This layout may be pretty noisy. You should follow the rules of DC/DC converter layout: 1) Identify your current loops. There are two: one when the switch is closed; and the other when the switch is open. 2) Arrange your main components such that the loop areas are minimized, and (this is very important) all on the top surface layer. For example, DON'T use the ground plane to connect CIN and COUT together. 3) Use a "single point" ground, meaning that any ground vias are all clumped together, not spread out. Rules 2 and 3 go together because they prevent any large switching current from flowing in your ground plane, which causes common-mode noise in the sensitive parts of the board. For example, in your case the only sensitive point would probably be your linear regulator; any CM noise present in the ground plane where the linear regulator connects to ground will appear at the output of the regulator, which kind of defeats the purpose of the linear regulator. Look at how TI did the layout in the data sheet and follow the loops. First loop (switch closed) goes from CIN positive, through the FET (inside the chip), then through the inductor, then through COUT, and finally back to CIN via the ground. (This first loop is fairly tight, but TI could have made it a lot tighter with a 2-layer board) Second loop (switch open) starts at the diode cathode, goes through the inductor, then COUT, then back to the diode anode; very tight. Note that they used polygons instead of traces to minimize the open area inside the loops because it reduces EMI. BTW, another issue you might have is beat frequencies because you have three switchers connected to the same source with no chokes to separate them. I hope this was helpful. I don't mean to be critical.

This is an amazingly informative video for a computer engineering student like myself. Thanks for taking the time to do this.

Thank you so much for this video. I have not done a pcb since the early 90s when I used to etch my own after doing the layout with a simple CAD program plotted on transparency. It is great to see a step-by-step guide to the whole process. It improves my confidence level immensely.

This was a complete class! This video is long but the way you explain it doesn't make it tiring. I like all your videos but this was one of the best so far :)

I always learn a lot of tips-n-tricks from this style of video. Keep it up.

Brilliant! At last I found a purpose for KZbin. I followed you intently from the outset and understood you for the most part. Looking forward to the next episode. A BIG 👍 from me! 🇬🇧

Very informative indeed. Just the parts selection portion was worth the price of admission. 👍

Brilliant episode. I can honestly say I didn't want it to end.

Pure pleasure to see your work process and the result of good preparation.

I really enjoyed this vid I got quite a bit out of it and you really do a great job explaining your thought process. thanks for sharing look forward to more vids like this.

Great video. When designing SMPS I like to put in couple of small value ceramics right at the input of the module and at the output of the converter. This helps to reduce high frequency noises. It’s not always necessary but can help to pass EMC requirements.

I always had the temptation to run away from the Simple Switcher DC-DC converters from TI, just to avoid the use of a external freewheeling diode. However, the phase margin compensation feature makes them a suitable candidate for future designs. As for the capacitors used, I tend to choose the expensive solid/polymer electrolytic types for such applications. For other applications that don't require high voltage and for relatively low ripple applications (for example, local decoupling, along with ceramics), I tend to choose those from the OxiCap NOJ series from AVX. Those are niobium types, and are much more tolerant and less explosive that tantalum caps. Anyway, it was great to see your design process. Thanks for sharing!

Late to the party, but this is a terrific walkthrough of the design process. Besides the spectacular failure modes, I try to avoid tantalum caps because tantalum is a "conflict mineral" mostly mined from the Democratic Republic of the Congo, not typically ethically.

Really good theoretical video but very practical at the same time.....nice balance. You'll get a nice psu you can use elsewhere also.

Thank you for sharing your design approach. Very informative and instructive. Looking forward to next step. Regards, RJM

Yes! been waiting for this, what an excellent and informative video and i learned so much about the design process. Thank you very much for sharing and i will definitely build this for my FY6900, looking forward to the gerbers!

Thanks Steve, outstanding effort. Will come in handy. 🇦🇺

Didn't Dave Jones make a video on how linear regs aren't ideal as active filters and noise suppression? He showcased a neat "capacitance multiplier" which was really just a buffered RC filter.

Fantastic tutorial video as always! Looking forward to hearing about creepage distances and high-voltage considerations.

Great work🏴󠁧󠁢󠁥󠁮󠁧󠁿

I would have looked at AP63201 for step-down (AP63201WU-7DICT-ND on Digikey) ... cheap, high frequency so cheaper surface mount inductors and capacitors. Very detailed datasheet with recommended values for components AND suggested circuit layout. 1.2$ in 10qty. AP63200 is same but in TSOT26 footprint. Another option ... Richtek RT8279GSP , 1.3$ if you get 10 (edit: it's 0.7$ each on LCSC, 9k+ parts in stock), 5A 500kHz and then you can power the inverting regulator from this rail, along with the 5v regulator.

Thanks for the design process video Steve...learned a lot!

Thank you Steve! I tried to upload the Gerber files from your website to JLCPCB quote page and after the upload and navigating to the Gerber viewer it says "The new Gerber Viewer doesn't support files upload before July, please re-upload on our quote page to try the new version.". Any chance to reupload updated files compatible with current JLCPCB web? I'm new to electronics in general so I apologize for possible error on my side.

Nice tutorial. I'd probably try to keep the 24V input pour restricted to the input sides of the converters though.

Nice video m8, good narration and much information

I must have missed something - so you are saying that the polarity of the voltage of a FET in the electrical characteristics in the datasheets are meaningless?

Hi SDG, I just bought the FY6900 Signal Generator and I watch your video on the power supply modification. I think it is a brilliant idea and would like to adapt that into mine. How do I get the PCB with the parts?

Please do more design videos!

I am a mechanical engineer (retired) and in a former life in the mid-eighties, I used to design PCB and thick film hybrid layouts for a living. Looking at various videos like yours on YT I now wonder how the hell we ever managed without CAD. I note you did not mention the auto-router in your package; did you ignore it in your layout? Manual layout is undoubtedly a much longer process but offers a real sense of achievement when you 'get it right'. I'm sure I still have my scalpel around somewhere. :-) Also, I would love to know why you use electrolytics and ceramics in parallel. Is it a frequency thing?

What about Niobium Oxide caps as alternatives to the tantalum ?

Webench is a nice tool. I'm a big fan of TI.

QUESTION: Why not use a transformer 15-0-15, with regulators for the LM317 & LM337?

I really enjoyed this.

I haven't a clue about what I am talking about. But why not use a $25 pc computer power supply. You can get 24, +12, -12, +5, -5 volt. Drill a hole in the FY6900 and insert a 5 pin socket for a 5 pin plug. Now you have an external power supply for the signal generator. What is wrong with the one that came with the unit? Or is this just a lesson in electrronics engineering? Good video desription of what you are doing. I have a FY6900 and I am not going to change the installed power supply, but if I am then for 30 bucks I can have an external supply.

Very good video. I'm often completely lost when selecting components. What is generally considered a low ripple current? I always hear "low ripple current" mentioned but what value is that? I'm sure its dependent on what you are designing but is there a rule of thumb? Also what PCB software are you using?

Thanks for all the details Steve, are you going to post schematics and gerber files on your blog?

Did you not need also -5Volt?

Very good, thank you!

Purchasing from LCSC, aluminium polymer capacitors are very cheap. These are quite low ESR and ESL and for the switching frequency of the simple switcher part should be sufficient enough to not use the ceramics.

Nice video What EDA design software and layout are you using?

Why don't you use easyeda?

Its great, longer ?...no problem ! cheers.

Hello! I want to make it, as one of my first project. I want to order components, but how many watt are the resistors? Thanks

When you say you put a 50ohm terminator on.... at 3:30... is that a load of some kind?

Wow, this is so informative! When do I use tantalum and when ceramic capacitors in switch-mode converters.

finally , thank you .

Very interesting and education! Thank you very much.

Good video! I would like to know what CAD software you use. Keep up the great work!

41:50 right here is probably a good idea to remember about output offset feature of generator if it has any

very enjoyable.

Ótimo vídeo Steve. Abraço

And I thought I have to go apeshit on design because as an engineer never had a course in Uni about design stage. This is hardcore down to earth course. Thanks. Should I go burn my books now? I'm pretty sure some things would be out of bounds. Would be interesting to see how you adjust things around at the second run.

LM2676, currently on LCSC: 0 in stock :/

Very nice video keep up the good work! ;)

Thanks for the nice tutorial, Steve!

Isn't it suitable to put LC (PI) filter between switcher and linear regulator? Linear regulator (like LM317 and LM337) are very bad at filtering high frequencies which are generated by switcher. Or it does not make much difference?

Steve, greetings from Russia! It's a very good job. Did you save the Gerber files for the PCB? Can I buy them with your SDG authorship or buy a ready-made Board without installing components (or with installing components) through PayPal? I also bought Such a feeltek FY-6900 generator and would like to replace the Power Board. Success in business!

I know the purpose of this video is to show how to design a power supply but for practical purposes why not just pick up a readily available commercially made +5, +/- 15 volt power supply and stick it in the FY6900?

Good job! LIKE 👍

Great video, thanks! I like octopart.com to check parts availability (findchips.com might also work) (checks if farnell, RS, Digikey have the parts in stock.)

Hi there, I did some rather amateurish measurements of the output stage performance of an unmodified FY6800 ( kzbin.info/www/bejne/q2fdgoBpiJpobKM ). In the comments to that video the question arose if with a FY6900 with your redesigned power supply is actually able to drive a 50 Ohm load at 20Vpp set voltage (an unmodified FY6800 can't - output voltage breaks down / waveforms are distorted above 10Vpp set voltage with a 50Ohm load).

I really wish this was edited

So attractive, it's a shame your employer doesn't tap your phone line... Location, maybe?

love the videos but am I the only one that thinks he looks like the angry video game nerd lol its the angry electronics nerd

keep in mind nobody is interesting to your face :) may be for schematics and so :D my hint ;)