With Just $0.50 Components I turned Garbage Products into GOLD!
Ғылым және технология
Sign up for Keysight Live from the Lab here: www.keysight.com/us/en/events...
Try the world's most trusted PCB design software, Altium Designer with 365, for free and 25% off your purchase: www.altium.com/yt/greatscott!
Previous video: • Using the 4G Network t...
AliExpress video: • I tried finding Hidden...
Capacitor video: • How to choose the righ...
Inductor video: • How to choose the righ...
Filter video: • Does a DIY Audio Cross...
You can get the mentioned products and capacitors here: (affiliate links)
Power Supply: s.click.aliexpress.com/e/_Dmz...
5V UPS: s.click.aliexpress.com/e/_DcQ...
Mini Boost Converter: s.click.aliexpress.com/e/_DCw...
Capacitors: www.mouser.de/ProductDetail/S...
www.mouser.de/ProductDetail/S...
Facebook: / greatscottlab
Twitter: / greatscottlab
Instagram: / great.scott.lab
TikTok: / greatscottlab
Discord: / discord
Support me for more videos: www.patreon.com/GreatScott?ty=h
Websites which were shown during the video:
www.prodigit.com/show/how-to-...
www.meanwelldirect.co.uk/glos...
cdn.hackaday.io/files/1829407...
www.ti.com/lit/an/snva871/snv...
www.ti.com/seclit/ml/slup384/...
Thanks to Keysight for sponsoring this video.
0:00 The Problem of my AliExpress Products
1:16 Intro
2:04 Why is Noise/Ripple Bad?
3:39 How to Measure Noise Correctly
4:32 5V UPS Noise Problem
5:46 Solution 1: Post Regulation
7:51 Solution 2: Component Improvement
8:39 Capacitor Replacement
9:55 Other Component Problems
10:49 Mini Boost Converter Fix
Пікірлер: 710
Mad props for clearing up the mistake you made in the other video.
@greatscottlab
Жыл бұрын
I am always open to admitting mistakes :-)
@uncannysnake
Жыл бұрын
@@greatscottlab Didnt check it, but probably an edit of the previous video would be quite useful too. Not everyone in the future is going to watch both
@user-tj2qj5tm1f
Жыл бұрын
Ich habe das gleiche Teil in Verwendung und mich extrem über das Ergebnis gewundert. Ich habe das Netzteil analysiert, da wir Industrie Netzteile suchen, die einen kleinen Formfaktor haben, programmierbar sind und ca 500W bei ca 50V können. Das Netzteil kam in die engere Auswahl. Das Ding ist wirklich gut, da können andere echt einpacken. Das einzige, es hat kein DIN Rail.
@stepheneyles2198
Жыл бұрын
That was both an honourable and brave move, much appreciated! I was thinking to get one of those PSUs, but decided not to when you mentioned the output noise.
@pasterzppp
Жыл бұрын
I've got this in my cart at Ali so now i can buy without doubts
In my opinion, videos like this are some of the most powerful for all the DIY hobbyists. Like me, most of us have no formal training in electronics, but this video gives us very relevant reasons to try and wrap our heads around complex and somewhat arbitrary concepts. Having a broad understanding of what might cause noise or ripple on a power supply / buck-boost converter is in every DIY hobbyist's best interest. Please make more content like this!
The reasons for the component issue may be the lack of knowledge of circuit design, or they just wanted to get it out in a cheap and fast manner. No matter the issues, this video provides a workaround to this issue, and it makes the circuit useful. This the reason that I like videos like this.
@iXenox
Жыл бұрын
Maybe they were using whatever came into the factory as well, no need to bother with a design you can't reliably manufacture.
@hugegamer5988
Жыл бұрын
Even simpler. It’s not a decision an engineer would want to make, these are usually management decisions. It goes like: Engineer: Here is a stripped down minimum count and cost design like you wanted Management: it’s too expensive, cut something! Engineer: But it’s already stripped, it’s not going to work properly! Management: Here you go, make this cheaper because the last guy wouldn’t Unpaid intern: you got it boss!
@pneumantic6297
Жыл бұрын
I doubt it. Something like this is quite fundamental. If the capacitor is 50cents then that is almost a 15% markup and they are competing with other low cost manufacturers. Adding in that cap will just make consumers look at both products, think they are basically the same, and then buy the cheaper alternative anyway.
@qazwsx000xswzaq
Жыл бұрын
I suspect if the manufacturers have even tested their designs before putting them into production.
@vueport99
Жыл бұрын
@@qazwsx000xswzaq they know full well.
You typically do not put large MLCCs on the output of a power supply because when they fail, they fail with a burn so you use small ceramic caps paired with low ESR caps
@tingoyeh4903
6 ай бұрын
I am curious about your answer, so I get deep into it, there is an article from TDK, called"Guide to replacing an electrolytic capacitor with a MLCC", it recommends to replace with MLCC due to their low ESR, long life and small package, but one should be careful about their capacitance will change with temparature and voltage applied to them, also some ICs are intended for electrolytic capacitor, so it might cause some unwanted feedback with MLCC. Also there is a youtube video discuss about fail of MLCC called "EEVblog #1037 - Solving Ceramic Capacitor Cracking ". Large value MLCC can be cracked physically easily, and it might get shorted when that happened, I guess that's why modern hign-end PC motherboard still using the method you said, rather than pure MLCC method.
It REALLY grinds my gears when a product gets ruined by bean counter measures. "Oh we saved a few cents on this device!" "But its complete crap now?" "Who cares? We get money!"
@haydenc2742
Жыл бұрын
That's typical Chinese mentality...
@xXYannuschXx
Жыл бұрын
@@haydenc2742 Not exclusive to chinese stuff.
@deserRGB
Жыл бұрын
This is consumers mentality. People don't care. People want low prices.
@Prophes0r
Жыл бұрын
"Who cares? We get money!" Welcome to Ultra Capitalism...
@GenMcGrievous
Жыл бұрын
@@Prophes0r Applies to communists as well. Who cares, we all get paid the same amount of money!
I was hoping you would do a video like this. Taking cheap aliexpress or ebay electronics that are ALMOST good enough and then cheaply modifying them to fix or improve their performance. You should make more of these.
@technobubba4
Жыл бұрын
YOH - Chinese labor is getting expensive, between their demographic loss and "OUR" re-shoring the supply chain - enjoy while u got it. GOT DAT ??
Ah the classic current loop antenna, that’s why you were picking up all that noise. Any loop will act as a current antenna. And any length of copper, will act as a monopole if adjacent to a ground plane or bipole if connect to a center point. Good luck.
@hugegamer5988
Жыл бұрын
People who liked this also liked working with RF designs, where furrowing your brow rotates you on the smith chart.
@TrickyNekro
Жыл бұрын
Though the change he saw was huge and probably this is also telling for the EMC of those little PCBs.
@Prophes0r
Жыл бұрын
That's why you should always use your devices inside a hermetically sealed bunker surrounded by 10cm copper plate, 1.2m lead plate, and 3m of grounded-steel-reinforced concrete. Everything should be made with pre-nuclear-test materials to reduce self-radiation. The bunker should also be carved into the base of a mountain, or built into the sea-bed with at least 200m of water overhead if you want to block those pesky cosmic rays. You still need to account for all the Neutrinos that can still easily get through, but luckily those usually don't interact with your electronics if they can get through all your other defenses.
@TrickyNekro
Жыл бұрын
@@Prophes0r Just build your swimming pool over your bunker.... ppfff...
@mckryall
Жыл бұрын
@@hugegamer5988 nothing like carving your own ground leads to get the ground loop as short as possible
1. To save money 2. The only people that are going to care/notice are people like us. 3. The people like us know how to fix the problem. My guess. Keep up the good work bud.
@Prophes0r
Жыл бұрын
Care? No. The only people who are likely to KNOW why their thing fails, and also choose not to buy from the same supplier, are us. This is simply capitalism at work. It is more profitable to sell more of a thing that is cheap-but-bad than it is to sell something slightly more expensive-but-better, even accounting for the returns. And since you change the company name/registration for every product, you don't care about repeat business. It's a cynical take, but this really is built-in to the business plan nowadays.
@jonatan_leandoer96
Жыл бұрын
@@Prophes0r no need to bring politics into this
@Prophes0r
Жыл бұрын
@@jonatan_leandoer96 A. It's economics. B. Politics is in everything. It is inescapable, and the desire to escape it is part of the problem.
@jdotoz
Жыл бұрын
Cost is its own spec. If you want higher performance for your use case, be prepared to pay more. If the performance of the cheap part is acceptable, you can pay less for something that satisfies you. ETA: And no, it's not "capitalism," it's scarcity. When resources are limited, it doesn't make sense to spend them on performance you don't need. You need Star Trek replicators to escape this, not a replacement political economy.
@Prophes0r
Жыл бұрын
@@jdotoz Managing scarcity is the PRIMARY job of any economic system. It is WHY we have economies. (Ultra)Capitalism is a BAD economic system because the way we are using it now is tuned almost exclusively to "make money number go up" instead of ACTUALLY managing resource scarcity and distribution. So yes, the problem IS capitalism, because the SYSTEM punishes you for making things well if it costs less to make them worse. None of the economic systems we use now can handle short-term products that break prematurely. They can't self-regulate when there is too much turbulence.
Man, it's crazy how much you can accomplish pretty cost-effectively if you understand electronics. It's something I'm trying to learn, but it's not easy for me to understand electricity and how everything relates to each other. Thanks for the videos, they're helpful in slowly getting more understanding of things.
@boots7859
Жыл бұрын
This is true for anything, from auto mechanics, plumbers, carpenters, yada yada. Outside of basic volts, amps, Ohm's Law, etc, electronics are going to require a fairly deep amount of study/work before you're going to be able to figure much out not too mention fixing a borked design. I've decided to spend the extra 25% or so for something thats generally been shown to be good vs trying to eke out the cheapest component/parts. If I'm trying to cobble something together, the last thing I want to do is be wondering if some pre-made component is even doing what I bought it too do.
@arthurmoore9488
Жыл бұрын
Don't worry about some of these things. The higher the frequency the more electronics starts to look like black magic. That's even to people who have degrees in it or similar fields.
@nolansprojects2840
Жыл бұрын
@@arthurmoore9488lmao, for real. I work in automation and the amount of troubleshooting I have to do with highly sensitive equipment near robots, or other high frequency loads is aggravating. Sometimes the shield isn’t grounded well enough, sometimes the shield is too small, sometimes it’s grounded too well and creates a ground loop that effectively acts like an antenna that picks up RF noise. Part of me loves it, part of me hates it. Haha
@hobbesip1
Жыл бұрын
Man, I've been an electronics hobbyist since the late 1980's, and I'm always surprised at how little I know. Just keep tinkering. And when you get a chance to use an oscilloscope, seize the opportunity
@Rob34570
Жыл бұрын
You answered it yourself- to save 50c
I never knew to check temperature to check out components in a design to see if good or bad. Only to look for a broken component(s) when fixing. Maybe they stole an incomplete design from someone else? Lazy? Possibly just stupid? 🎉 I am still learning. I bought an old radio/cassette player and a radio clock alarm that both work to study on. I will use your temperature trick to maybe improve them. Thank you for giving us a great channel with interesting projects.
@greatscottlab
Жыл бұрын
Thanks for the feedback :-) And you are welcome 🙂 I love to make this show.
@chitlitlah
Жыл бұрын
Your devices were probably made in the 90s or earlier, so I wouldn't count on them having the same trashy engineering as modern devices from AliExpress. Good luck with your endeavors though.
@hydrocarbon8272
Жыл бұрын
High frequencies tend to cause caps & mosfets to heat, for different reasons, but the solution is pretty much the same: lower the resistance. Low ESR caps have much lower resistance, and 'bigger' mosfets have lower RDSon, which is essentially the resistance that causes most of their heat. It's always funny to see a low-tech troubleshooting technique on high frequency IC's. Elegance in it's simplicity.
@art58wong
Жыл бұрын
Seconded. The diode temp probe is a precise method of spotting an overheating device. Slower but many times better than a finger touch. I'm impressed by your thoroughness.
9:47 your forgetting that at the volume they're producing these at the increase in BOM cost is even less at under 0.19 EUR / piece on orders of 1000. Probably also a slight price decrease at 10k and 25k as well. Therefore at volume this is likely no more than 0.15 - 0.17 EUR in parts, and the lower quality parts they're using probably cost 0.08-0.11 EUR, so we're talking about them pinching literal pennies to not have a better product.
@greatscottlab
Жыл бұрын
True :-) That would make this story even sadder though.
@HerbaMachina
Жыл бұрын
@@greatscottlab yeah unfortunately so. Though I know BigClive in his teardowns of electronics like this from china on aliexpress or otherwise mentions that they tend to have resistors and capacitors overdriven for their intended purpose for whatever reason.
@pappaflammyboi5799
Жыл бұрын
Like literally around 0.08€ savings. That's really sad. Someone should contact the manufacturer and ask them to reconsider their decision.
@jonasstahl9826
Жыл бұрын
@@pappaflammyboi5799 Dont forget about what the product itself cost spending 0,08€ on a 1€ board is a huge increase in price. For most stuff you dont need that clean power, so it is good practice to not build them in.
@pappaflammyboi5799
Жыл бұрын
@@jonasstahl9826 8% is a huge increase in price? Ya, not really.
i love people who owned up their mistakes and correct them!
The electronic load might also introduce some noise, would be better to measure with a pure resistive load.
@Rich-on6fe
Жыл бұрын
Yes this. Might be noisy as hell.
@hugegamer5988
Жыл бұрын
I used a pile of old 1ohm 50W resistors to make a grid on an aluminum plate. You can jumper quite a few different loads and can dissipate lots of heat.
@aliveandwellinisrael2507
Жыл бұрын
How long until the video where he adds a component to the electronic load?
That ringing on the switch node of the inductor can be suppressed with a snubber network and is easily missed, this I know from first hand experience! Also sometimes adding a beefy cap can make things worse, Mach1Designs did an EMC video on the caps and is very helpful in locating noise and killing it.
The tip at 9:56 about measuring temperatures to determine if reactive components have appropriate parameters was really helpful. That point alone made this video valuable.
Great walk-through of the process as always Thanks for sharing your experience and solutions with all of us 👍 😀
You are the example of someone who not only passes his exams but also completely understands what he has studied. Good work 👏👏👏
You have quite an assortment of nice tools, that and the knowledge to use them properly makes all the difference
For the UPS I simply replaced the 2x220 uF capacitors with a 22 uF tantalum low ESR and a 470uF electrolytic as recommended by the chip data sheet. That cleaned up the noise. I used 1x probe and attenuation.
@TruthLoversKoSALAM-fg8dh
Жыл бұрын
Can i use 2x 4700uF 16v on the output instead? I only have these at hand or the 10v 1000uF ones. 😅
My guess for why they didn't go the slightly more expensive route is sourcing. This is all guesswork mind you, but if they produce in house, it's only costing them pennies per. One thing I've noticed about Ali is many vendors offer the same product at different prices, so that would explain why they want to keep the price low...sort of a lowest bidder thing. Lastly, the 50 cent price you quoted is the retail price, so it would slightly increase their profit margin as they'd be paying wholesale. 😊
@boots7859
Жыл бұрын
For a lot of stuff on Ali/AE, there are one or two companies making gajillions of these as OEM-Contract. Some resellers want different color silkscreen, some spec differrent values for some components to get a lower BOM, etc. Chinese business looks at cost cutting as the primary goal bar none. Doesn't matter if it impact the specs of these design, unless/until they are called on it and IF they can be forced to pay some sort of remuneration. It is always worth it to keep value engineering a design/product which leads to higher profit, until/unless they are forced to remunerate. There is not a lot of care/f*cks given for 'Reputation' as you see from Japanese, EU, Noram companies. Talk to some engineers from China, and they will all admit it. They don't like seeing their work cut down to out of spec anymore than anyone else.
Great Scott makes a mistake: false noise signals I make a mistake: *MAGIC SMOKE ESCAPES* 😂
Thank you for this video, especially the info on how to check for noise on the DC supply using an oscilloscope.
Great video! It's amazing to me how often a single capacitor can fix big issues in electronics 😁
Thank you Scott I have that exact same boost converter now I have to just add that capacitor in parallel to my output terminal. Love your videos 😍😍
I think it is because of cost. Like the MT3608 boost converter, here in Indonesia it listed around 5200 to 6500 IDR (0.32€ to 0.37€). By adding the better ceramic capacitor priced 0.5€, imagine how much it affecting the price. For me, the initial design is more than enough, reminding the price is dirt cheap. Unless for specific reason I need to modify, like the one you tell about creating negative voltage, I'm set my expectation according to the price I paid 😅
@wpyoga
11 ай бұрын
Well, a 20% 22uF MLCC costs 500 IDR (0.03 EUR) on Indonesia's Tokoijo, and the manufacturer would have been able to source it for cheaper. So it's not an excuse.
Awesome! Ordered the power supply. Thank you so much for testing 👌
@greatscottlab
Жыл бұрын
You're welcome ;-)
Very clearly presented information, even I have understood this with my limited knowledge. Love electronic and what can be done with it. Thanks so much.
This was a very interesting and also useful video! I found especially interesting the bandwidth limit on the oscilloscope. Can you make a video to explain why it's limited during official measurements, the implications about having strong peaks beyond that bandwidth limit and how to absorb them if so desired (I know this part: ferrites rings/beads around the wire). Thanks!
The side ground pin in the oscilloscope probe is a very nice solution. A spring loaded measuring pin would still improve measuring a shivering hand (a so called test pin "needle" for production beds).
@greatscottlab
Жыл бұрын
Thanks for the feedback :-)
BTW, good on ya, for showing the error in probing technique! It is *such* a common issue that it's kind of like "is the power plugged in" question for oscilloscope AEs !
One of the 1st things our teachers told us at LTI is the difference between an expensive VCR and a cheap VCR is a 5 cent component. Like they will use a 1/4 watt resistor to dissipate a 1/4 watt of power rather than using a half watt resistor. Everything today is built down to a price, its the race to the bottom which got us lots of cheap junk.
I always see keysight sponsoring many electronics chanbels but it would be nice if you could make a video how it looks inside one of their mesuring devices (maybe you could get a broken one or something from keysight from their rma or something like that )
Great video -- your educational content is phenomenal!
I love that hot plate for component removal at the end.
They might just do that now. We are constantly reinventing the wheel and working towards making something as efficient as possible. Thanks for the videos you put out man it has significantly added to my progression of circuit design.
Honestly, if it's a $0.50 component, that's why they didn't include it. They're shaving pennies off of the price of these things and producing them in huge numbers with tiny profits to stay in business. A device that is 90% effective is good enough from that viewpoint.
i liked how you took the images of the components from the circuit and put them in a sketch
@greatscottlab
Жыл бұрын
Thanks :-)
I was struggling so hard to find the right keywords to google this exact problem… THANK YOU❤
That's a wonderful example of what a difference good capacitors make. I'm amazed that the short probe ground wire makes such a difference. Have you tried measuring at 20MHz with the ground wire?
@oliverer3
6 ай бұрын
It might be partially because it was so close to the unshielded switching inductor.
A lot of noise I deal with in electronics is 60 hertz noise because all the power supplies use a iron core transformer instead of a ferrite core transformer and the reason why that makes a difference is because all iron core transformers run at 50 or 60 hertz well ferrite transformers run at higher frequencies. And 60 hertz noise is very noticeable if you're using inductors and highly sensitive electronics
Respect for owning up to your mistake and educating others! Thank you!
To reduce heat dissipation of lineal regulators consider using an LDO that has only 0.1 to 0.5V drop, and use a lower input voltage :)
Congratulations from Belgium and thank you for sharing.
One major contributing factor to noisy outputs on many cheap/Asian Aliexpress-alike regulators is poor layout. Take e.g. 8:50 - they use polygon pours to reduce impedance (good) and provide more thermal mass/lower thermal resistance (good), but all the components are still awfully, widely spaced, leaving still considerable inductances, which is especially bad on the switch node, as it has high current ripple. As V = L * di/dt and your L (trace inductance) is high, your di is high and your dt is small, this creates ripple noise. And as layout is something inherent to your PCB (it IS your PCB basically), you cannot easily change the noise created from bad layout. Even the best components can deliver embarrasing performance if you do not do the layout right. Remeber, electronics is not so much about charges moving, but about controlling and containing your fields. But there are far more talented people out there, which can explain that in much better detail and accuracy.
Nice, I have a project where I need this ups, thanks a lot, I wasn't looking for this at this exact moment but it just what I needed
Great video again! 👍 When dealing with digital circuits, I rarely find myself having to deal with noise problems. Noise only becomes a factor when I'm working with analogue circuits. I often use a linear voltage regulator in combination with a low pass filter(LC or RC with low-value resistor) and of course decent decoupling for every chip. And it rarely stops there, one must consider whether circuit isolation is necessary to prevent current loops, as well as determine if guard traces should be implemented(for example an opamp circuit with high impedance load), etc.
I actually got the UPS from the last finding hidden gems video and it works really well
@greatscottlab
Жыл бұрын
Glad to hear it :-)
@oyvindrepvik
Жыл бұрын
@@greatscottlab I did too. Can the same value caps be used when the output is 12V?
@deserRGB
Жыл бұрын
I also want to know. I bought 2 of each, 5V, 9V and 12V, for alarm/cameras and just in case. One seller has it for 4$ each and there was also 1$ from 5$ coupon for playing (and losing) in Go go match game, but this promo ended. So they were really cheap.
@RayRayfrfr
Жыл бұрын
@@oyvindrepvik I think so
Wow! Great job, and a very useful and informative video.
8:14 i love how you put the images of components next to the schematic components -- for those of us trying to take self learning electronics seriously, it massively helps our brains put to mind the components as if they were legos (but the various values of each 'lego' is like the lego color). Next after looking at this for a while as a reference during test building on our own, the schematic components begin to fit like a catalog in our brains before we even realize it. I hope i not sounding too nuts but this really works for my brain very exceleratredly, ty for this idea and i hope you and others do that much more often -- even if just once before you do the red pen work on the circuit would be a big help ^_^ p.s. i have loved your work for last many years, ty for keep doing your channel ! 😀
I ordered the parts from Mouser, so now the two UPS devices going to get the upgrade. I even have 5 of those boost converters to that I will do the same with. Thanks for this great fix video. Great stuff as always. Now I just need to find a cheap-ass oscilloscope, so I can test other electronics I have lying around.
This is actually such good content. I love learning this on my own even though i’m a CS student
Thanks Jeremy❤🎉❤ Need a video on how to design a LPF for a switching converter.
Thanks, I use those and don't have the knowledge or time to dive into this like you do. That was extremely helpful, since the fix doesn't require more than basic skills :)
Great, Scott! Amazing analysis!!! Thanks!
@greatscottlab
Жыл бұрын
Glad you liked it ;-)
I used to do component level troubleshooting for a manufacturer of cable tv monitoring equipment. Here is the answer to the question of why don't they use better components, at least for them. Their engineering team used 1% tolerance parts when designing and prototyping. They would hand off the list of components needed never specifying what tolerance (if any) of parts should be used. Naturally, procurement bought the cheapest stuff they could find. I practically begged management to let me talk to the engineering team. They finally brought one guy down. I sat him down, showed him the log I had been keeping, and the exact parts that needed tighter tolerances. In this case it turned out to be the inductors in a frequency generation circuit. The board pass/fail rate jumped to over 70% (it was in the upper 50's). My big reward for figuring that out was I got to be the end of the line guy. If I couldn't fix it, it went into the trash. I didn't last long there
@GreatScott! In the video (11:11) you say "2.2uF", the link goes to a 22uF capa... What is right? Or do i just not understand? Thank you!
thanks for all elctronic helping video and contents,good luck
Excellent content as always,, Thank You for sharing .. Cheers :)
Oftentimes, these boards are based around one key component, i.e. the regulator IC. If you were to reverse engineer the board and compare the resulting schematics to the IC's reference design, you'll find probably little to no differences. And very often, the designers doesn't really pay much attention to the textual parts of the datasheet that explains the values and different usage cases, or just use one calculation for all their product runs (i.e. the same capacitors for fixed 3.3V, 5V, 12V and variable variants of the board). Also, the reason they won't add it is cost and availability. They already most likely have tens of thousands of cheap small mlcc caps around, adding one to the output won't change the BOM cost by much, but also doesn't have to affect the output in the desirable way, or even hurt it. Thank you for showing us this
Actually ended up using one of the smaller ones for an amp, and had added a larger capacitor to the output to support the bass. good to know it's probably helping with noise as well.
The boost converter in the thumbnail will instantly combust if you accidentally short it.
Great Scott!! You guys are so smart! I am amazin...
'If your PCB design is garbage' - had me in stitches, hope the sellers of that circuit see this video and take note!
I learned a lot in this video, thank you!
I always try not to use the GND spring, it is a bit of a pain. But yeah it makes a big difference for noise and "high" frequency signals
Hi, which (de)solderplate you use at the end of your video?
50 cents can be a lot on a large scale production. Aluminum caps are easily replaceble and do less damage the board than the ceramic ones when they fail.
Fascinating stuff! Thanks for all the tips, dude! 😃 Stay safe there with your family! 🖖😊
@greatscottlab
Жыл бұрын
Thanks and you are welcome :-)
Quality Stuff! Thank you!
I bought the UPS circuit in 5V and 12V versions, but I've received 9V instead of 12V, so from this video I've easily recognised the resistors to swap for the voltage divider, but buying the exact components is not feasible due to the shipping costs, so I went to the harvest route. The problem is that my multimeter is not very good at measuring resistance, so I harvested some similar resistor from another circuit that had similar resistance without really knowing the exact number. Well the good part is that I managed to obtain 7V, 10V, 13,5V and 20V and left it at 13,5 that is the most similar (also should allow more power and staying close to 12V during high loads). It will be useful to know the exact resistance, maybe you could pick it up again and make a couple of final upgrades: a potentiometer to regulate the voltage and an interruptor to disconnect the batteries when not needed. Maybe design a cool box 🙃. Having a clean output is not always critical, especially if I know such regulation is done at the receiving end.
@Luke-san
6 ай бұрын
Just received mine, a 5V and a 12V. Will be using 1 for a solar project. Just be careful with the voltages! Capacitors seem rated at 16V max and I would stay at least 10 to 20% below that. Checked my 12V version and that smd resistor R7 has a marking 9092 which is 90.9 KOhm or 90.900 Ohm. Also the board has been changed as his has R7 and R7* . The R7* has turned into R12. I would always opt for a clean output. Spikes can produce noise on radios if you use longer wires and in some cases cause strange effects. I always also place a 100nF cap on the input and output.
Was just getting ready to send some Gerber files to the PCB place, now I have to make a few capacitor changes first. AAAARGH!...more work but I'm thankful for the knowledge! I get to Deutschland again I owe you a bier!...Prost my friend!
Thank u Sir for sharing! Salute!
0:01 VTEC just kicked in, yo!
Hi, would you replace the same capacitors for the 12v UPS board?
Technically, they didn't need to raise the price by 50 cents, the other 2 capacitors won't be needed anymore therefore the cost would cover these new 2. The reality is that this board was designed by someone that either didn't take noise into consideration by accident or didn't care about it at all.
I was confused when you mentioned the very high pp noise value in the prev video cz I have this power supply and it works according to specs and the manufacturer is very keen on improving their products. I also assumed noise pickup. Assumed adding a very small resistive load would fix it. Thanks for revisiting the test!
A lot of people don't understand ceramic capacitor dielectrics. Y5V ceramic capacitors are cheap but can lose 90%+ of their capacitance at elevated temperatures and also generally have poor ESR/ESL. X5R and X7R etc are much better but cost more. I never bother with Y5V and stick with X5R/X7R/X8R/C0G depending on the application. Standard aluminium electros usually also are only effective up to maybe 200kHz. Above that you really need to use polymer and/or tantalum caps or paralleled ceramics.
I have a bunch of those same buck converters that I'd like to fix, but the links provided are for a 22uf and 1uf capacitor, but the video mentions a 2.2 uf on the output? So which one is correct to fix the final small buck converter? The 22uf link or the 2.2uf mentioned in the video? Thanks in advance for your time to answer.
There is a reason why I always use a high quality 100nF capacitors over Voltage rails and most of the times in parallel over bigger caps. You can clearly see a lot of garbage, aka noise, when not doing so. For reducing RF that these switched things can cause also use ferrit to stop interference. Some of these Chinese pcb's are really well designed and then you order another one and measurements are different. Bad capacitors, change in pcb layout to make it cheaper. A bit of a lottery. That last pcb, released some smoke on those. They will go into self destruct like you said, but I still like them a lot.
At high frequencies such as in these switching power supplies, standard electrolytic capacitors have too high of an “equivalent series resistance” (ESR) and should not be used in this type of application; that ESR leads to excessive heating. Low ESR electrolytic capacitors are designed for these applications. The small ceramic capacitor heating up is a bit surprising since they are intended for use with high frequencies; perhaps that was a cheaply made part, and that is why it showed a higher than expected temperature.
@greatscottlab
Жыл бұрын
Or the ceramic one had to do all the work and was more or less "overloaded"
There are plenty of off-the-shelf USB Battery Banks that can replicate the 5Vdc "UPS" function. They'll output 5Vdc even when charging, or not charging. You don't need to go out of your way to buy one; you probably already have several.
When switching to the MLCCs, why the smaller capacitance? Is it a limitation of what's available or do you not need as much capacitance when the other properties are better?
this explains issues i ws having using one of these cheap dc to dc converters as the supply for a little analog computer i was building. it never integrated right and clearly didn't have a stable input.
great and very useful! make more video like this one
In order to make sure you're not looking at a fft waveform you can turn on persistence if your scope has that function.
Ah… the good old “didn’t check the SRF of the caps” problem
I bought some of the small MT3608 boost converters and i also measured some pretty bad noise at higher output currents. Adding a 1,5uF ceramic capacitor and the problem is fixed. The ceramic caps I used literally cost 6 cents per piece
Hi, thanks for the video, just want to ask: what is the size of the booster capacitor that you use? the 1206 or the 1210?, thanks
Mostly anything where you don't want noise (not audio/frequently changing output) you usually just have to add a capacitor to level the voltage
just ordered a few of those ceramic caps, i do like using those nifty things. Do you reckon it would work on a custom PCB that is based on the MT3606?
Two 100K ohm resistors, a 2.5 V reference diode, and an OpAmp and you can also get a very stable 5V with current up to the opamp’s output current rating. Also, thank you for admitting a mistake, many wouldn’t be willing to say that, very cool!
Hi, GreatScott what's the device with the pcu fan red, can we test battery capacity with? Thx for your answer !!
amazing content. thanks!
this helped me, thanks
Hi Scott, I was wondering if you could do a video to show how to connect a VFD with a single phase capacitor start motor. Thank you
Thank you very much for the video. How could you make the UPS not charge the battery at such a high voltage? For example, charge it only at 4.1v to increase battery life. Thank you so much
Those capacitor pics near the end looked like houses in pubg while theyre not loaded in
Nice video, thanks. Testing a power supply with constant current makes easy life for the PS. A real load (e.g. MCU board) will make rapid changes in current.
Well mt3608 module comes with 10uF MLCC on the output already, just wondering how does 2.2uf additional cap could make such difference in noise reduction ?
I gave you a sub. probably wont notice, but it's so eye opening. Your entire channel.