Finally a cheap power supply that is not dodgy, but actually very good, even for it being made down to a price point. Other manufacturers should make them to the same standard.
Refreshing indeed! Inexpensive, but not cheap. It even has a low value resistor in series with the auxiliary rectification diode to protect the bootstrap capacitors in the auxiliary supply. Usually, that's not there and it grossly exceeds the ripple current ratings at start-up, and the thing ends up in a landfill in six months after the little cap dries out or bulges. I did the same thing in an SMPS I made for myself, but I think that's the first time I've seen a commercial supply in a tear down with it. It's probably a common feature in reputable supplies, but most of these things are built down to cost oblivion.
I bought one charger as this, about 12 years ago. It still works/uses (sold at that time) a linear power supply, a heavier “brick” wall power adapter, with those low frequency ferromagnetic transformers, rectifier and capacitive filtering - that is it. Voltage was manually selected, “of course” ;-)) I’m curious to see your other video about the Charger section - I saw now you had already posted it. Thanks for sharing!
Thank you Danny. It would be interesting if you could discuss the differences between some of the power supply topologies such as fly back compared to other types. Great informative video👍
Good to show the output ripple, thanks! I’m curious what the output ripple of those USB chargers will be and if there are significant differences between them. Thanks for your always very informative and interesting videos! PS. I hope your sense of smell coming back.
This video is part of the reason why Elon Musk says going to college is not so necessary right now. There is just so much to learn of TH-cam alone. I love these videos. There's always so much to learn. I have been away working on my channel....What did I miss!!!
Interesting that the charger’s left and right flap for AAAs move independently despite the manual forbidding you from mixing battery sizes. I think it is an oversight but maybe the creators wanted a little more versality (you can charge 2 AAs and 2 AAAs overnight at a safe current if you put the AAAs on the left side where the flap position is checked).
You can't charge 2 AAs and 2 AAAs, it uses the same current for all. It also terminates the charging for all batteries at the same moment. The AAs would not fully charge and the AAAs would overcharge.
@@DiodeGoneWild Yes, it senses the voltage of all batteries in series but I am not sure if you can overcharge a NiMH/NiCd cell, as they dissipate remaining energy as heat, so the AAAs would just keep toasting for a while while the AAs get (almost) topped up. So does not give great results but they are useful sometimes. Also, you would use the charging current optimised for AAAs so that they don’t experience overcurrent. Yes, it is a bad idea to combine cell types but if you know the inner workings of your charger, you can use this “option” in very specific circumstances, understanding what it actually does... But at that point such person would be probably skilled enough to modify their charger to accept mixed battery types at AAA current.
You can't overcharge NiMH/NiCd at a low charging current (0.1C, maybe 0.2C), but overcharging them at a higher current would damage them. 350mA for a typical AAA (about 900mAh) is almost a 0.4C charge rate.
Could you do a video series on explaining the internal schematics of different analog IC's? Like for example the mentioned TL431 (ti datasheet, Figure 24. Detailed Schematic), opamps, comparators etc.
Never thought that the power supply could be designed thinking that the load would have more capacitors, makes sense! So, plugging the power supply from one equipment to another might not be a great idea even if the voltage and current are the same.
Every chance I get to snatch up a name brand power supply, I jump on it. Big companies are scared of being sued. The other day, I found 2 Motorola cable modems someone was throwing out, complete with 12V 1A adapters. Grabbed the power supplies and left the modems for the recycling truck.
Yay, "dangerous USB phone chargers 11" coming up then :). Anyway, nice analysis of the power supply... now I really want to see how safe the transformer is, because there are too many deices out there with dodgy electronics and poor electrical safety.
It would be great if you could do a tutorial series of different SMPS topologies so that you would start with the simplest possible circuit and after explaining the core working principle would gradually add all of the other components like seen with this actual PSU. For noobs like me these sort of complete circuits look very confusing and you tend to go through the workings pretty fast. I haven't really found such tutorials so I think you'd be doing a big favor for many.
Zdravím Vás, děkuji za velmi poučná videa, které mi pomáhají pochopit principy činnosti spínaných zdrojů. Měl bych dotaz ke způsobu souběžného měření průběhů napětí na primární straně a sekundární straně pomocí osciloskopu. Jakým způsobem provádíte toto měření, máte nulový potenciál (zem osciloskopu) pouze na primární straně zdroje, nebo nulové potenciály primární a sekundární strany zdroje spojíte? Není potom problémem spojení obou nulových potenciálů (samozřejmě předpokládám použití izolačního transformátoru). Děkuji a přeji mnoho energie do dalších videí.
ironically - the power supply uses standard screw and the 12V charger the safety type screws. should be other way round ? also the GS logo is obsolete for 2 decades...
a remark - 2 things i would find interesting in charger review: - can you test the fusible resistors in terms of fuse functionality - what current actually triggers them. and line current would be interesting to see how badly they are actually filtered
I wish all chinese PSUs were as well made. Not a safety issue but i was a little surprised that the switching IC had up to 340v between adjacent 8 pin IC pins but I checked and it is enough of a gap.
can you show oscilloscope wave form for the transistor in the optocoupler is it PWM feedback or the transistor acts as variable resistance in the feedback loop?
The optocoupler works in its linear region. The transistor acts as a "variable resistance", or more accurately, it can only pass a current proportional to the IR LED current. Optocouplers have a certain transfer ratio. If its 1 and the led gets lets say 5mA, the transistor will only be able to pass currents up to 5mA.
I can’t wait for the electrocution death ☠️ devices in your next video!!!! I love ❤️ when you tear things down and reverse 🔄 engineering with oscilloscope measurements too 🙃
Thank you. Can you please explain the need of isolation transformers when we need to prob the premary winding with that grounded scope?. What happens without isolation transformers.
This would be a nice video in Diodes style, but basically without isolation the scope internal 0V gets connected to ground and that can be live causing a short and your hard earned money goes down the drain.
Here's a much better description of what is happening with your scope and mains supply th-cam.com/video/xaELqAo4kkQ/w-d-xo.html Dave Jones puts this much better than I do !
@@andymouse Thank you. Yes this EEVblog video is in my oscilloscope playlist. Using an isolated transformers turns that mains earth reference power supply into a isolated power supply. But i think he can disonnect the oscilloscope mains earth from IEC main connector instead of using an isolated transformer.
@@baghdadiabdellatif1581 Yes you can do that, I have worked in labs that do but it is generally frowned upon, I think its ok if its your scope and you understand and also that the plug is marked up clearly to indicate that there is no earth just in case someone else uses it !
@@andymouse Thank you. I think in this case is better to probing a primary smps with disconnected power strip mains earth for the oscilloscope instead of an oscilloscope with disoldred mains earth.
Trochę drogi, w tme śpiewają sobie za niego 200 zł ;/ Trafo o 10x mniejszej mocy kosztuje 70 zł, więc jeśli nie potrzeba 200 VA to chyba taniej sczepić dupami dwa małe trafo z demontażu
Finally a cheap power supply that is not dodgy, but actually very good, even for it being made down to a price point. Other manufacturers should make them to the same standard.
He didn't even open up the transformer, also I wouldn't call it good for running in DCM
Refreshing indeed! Inexpensive, but not cheap. It even has a low value resistor in series with the auxiliary rectification diode to protect the bootstrap capacitors in the auxiliary supply. Usually, that's not there and it grossly exceeds the ripple current ratings at start-up, and the thing ends up in a landfill in six months after the little cap dries out or bulges. I did the same thing in an SMPS I made for myself, but I think that's the first time I've seen a commercial supply in a tear down with it. It's probably a common feature in reputable supplies, but most of these things are built down to cost oblivion.
I'll never get tired of your cat interjecting in these videos. 😺
Power supply videos are always welcome on this channel.
We love your presentation style, pronounciation, the way you torture these devices and offcourse your cute cat.
Thanks Sr. , love your videos. You can realize how rich a man is when He shares
I bought one charger as this, about 12 years ago. It still works/uses (sold at that time) a linear power supply, a heavier “brick” wall power adapter, with those low frequency ferromagnetic transformers, rectifier and capacitive filtering - that is it. Voltage was manually selected, “of course” ;-))
I’m curious to see your other video about the Charger section - I saw now you had already posted it.
Thanks for sharing!
Thank you Danny. It would be interesting if you could discuss the differences between some of the power supply topologies such as fly back compared to other types. Great informative video👍
Today i learn more about the tl431 and those resistors, never really know exactly how they work. Thanks for you wonderful explanation
Good to show the output ripple, thanks!
I’m curious what the output ripple of those USB chargers will be and if there are significant differences between them.
Thanks for your always very informative and interesting videos! PS. I hope your sense of smell coming back.
Can we appreciate the entertaining video this man is making while having corona, he has a willpower over 9000!!
Hopefully he have only mild symptoms.
Love your schematics! They are very professional and very helpful! Especially your explanation keep it up!
This video is part of the reason why Elon Musk says going to college is not so necessary right now. There is just so much to learn of TH-cam alone.
I love these videos. There's always so much to learn.
I have been away working on my channel....What did I miss!!!
Polish transformer at 7:50 😁💪
Those Lidl Tronic NiMHs are some of the best I've used
Interesting that the charger’s left and right flap for AAAs move independently despite the manual forbidding you from mixing battery sizes. I think it is an oversight but maybe the creators wanted a little more versality (you can charge 2 AAs and 2 AAAs overnight at a safe current if you put the AAAs on the left side where the flap position is checked).
You can't charge 2 AAs and 2 AAAs, it uses the same current for all. It also terminates the charging for all batteries at the same moment. The AAs would not fully charge and the AAAs would overcharge.
@@DiodeGoneWild Yes, it senses the voltage of all batteries in series but I am not sure if you can overcharge a NiMH/NiCd cell, as they dissipate remaining energy as heat, so the AAAs would just keep toasting for a while while the AAs get (almost) topped up. So does not give great results but they are useful sometimes. Also, you would use the charging current optimised for AAAs so that they don’t experience overcurrent. Yes, it is a bad idea to combine cell types but if you know the inner workings of your charger, you can use this “option” in very specific circumstances, understanding what it actually does... But at that point such person would be probably skilled enough to modify their charger to accept mixed battery types at AAA current.
You can't overcharge NiMH/NiCd at a low charging current (0.1C, maybe 0.2C), but overcharging them at a higher current would damage them. 350mA for a typical AAA (about 900mAh) is almost a 0.4C charge rate.
@@DiodeGoneWild You are right, I forgot about that...
Could you do a video series on explaining the internal schematics of different analog IC's?
Like for example the mentioned TL431 (ti datasheet, Figure 24. Detailed Schematic), opamps, comparators etc.
Never thought that the power supply could be designed thinking that the load would have more capacitors, makes sense! So, plugging the power supply from one equipment to another might not be a great idea even if the voltage and current are the same.
Flyback is especially great in drones.
Hey Danie, you sound better. Keep these good videos
Great dissection and explanation video.....many thanks, DGW!
Every chance I get to snatch up a name brand power supply, I jump on it. Big companies are scared of being sued.
The other day, I found 2 Motorola cable modems someone was throwing out, complete with 12V 1A adapters. Grabbed the power supplies and left the modems for the recycling truck.
For the locked AAA rechargeable battery you need the put down positive contacts of the charger.
Nice videos, keep going on. I'm very interested to see how other build their SMPS. Low or high power I take everything xD
Glad you didn’t destroy this one.
Yes, me too! I was worried about its transformer being unraveled. Nicely built PSU. It's not often you see that on cheap consumer electronics.
Interesting little Cyrillic Oscilloscope 😁
Polski transformator :-)
Yay, "dangerous USB phone chargers 11" coming up then :).
Anyway, nice analysis of the power supply... now I really want to see how safe the transformer is, because there are too many deices out there with dodgy electronics and poor electrical safety.
Excellent video sir.
It would be great if you could do a tutorial series of different SMPS topologies so that you would start with the simplest possible circuit and after explaining the core working principle would gradually add all of the other components like seen with this actual PSU. For noobs like me these sort of complete circuits look very confusing and you tend to go through the workings pretty fast. I haven't really found such tutorials so I think you'd be doing a big favor for many.
I can definitely recommend Haseeb Electronics for some great explanations on power supplies, as well as many other electronics too.
TH-cam LIKE 544 - ODYSSEY LIKE 03 -- I Have supported the above video with 10 LBC forThe next 7 Days.
Great video. I love your accent!
Great review, however, do you make this thick accent on purpose?
The cat 😸 knows!
Zdravím Vás, děkuji za velmi poučná videa, které mi pomáhají pochopit principy činnosti spínaných zdrojů. Měl bych dotaz ke způsobu souběžného měření průběhů napětí na primární straně a sekundární straně pomocí osciloskopu. Jakým způsobem provádíte toto měření, máte nulový potenciál (zem osciloskopu) pouze na primární straně zdroje, nebo nulové potenciály primární a sekundární strany zdroje spojíte? Není potom problémem spojení obou nulových potenciálů (samozřejmě předpokládám použití izolačního transformátoru). Děkuji a přeji mnoho energie do dalších videí.
Měl to ve videu zapojené přes variak a pak přes izolační trafo :)
How does a Capacitor between primary and secondary help?
Great video, where did you get your isolation transformer and was it loads of money please ?....cheers.
Very nice technical explanation of the circuit.
Can you explain the use and function of interference capacitor connected between primary and secondary of a transformer in an smps
He has covered its function in some other videos on SMPS designs. See: th-cam.com/video/cYN39g6qs-Q/w-d-xo.html
@@mysock351C
th-cam.com/video/jCuISR1brCY/w-d-xo.html
Is this and that are same
Nice info... 👍
Please make a video showing us your technique of reverse engineering those schematics. Thank you!
ironically - the power supply uses standard screw and the 12V charger the safety type screws. should be other way round ? also the GS logo is obsolete for 2 decades...
a remark - 2 things i would find interesting in charger review: - can you test the fusible resistors in terms of fuse functionality - what current actually triggers them. and line current would be interesting to see how badly they are actually filtered
Nice video.
Nice clean waveforms and a nice safe transformer 😀
I wish all chinese PSUs were as well made. Not a safety issue but i was a little surprised that the switching IC had up to 340v between adjacent 8 pin IC pins but I checked and it is enough of a gap.
Hello, could you test the Chinese universal LCD chargers for 3.7V batteries?
wanted to ask is a power adapter safe if it has ntc thermistor and interference coil removed and bridged
can you show oscilloscope wave form for the transistor in the optocoupler is it PWM feedback or the transistor acts as variable resistance in the feedback loop?
The optocoupler works in its linear region. The transistor acts as a "variable resistance", or more accurately, it can only pass a current proportional to the IR LED current. Optocouplers have a certain transfer ratio. If its 1 and the led gets lets say 5mA, the transistor will only be able to pass currents up to 5mA.
Why there are so many different circuits for a SMPS? Can be 1 or 2 depending the cost savings and deliverable power?
Dismantle??
I can’t wait for the electrocution death ☠️ devices in your next video!!!!
I love ❤️ when you tear things down and reverse 🔄 engineering with oscilloscope measurements too 🙃
is this a switch mode supply or is it called someting else? ix there a website that explains this kind of power supply?
MAKE VIDEO OF MEANWELL SMPS LRS SERIES
So, the verdict? Not dodgy?
Probably Nice.
Thank you.
Can you please explain the need of isolation transformers when we need to prob the premary winding with that grounded scope?. What happens without isolation transformers.
This would be a nice video in Diodes style, but basically without isolation the scope internal 0V gets connected to ground and that can be live causing a short and your hard earned money goes down the drain.
Here's a much better description of what is happening with your scope and mains supply th-cam.com/video/xaELqAo4kkQ/w-d-xo.html Dave Jones puts this much better than I do !
@@andymouse Thank you.
Yes this EEVblog video is in my oscilloscope playlist.
Using an isolated transformers turns that mains earth reference power supply into a isolated power supply.
But i think he can disonnect the oscilloscope mains earth from IEC main connector instead of using an isolated transformer.
@@baghdadiabdellatif1581 Yes you can do that, I have worked in labs that do but it is generally frowned upon, I think its ok if its your scope and you understand and also that the plug is marked up clearly to indicate that there is no earth just in case someone else uses it !
@@andymouse Thank you.
I think in this case is better to probing a primary smps with disconnected power strip mains earth for the oscilloscope instead of an oscilloscope with disoldred mains earth.
Or some people are just interested in both, the PSU and the ("dodgy") chargers :)
Flyback
UWAGA: Nie przenosić transformatora za przewody!
Trochę drogi, w tme śpiewają sobie za niego 200 zł ;/
Trafo o 10x mniejszej mocy kosztuje 70 zł, więc jeśli nie potrzeba 200 VA to chyba taniej sczepić dupami dwa małe trafo z demontażu
I think we need more salt..
Made in 2010 ...
Ah, was it? I didn't notice that. That explains the well-made PSU.