it’d be really interesting to see a schematic of this topology. TiA :)

@@combin8or I was actually a software engineer at the time, but I had been a Navy and commercial nuclear technician before that, so I worked on the project in multiple roles. When the supplies started smoking, I was pulled in to help troubleshoot (because the supplies were controlled by an 8-bit microcontroller I wrote the code for, and we all know who gets the blame when the smoke leaks out), and then helped on the root-cause analysis. I did no electronics or magnetics design, but when it came time to make the prototypes, I was the only one with winding experience, so I got to lead that team. (Well, it was me, a technician, and an intern. But still.) The original design did direct-from-AC conversion, to avoid rectifier losses and minimize the power factor. Once we had the better magnetics, we were able to use a slightly more conventional design and still meet those goals. I can remember bits and pieces (it was a quarter century ago, after all), but nowhere near enough to reconstruct anything workable. I do recall the microcontroller interfaces and their signaling, but that's about it. In the final design, the microcontroller did little control, and lots of monitoring and reporting. That was an interesting project overall. I was a junior software engineer who was given some impressive chunks of the system to design. Other software engineers were senior to me (and older than me), but had fewer high-level responsibilities, which made for an "interesting" work environment. Basically, I sucked at that aspect of it, meaning management had to back-fill my lack of people and leadership skills. Ugh. But the real key turned out to be me improving my writing skills, so I could generate design documents that created less discontent because I learned to better explain myself. Trying to do that face to face was not optimal... Only three Seawolf subs were built (out of 22 planned), which was why we wound up being glad to have lost the competition: We never would have made the kind of revenue or profit needed to stay in that business. But the supplies were an unexpectedly good side-line for a while, until the engineers moved on to other projects and the designs were sold for a pretty penny.

@@flymypg cool. I’ve had a direct from AC topology on the back burner for awhile, so that’s pretty interesting. Thanks for the story.

I beg to differ. Not only hobbists. I'm a practicing engineer myself, and I'm still waiting for a bad video from Dave. (April fools bullshit are the exception, he should knock it off)

@@Eng_Simoes can't be all work and no play

also kzbin.info is good, but in russian only...

those Gold and up PSUs uses LLC for efficiency, i guess?. there's not much bronze or 230V standard rated PSU uses LLC even today, sadly. did CX450 uses LLC? i thought it's only the 2nd gen CX550, 650 and CX modular series uses this topology

Of all the old ATX PSUs I've taken apart this was immediately recognizable

I'd love for dave to take a look at one of those high end passively cooled 600W models

my final undergrad project for uni was based around one of theese, it was hell trying to both design the converter and the control loop for it

TTi made a series of PSUs which used magamps in the secondary side regulator, so it is doable

@@jaycee1980 link pls ☺️

@@productivityatmost TTi EX354 series

I have some power supplies from Delta Electronics that do this as well. They have a secondary transformer set that can be switched between series and parallel depending on the load and regulation.

Yes, how is that supposed to be power dissipation? Where is the connection? I dont see it.

MOSFET turn on..volts across it drop to low value..the current through it rises from min to load demand max.. & vice versa at turnoff.. THE MOSFETS NEVER SWITCH INSTANTANEOUSLY... BUT WITH DEFINITE RISE & FALL TIMES.....ramp up/ down of V & I each in a few microsecs... times that KHz sw.freq. rate...& it is something for the designers to worry about... That AREA UNDER THE CURVE(slopes) ARE THE POWER SWITCHING LOSSES... ...the device "R..D-S on" times the load current sq...... { ( R× I sq. = W) for "one switch on" period } are the " conduction losses.....

Thanks for the explanation. I was wondering how that worked, that important detail was glossed over a bit.

Could also be a programmable current sink, to help with overshoot and the output voltage regulation, or to dump energy when you command a drop in voltage, or when your load imposes current on the output for some reason. Lose energy in the saturation of the inductor, or in the diodes and transistor, till the input side feedback can compensate for it.

Why would you ever do that??

I'd like to know, too! I've heard this, but never from an authoritative source. If true, resonant mode converters also might be useful for sensors that are sensitive to switching noise!

99.8% efficiency. Wow, thats amazing!

@@simontay4851 sure was a surprise when evaluating the results. Had to build a 3KW adjustable load, at minimal cost. Would have liked more time to design a electronic load, but made do with large 'gold' power resistor chain on a long tube heatsink an fans forced air flow. Had a hurry as decision on using these converters was critical to be ready with race setup. Contributed to success of the local car that year!

Dave showed them in the previous video. They are current transformers for current sensing. The giveaway is that the "secondary" winding inside them is only a single turn.

The ones with the thin wire and exposed green core are current transformers, as was mentioned ten months ago. The ones with yellow wire are gate drive transformers.

Input fuse.

@@v8snail was thinking that V8Snail!! coz Dave wouldn't have missed it if it was one!!

Didn't want to release two videos in one day, but made it available to those who bothered to follow the link. Zero views might just be stat lag, or you are the first.

@@EEVblog An LLC is just a particular type of resonant converter, not every resonant converter is an LLC. Full bridge LLC is also not as common as half bridge LLC which can be used effectively up to more than 1kw power level. This seems not at all an LLC but more a Phase Shifted Full Bridge converter (PSFB). An LLC won't have an inductor on the secondary side while a PSFB needs it. An LLC will work with good performance at fixed input and output voltages. Here this stage needs to regulate from 0v to 32v (or 64v).... Good luck with an LLC converter, the needed frequency variation to keep the output voltage regulated will be impossible to achieve. I suspect this is a PSFB with 2 identical transformers wired with the primaries in series and the secondaries in parallel or in series to differentiate the 32v and 64v models using the same hardware. For more information on PSFB check TI app notes about UCC3895. Great content as usual.

I seriously doubt it. There's no way one could achieve ressonant performance at, say, 400 kHz switching frequency, with one if those puppies

Unless it’s for educational purposes, designing a resonant controller by yourself seems like a huge waste of time. NXP and TI already make extremely reliable controllers that work up to 500KHz for

@@Eng_Simoes 400KHz? maybe yes, but what does that frequency got to do with anything?. Fully resonant mode is not related to some high frequency standard only a factor related to core size reduction that's it. its all to do with the transformer core material used + LC tank. We can achieve full power at resonance with frequency as low as 63Khz using that PIC.A cheap modern design can be realized with EPCOS material N96 operating at 150KHz with cheap mosfet switching devices and a tight layout.

​@@SolidStateWorkshop don't agree with that statement, see CIP Hybrid Power Starter Kit Part Number dm164147, there are lots of really great benefits.

@@yaghiyahbrenner8902 energy is 1/2 C×Vsq. .. and/or 1/2 L× Isq... AND POWER IS ENERGY times FREQUENCY.... so higher the Freq. ..higher the pwr. for the same L/C & V/I also higher the operating Freq. .. smaller physical sizes of L/C components.. The limitations earlier being reliability & capability of the then AVAILABLE mosfets.. dedicated controllers.... & low economical sense to change over from the well established SMPS " industry standard "... Today we have SiC mosfets which are way ahead of conventional insulated gate mosfets..and as they become more acceptable & price competitive.. ..EXPECT TO SEE KW. OF POWER handling at UPTO 5-10 MHz in resonant modes...

I too am an EE and bot MCU and destop apps programmer, and design all sort of PSU's and small control sysems with microcontroller for which I use mostly C, C++, and whenever possible Pascal. And yeah, get the circuit wrong, and mods/parts explode, which for me is a complete loss because I do a redesign - expensive, but being a full time contractor, I must have happy customers. On a tangent, and only for Windoze desktop GUI apps. Try Delphi, you'll learn to HATE C++. C# is a mixed bag for me, even though it is designed by the same guy that did Delphi before he sold his soul to M$. It has the CRAP syntax of C++, but has a lot of nice abilities, BUT it is suffering from "project creep", i.e. too many not too useful but COMPLEX abilities (which Delphi is now following - BAD and STUPID MOVE - KISS IS BETTER) that are better off not being there ever! I started with many Assembler, then a bunch of HLLs like Basics, PL/1, Pascal etc. etc. Then C, then C++ and finally Delphi. All this over four decades, and for productivity, READABILITY (brackets are EVIL becaus the brain processes words like begin/end MUCH MUCH faster due to context not being required to recognize them), there is NOTHING that comes close to Delphi, ...but it is an unlearning curve from C++, to which I was addicted to for a very long time, went to rehab :), got much wiser and after hating Delphi at first after it was pushed onto me, several several years I good at it and now NOTHING comes close to how fast and ultra readable I code compared to C++ that I was so in love with before ...NOTHING! Because of the FALSE LYING POS M$ propaganda about Delphi, as M$ does with better products that are not theirs, most programmers never looked at it in the last decade! VERY SAD but my gain, especially when it come to high response GUI's. Try doing GUI's under any DotNET language without spending too long on it (apart from the cookie cutter and limited wizard stuff). I mean truly custom schmik designs my customers cannot get anywhere else. I designed a very complex multi monitor system for $50k price ($30k + $20k later extensions), took two and half months combined. Two decades later, due to M$ evil ways, they wanted it converted to C#. I told them it would has laggy GUI (because 6 level deep layered GUI with huge inter module updating), which DotNET would comes to crawl with. Anyway they got an initial quote of $350k from a C# house ...yep, and the quote was about right too, because I also quoted for it at $400k becaue DotNET just could not do most of the GUI stuff well so many Custom Controls would have been required. The DonNET GUI is only good if you stick to common GUI needs that 90% of projects need. Anything out of the ordinary and you are FUCKED for performance and programming time! ...so here is my triggered rant! :):):)

@@stevenbliss989 Well, I used Delphi mamy years ago, starting with version 1.0. I use C/C++ for embedded systems. C++ is complicated but I'm getting used to it. However in many cases is better than pure C especially when I need to write complex firmware for devices that include TFT displays with rich GUI, FAT file systems and so forth. In my company some engineers use Python but it looks weird to me and I don't want to use it in my designs.

@@rk-dj4sg Not a fan of Python either, it has it's place, and is very useful for quick and dirty automation and/or data analysis, but I would NEVER write a real program in it, for many reasons, including it being an interpreter.

@G E T R E K T Before Delphi there was only C++ or VB (BLAAH!!!) and Turbo Pascal, plus some oddballs like PL/1 & Modula 2. Sadly I never used Turbo Pascal, BUT SHOULD HAVE back then, it would have saved me a lot of time and agro! :( ...I despise M$ for essentially killing Delphi! ...NO FORGIVENESS!!!!!!!!!!!!!!!!

@G E T R E K T You got it man, but I hate them for removing floating form designer!

I think it is ZVS converter

..the Sanjay Manektala of ex. Crompton Greaves Mumbai1990-92...ex....NSC.... with that chain smoking habit...??? he had written (at least)a book on p.s...???