This will actually work pretty well for switching applications, but, you're right for linear applications. At gate threshold, the devices won't current share very well. As long as you make a clean, fast switch above and well below threshold, there won't be enough difference for long enough, to make a difference.
@@vincentrobinette1507 in switching application you need to balance the gates too, also the mounting on heatsink must be well made to make them works on same temperature, there are some mounting scheme to make it properly.. otherwise the hottest one will fail in a very short time. But this is only a fun project, useless in real world.
they actually doing this in some high end bms, as long as you fets comes from the same batch, same production number, there will be a low difference and almost the same tolerances
Probably get hot enough to melt the solder thus creating a short circuit. What would 60v @ 600amps uncontrolled do to the other circuits in whatever you put this in? Connected to grid AC power? Better call the fire dept before you throw the switch and hope the circuit breakers in your house work correctly.
He glued the pcb to the big heatsink. It should get quite warm under operation. But would be nice if he electrically connected them as well, of course.
@@clomads did ya know that heat is transferred is THREE DIFFERENT F*IN WAYS, *Conduction *Convection *RADIATION* That resin will surely RADIATE HEAT DARK COLORS ARE GOOD ABSORBERS AND EMITTERS OF HEAT.
what is the point of attaching a chunk of Aluminium on the back of a fibre glass PCB? Fibre Glass is a good thermal insulator... if you wanted thermal conductivity you should have used double sided PCB with through plated holes to provide a thermally conductive path to the rear of the board through soldered the pads and flatted them with 800 grit on a glass pane and then used thermal compound to connect the pads to the aluminium tab... it will always be a compromise but ideally switching mosfets should never be dissipating much waste heat... if they are they are not being driven correctly or in a balanced way... which is very likely with this design.
To earn money i suppose because in india there are many people who are uneducated i don't mean that way but yeah they see these types of video like free energ@@orange_tweleve
A lot of experts out there to tell a guy how they'd do it correctly if it was them. But it wasn't them. It's easier to criticize someone else's work than to create your own I guess.
yeah I don't get why you'd faff with spacing those links up and over the traces. You could just route them on the other side of the board and it'd be way easier and better insulated. This looks like a video by someone copying another video not actually understanding why they're doing the things they're doing.
the main problem is that in case of paralleling mosfets each gate must have a separate gate resistance, each drain must have a direct contact with the heat sink to dissipate heat
I'd think if the device were exercised with a decent safety buffer, a single point failure would be of no problem at all. If you regularly take it to the absolute limit you can surely fry it in no time, but that's true of everything I can think of.
The one you forget you had laying around in some corner until you fall over it and decide you may as well finish this instead of just throwing it away. You know, the typical DIY stuff :D
I think he just multiplied amps of 1 by # of mosfets. 30×12=600. Being that I'm still learning circuits, I'm not sure if mosfets combine that way although I'm clueless as to why they wouldn't. But then why do capacitors not simply combine ferrets by connecting in parallel. Can anyone educate me(in a short reply) as to which types components(mosfets, transistors, capacitors, resistors, ect) combine amps or volts the same way batteries do and even more useful to me is why & how do they combine or not combine?
I'm a sloppy circuit builder, but I've never zapped a component. And yes, I build a lot. I guess electronic components are some of the few things they make better than they used to.
In all fairness, a lot of ESD damage isn’t catastrophic (i.e. causing immediate total failure), but partial, reducing performance and/or device lifespan. So “I never zapped anything” is actually impossible to know for certain.
Интересно, красиво, забавно получилось. Жаль только, что работать не будет. Лайк за труды, за идею собрать такой транзистор. Надеюсь увидеть видео со следующей версией, где будут затворные резисторы, всё необходимое для согласования, ну и электрические испытания )))
@@user_nicmir транзисторы уложить стоками на алюминиевую пластину, а остальные электроды соединить медной проволокой навесным способом и залить эпоксидной смолой.
I think that you cannot use that mosfet at 600A with 60volt simultaneously (in the same way that you cannot use the 50N06 mosfet at 50A with 60V) . In both cases, go to the datasheet and the SOA maximum (Safe Operation Area) graph and verify that the current can have a voltage within a safe area.
My favorite song in the universe is looping over and over again. Thank you so much for your exquisite selection of whistle song. My life is now complete!
Да тут не транзистор, а дорожка скорее выгорит. Шутник автор. Ни нормальных дорожек, ни охлаждения. Ещё и в смолу закатал. Наверное, чтоб быстрее бахнуло. Зато гордо написал 600 ампер.
@@rodatmars1354 ну 600А это очень-очень много, для таких маленьких транзисторов которые он использовал , + нет нормального охлаждения, так что там максимум 100А
I agree. Assuming this thing actually worked, I world not wait a year (or even a month) for the resin to dry & harden. That would defeat the purpose of any project as it would be much faster to go buy a commercially available unit instead of whatever is the cost of storing this thing unusable for a year.
Good project . But the mosfet are not synchronized together with the current loading. If one corrupted . All will be short circuit . Please feed me back with the test of it . I appreciate it
abed itani he is probably aware of this, but still decided to upload the video Even if this thing is almost useless since the mosfets arent synchronized. It also lacks any actual cooling, as the alu plate is mounted on the pcb which is not thermally conductive.
@@tormodhag6824 yes . Useless to use .but very very beautiful hand made project .he can actually converter other type of IGBT or mosfet type in to 3pin layout and that give me an idea about convert my Linear mosfet (APL502J) in to this 3pin layout but I will do it smaller size
Seems to me that it would be much faster, easier, cheaper, effective, efficient, and SAFER to have just screwed the mosfets to a heat sink bar (with thermo paste) and then connected them in parallel (with caps & resistors). That way you get a better heat dissipation, and when (not 'if') goes bad, you can easily change it out for a new one and be back up and running. No need to wait another year for the resin to harden and cost only 1 mosfet instead of 12 !!!!!!!!!!!! 😒😳
So you can destroy and blow up your project? Sure, success guaranteed!! All these transistor's in line, won't work without failure (yes, and i'm not only talking about the bad heat dissapation, becuase it hasn't) If one transistor fails, all the others will follow nicely without the use of at least diodes!!
how about the heat ... just put fan blower or .... put some Al plate ... how heat conduct to it ... (sure not for long ) what is the purpose of it ... ? 600A ? ... i cant imagine this at home... 60x600=36kW (small power station).... put some wire on a car battery (12vx100A=1.2kw {limited by wire diameter } :] )
Nice! It looks like you wanted to beef up the bus lines, but why did you go with pure solder instead of putting wires flat on top and soldering them in? Just easier to do it that way? Off the cuff, I'd think the bus lines are the main power limitation for this build. Also, I was surprised to see you washing the board with the mosfets on it. I've never done that before. Is it really safe?
Yeah... This isn't going to work as there is nothing balancing these mosfets. If you try to run high currents through this circuit some mosfets will draw more current than the others due to differences in their internal resistance. The one with the lowest internal resistance will fail way too early and this is likely to cause a cascading failure of every single mosfet in this circuit. This could be fixed by adding some resistors to balance the mosfets. But there is nothing, and i really do mean nothing, that can be done about the fact that 600A would vaporize your pcb traces, busses and connecting pins in a matter of seconds. You need to go waaaay bigger. A while back i built a 2V 200A transformer (MOT conversion). It would turn material about as thick as your busses into puddles of molten metal in just 10 seconds. And i could only use it for a few 10 second bursts before the actual car jumper wires i used for my secondary winding started getting too hot as well, and that was some really thick copper wire. Have you ever seen a 600A cable? It has a 120mm2 cross-section!
This ist the most bad soldering technique I've ever seen. Also, you will need resistors in the gate structure of a MOSFet array! You cant just switch them parallel. Also, what about termal resistance of the PCB???
Agreed, the resistance of those joints is off the scale and running the rated current through them would cause serious trouble due to overheating. Also, that's one ugly soldering tip.
Chào bạn, mình thấy video rất hay, và cách làm mạch pcb bằng máy in laser cũng rất hay và sắc nét. Bạn làm video hướng dẫn làm pcb bằng máy laser đi. Cảm ơn bạn
1. Теплоотвод так себе. 2. Эти выводы, как и проводники на плате, не смогут выдержать 600А Поэтому, изделие можно оценить как минимум на 250 полуляхов :) (русскоязычная часть аудитории меня поймет)
also a fun show is too take alternators and replace the coil with ones from motors that are the right size to make them run cooler and convert the larger amperage to voltage automatically. no circuitry needed.
It's a piece of tech art, useless for any practical purpose but in principle it does work. Make a singje ended amplifier from it and audiophiles will love it
Спешу вас разочаровать: алгоритмы основываются на просмотрах, а оставляя комментарии и ставя дизлайки вы продвигаете видео. Лучше нажмите «три точки - не интересует». Должно сработать.
Плюсую, а то думал я один обратил внимание, что алюминий приклеили к текстолиту, хотя разумней было на термопасту к корпусам транзисторов и винтами закрепить сам текстолит и уже потом корпус залить. Хотя по сути зачем это чудо-юдо вообще делать.
don't connect mosfets in parallel like that, some resistor and capacity are needed to balance the gates , this circuit is wrong
This will actually work pretty well for switching applications, but, you're right for linear applications. At gate threshold, the devices won't current share very well. As long as you make a clean, fast switch above and well below threshold, there won't be enough difference for long enough, to make a difference.
@@vincentrobinette1507 in switching application you need to balance the gates too, also the mounting on heatsink must be well made to make them works on same temperature, there are some mounting scheme to make it properly.. otherwise the hottest one will fail in a very short time.
But this is only a fun project, useless in real world.
they actually doing this in some high end bms, as long as you fets comes from the same batch, same production number, there will be a low difference and almost the same tolerances
Most of his vedios are fake
@@AsitShouldBe claro que é inútil para uso, quem vai colocar um trambolho desse tamanho em um circuito se existe bem menor industrial?
the wire alone would burn up at 100-200A. the trace would burn at way less
Probably get hot enough to melt the solder thus creating a short circuit. What would 60v @ 600amps uncontrolled do to the other circuits in whatever you put this in? Connected to grid AC power? Better call the fire dept before you throw the switch and hope the circuit breakers in your house work correctly.
And the solder would act as a fuse as well.
100A? As thin as his source traces are I wouldn't bet on more than 20 A.
Well not if it is used only for short pulses with enough time in beetween them,costant 100 A would probably result in a short term lightbulb lol.
I was thinking the same no way those leads will handle 600A even 100A will be a challenge.
instead of the text you engraved, you should put "front toward enemy"
Is this a Claymore? 😲💣💥
haha lol
@@rishanranatunga4851 magick smoke will huge u
"this side to author face"
It's a shame that the big heatsink is disconnected and just for looks.
He glued the pcb to the big heatsink. It should get quite warm under operation.
But would be nice if he electrically connected them as well, of course.
@@jort93z resin isn't a thermal conductor though, it's more of an insulator
@@clomads True, but some heat would get transmitted.
Would have been smart to use thermal glue to glue the pcb to the metal backplate.
@@clomads 0öğ
@@clomads did ya know that heat is transferred is THREE DIFFERENT F*IN WAYS,
*Conduction
*Convection
*RADIATION*
That resin will surely RADIATE HEAT
DARK COLORS ARE GOOD ABSORBERS AND EMITTERS OF HEAT.
what is the point of attaching a chunk of Aluminium on the back of a fibre glass PCB? Fibre Glass is a good thermal insulator... if you wanted thermal conductivity you should have used double sided PCB with through plated holes to provide a thermally conductive path to the rear of the board through soldered the pads and flatted them with 800 grit on a glass pane and then used thermal compound to connect the pads to the aluminium tab... it will always be a compromise but ideally switching mosfets should never be dissipating much waste heat... if they are they are not being driven correctly or in a balanced way... which is very likely with this design.
to make it look like a mosfet ?
You are right sir
👍👍
you are right, how to drain the heat from those small Mosfets to the aluminum sheet on the back of that giant.
It makes for a thumbnail that looks way more professional than it really is.
I so agree. Looks good but thermal properties are crappy and unbalanced load would burn mosfets in no time. But it looks cool though.
- "So, where do I put the solder?"
- "Yes"
Lol
Such waste of lead 😂
they put the extra solder in case the copper isn't strong enough for that many amps
@@phamezz That's just what Big Solder wants you to believe. ;)
😂😂😂😂
"American Tech" hmmm....yes... Indian tech really.
@@dy.experiments2826 this comment was from 2 years ago, let it die
@@dy.experiments2826 no
@@dy.experiments2826hes literally an indian dude running this channel lol. But idk whats the big deal about it
PUBG Mobile
To earn money i suppose because in india there are many people who are uneducated i don't mean that way but yeah they see these types of video like free energ@@orange_tweleve
The best part of this video is reading all the comments 🤣🤣🤣
Truee
A lot of experts out there to tell a guy how they'd do it correctly if it was them. But it wasn't them. It's easier to criticize someone else's work than to create your own I guess.
Kakakakakakakaka
Kkkkkkkk
⁰p
I like the “fling it at the wall and see what sticks” approach to soldering.
yeah I don't get why you'd faff with spacing those links up and over the traces. You could just route them on the other side of the board and it'd be way easier and better insulated. This looks like a video by someone copying another video not actually understanding why they're doing the things they're doing.
Ahh so SCOTT THE WOZ dose have Super mario brain cancer. 64?
"American Tech"... maybe that's why the industry in the US is dying...
Rami Ghazzawi Fax bruh
guy is Vietnamese
The Americas stretch from one pole of the planet to the other.
Just hide a single MOSFET inside, then sell it to China... ;-)
We have 3 Americas brother....
The time I spent watching this is totally worth it!...including the 1 YEAR waiting for the resin to dry up!
KKKKKKKKK
True
🤣🤣🤣
@@avidaeagora494 tá ligado que só br da risada com "kkkkk", o certo seria "rasrss" ou "hahahah", lol
One Year🤦♂🤦♂🤦♂👨🦳👨🦳👨🦳😂😂😁😁🤣🤣😅😅
the main problem is that in case of paralleling mosfets each gate must have a separate gate resistance, each drain must have a direct contact with the heat sink to dissipate heat
Yea!
The heatsink needs to be isolated from the drain
Heat and epoxy...great combo
All Mosfets in parallel mode.
One mosfets fails,it destroy the other mosfets !!!
Parts cemetery !!!
I'd think if the device were exercised with a decent safety buffer, a single point failure would be of no problem at all. If you regularly take it to the absolute limit you can surely fry it in no time, but that's true of everything I can think of.
@@SashaXXY think of it like old christmas lights, if one light (mosfet) goes out, the rest wont work.
well said! in epoxy as well? back to front re haet sink DUMB.
No, the failing device (shorted) "protects" the others.
Ha! Yeah, it would become it's own tombstone!
13:30 One YEAR later? Damn what epoxy you have that requires 365 days to cure xD
The one you forget you had laying around in some corner until you fall over it and decide you may as well finish this instead of just throwing it away. You know, the typical DIY stuff :D
He'd epoxyed on 31st of December
This is a piece of art rather than model
where does 600a come from?) I don’t believe it - the cross-section of conductors on the printed circuit board speaks of 30-50 amperes.
He build it, so he can print whatever the hell he wants LoL. I invite you to build one and print whatever the F u want.
Not even 30 amps😂
I think he just multiplied amps of 1 by # of mosfets. 30×12=600. Being that I'm still learning circuits, I'm not sure if mosfets combine that way although I'm clueless as to why they wouldn't. But then why do capacitors not simply combine ferrets by connecting in parallel.
Can anyone educate me(in a short reply) as to which types components(mosfets, transistors, capacitors, resistors, ect) combine amps or volts the same way batteries do and even more useful to me is why & how do they combine or not combine?
Oops. Meant 50×12=600
"Ferrads", not furry little ferrets. I had to put it in quotes to keep autocorrect from changing it.
This will fail so quick under max load of the individual MOSFET.
The design reduce the heat transfer efficiency between the heatsink and the MOSFET.
It looks cool though!
Exactly what I thought... It's good for display but that's all. Useless in real world
would make a great firecracker tho.
@@alberto148
For that to happen, just short it with a wall outlet directly.
that's what I also thought ... the sinks must touch the metal and using thermal paste
dude what the hell is that crusty ass soldering iron?
Yeah, I thought I was watching a plumbing tutorial!
Well said! Heat kills these units.
@@juststeve5542 A toilet switch to keep warm.
Yes i was wondering that myself ye gads somehing found at the dump i think
@Steven Bezaire 😭😭😭😭
Well, now I want a giant pcb Circuit with just monster components!
😂😷
🤣
Never handle mosfets like he did though, it's not funny how easily you'll zap the gate with the tiniest electrostatic charge from your hands.
Exactly, you should always ground yourself, your devices, and your work area
that's what you took away from this video? there are far more egregious electrical engineering sins being committed in this video... trust me.
Besides, modern mosfets aren’t nearly as sensitive as old models were.
I'm a sloppy circuit builder, but I've never zapped a component. And yes, I build a lot. I guess electronic components are some of the few things they make better than they used to.
In all fairness, a lot of ESD damage isn’t catastrophic (i.e. causing immediate total failure), but partial, reducing performance and/or device lifespan. So “I never zapped anything” is actually impossible to know for certain.
Интересно, красиво, забавно получилось. Жаль только, что работать не будет. Лайк за труды, за идею собрать такой транзистор. Надеюсь увидеть видео со следующей версией, где будут затворные резисторы, всё необходимое для согласования, ну и электрические испытания )))
it's DIY because everione has a láser engraving machine at his home
por que los letrinoamericanos siempre creen que "casero" significa "lo armas con un palo y tierra que encuentras en la calle"?
But he has, and he did it at home, so for he is diy
You can etch the pcb with just regular toner and photo paper
Yup, laser engraving and a hand held PCB drill.... Nice priorities.
полная дурь, но посмотрел с удовольствием ))
Прикольно))) Надо было только хотя бы резисторы в цепи затворов поставить и не на стеклотекстолите делать, а на алюминиевой плате.
Сделал красиво, но зря.
@@user_nicmir транзисторы уложить стоками на алюминиевую пластину, а остальные электроды соединить медной проволокой навесным способом и залить эпоксидной смолой.
I think that you cannot use that mosfet at 600A with 60volt simultaneously (in the same way that you cannot use the 50N06 mosfet at 50A with 60V) . In both cases, go to the datasheet and the SOA maximum (Safe Operation Area) graph and verify that the current can have a voltage within a safe area.
He just parallel the MOSFET yes we achieved 600A by reducing impedance of load at 60 v about 0.1 ohms
Never saw better soldering skills
I love sarcasm. :)
600А for Drain-Source 3mm pins and thin copper traces? lol.
Hard to do when the leads are 100A fuses. :)
My favorite song in the universe is looping over and over again. Thank you so much for your exquisite selection of whistle song. My life is now complete!
Здравый смысл и охлаждение покинули чат
Polnaia huynia получилась конечно))))
да он бы хоть ради приличия к пластине другой стороной и через термрпрокладку
Как говорил Доктор Дью: ЧТО ЭТО? ЗАЧЕМ ЭТО? КАК ЭТИМ ПОЛЬЗОВАТЬСЯ? Большего бреда ещё не видел.
@@перецмоисеевич это мосфет и он большой)
Someone translate this
Why did RUclips recommend this to me? Coz my fire insurance has just expired? 🤪🔥
No, it's your Life Insurance, I guess..lol
Hahaha😂😂 nice lol.
600Amps?!?! What the hell. The most convincing thing was the way you did the printing on the outside. Looks sharp.
Woooooow giant mosfet i like it👌👌👍
Thanks to this guy the electronic industry is going to be lightened up with a home made MOSFETs ⚡🔥⚡🔥⚡🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥🔥
No
13:30 one Year leter 🤣🤣🤣
Тонкий юмор
Why one year later. I don't understand.
1000 year later !!!
@@sanjeetsinghmouryavanshi479 If you click on timer 13:30 you will understand why
@@sanjeetsinghmouryavanshi479 Its usually 48 hours only. But he wrote like that as a joke
Chào . Tôi Sống Ở Vietnam - I live in vietnam:
Veri good
600ампер не выдержит .. бахнет один транзистор (самый слабый или с самым большим коэффициентом усиления ) а далее по цепочке остальные
Да тут не транзистор, а дорожка скорее выгорит. Шутник автор. Ни нормальных дорожек, ни охлаждения. Ещё и в смолу закатал. Наверное, чтоб быстрее бахнуло. Зато гордо написал 600 ампер.
Да. Надо было токовыравнивающие резисторы ставить и усиливать дорожки
Короче брелок, а так говно
Да все тут умные а там дураки и поэтому всё откуда кнам едет если человек зделал значки знает для чего
@@rodatmars1354 ну 600А это очень-очень много, для таких маленьких транзисторов которые он использовал , + нет нормального охлаждения, так что там максимум 100А
Impeccable workmanship
Had you left this module of yours for 1 year, really :-) ?
Does the module work?
will work just perfectly on new year midnight as a fireworks :) ruclips.net/video/AOf-i2vLd2o/видео.html
I agree. Assuming this thing actually worked, I world not wait a year (or even a month) for the resin to dry & harden. That would defeat the purpose of any project as it would be much faster to go buy a commercially available unit instead of whatever is the cost of storing this thing unusable for a year.
no shit it was a joke lmao
how do u think the heat will transfer through the fiber board inside?
Good project . But the mosfet are not synchronized together with the current loading. If one corrupted . All will be short circuit .
Please feed me back with the test of it . I appreciate it
abed itani he is probably aware of this, but still decided to upload the video Even if this thing is almost useless since the mosfets arent synchronized. It also lacks any actual cooling, as the alu plate is mounted on the pcb which is not thermally conductive.
@@tormodhag6824 yes . Useless to use .but very very beautiful hand made project .he can actually converter other type of IGBT or mosfet type in to 3pin layout and that give me an idea about convert my Linear mosfet (APL502J) in to this 3pin layout but I will do it smaller size
@@abeditani8293 Pretty sure a MOSFET is meant to be functional, not beautiful.
Increíble. Felicitaciones. Muy buen proyecto !!!
Hello your design needs to useing resisters on each gate of the mosfet good work 👍
Yeah. Miller capacitance will create destructive resonance.
Dont computers come with spell check anymore?
Muuuuy bueno AMIGOS 😉👍👍👍👍👍👍👍
Seems to me that it would be much faster, easier, cheaper, effective, efficient, and SAFER to have just screwed the mosfets to a heat sink bar (with thermo paste) and then connected them in parallel (with caps & resistors). That way you get a better heat dissipation, and when (not 'if') goes bad, you can easily change it out for a new one and be back up and running. No need to wait another year for the resin to harden and cost only 1 mosfet instead of 12 !!!!!!!!!!!! 😒😳
The music makes me want to eat aluminum foil
Three things:
1- What was that laser one laminate about
2- are those mosfets in parallel?
3- test it in a real project if it's a real project
tz1NVTpQnnBecGX8AmfqmhzyYN7MhT4HLeT2
the mosfets are paralell
Very cool
lets next make a big LED diod
Use this mosfet in your next project
IT can be used in High current circuit
@@navin1986 .... or as a door-stop 🙄😂
@@peterfitzpatrick7032 ... maybe 😅😂😅
So you can destroy and blow up your project? Sure, success guaranteed!! All these transistor's in line, won't work without failure (yes, and i'm not only talking about the bad heat dissapation, becuase it hasn't) If one transistor fails, all the others will follow nicely without the use of at least diodes!!
@@peterfitzpatrick7032 Key ring perhaps?
this kids... is why you don't leave electronics engineering to amateurs...
it does make an excellent firecracker tho.
Will there be a sequel to this video?
How did the Mosfets explode?))
I made the circuit and working good 👍👍👍
13:29 one year later ???? r u F kidding me right now 😂😂😂😂
Was thinking the same. One YEAR to dry? I wonder if that was simply a mistake in translation....
😁😂😂😂
looks cool 👍
The Tracks Of Drain and source are barely rated for 5 amp, and 600A rating ????
he will be placing the mosfet in a bar fridge as cooling source
@@fidelcatsro6948 Throw the entire thing in liquid nitrogen and you still wont get this to pass 600A. This design has to be a joke..
@@Basement-Science hahaha lol!
This is fake this shite go burn when go to 50amp max
IGBT's blood is boiling after seeing this video 😂😂😂
how about the heat ... just put fan blower or .... put some Al plate ... how heat conduct to it ... (sure not for long ) what is the purpose of it ... ? 600A ? ... i cant imagine this at home... 60x600=36kW (small power station).... put some wire on a car battery (12vx100A=1.2kw {limited by wire diameter } :] )
😲wooow good 👍⚫
Nice! It looks like you wanted to beef up the bus lines, but why did you go with pure solder instead of putting wires flat on top and soldering them in? Just easier to do it that way? Off the cuff, I'd think the bus lines are the main power limitation for this build. Also, I was surprised to see you washing the board with the mosfets on it. I've never done that before. Is it really safe?
I usually don't like American tech's videos, but this actually isn't that bad of an idea. At least it looks cool.
This should be called how NOT to make a Giant Mosfet.
Agreed.
Yeah... This isn't going to work as there is nothing balancing these mosfets. If you try to run high currents through this circuit some mosfets will draw more current than the others due to differences in their internal resistance. The one with the lowest internal resistance will fail way too early and this is likely to cause a cascading failure of every single mosfet in this circuit. This could be fixed by adding some resistors to balance the mosfets. But there is nothing, and i really do mean nothing, that can be done about the fact that 600A would vaporize your pcb traces, busses and connecting pins in a matter of seconds. You need to go waaaay bigger.
A while back i built a 2V 200A transformer (MOT conversion). It would turn material about as thick as your busses into puddles of molten metal in just 10 seconds. And i could only use it for a few 10 second bursts before the actual car jumper wires i used for my secondary winding started getting too hot as well, and that was some really thick copper wire. Have you ever seen a 600A cable? It has a 120mm2 cross-section!
2020: How to Make Giant MOSFET
2025: How to make Giant IC
🤦♂🤦♂🤦♂🤷♂🤷♂😂😂
Giant Mosfet? Super amazing!
I want to see the video where you switch 60
He can't do it because it's useless
@@ManofCulture I know XD thats why I want to see it, watch it burst into flames XD
Whose waiting for 1year
Took the man 1 whole year to make it, man didn't even test it SMH
And I thought he would literally make one... not connect factory components in parallel in a case
great.
You are the best.
success for you
Can you make a powerful and large brushless motor😃
That's what I was thinking a 6000watt 48-60V...pump amps through it
Make a go kart do 55 mph...or electric quad (ATV) do 45-50mph :-P
For 600A 60V ?
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He is going to attach 10 motors in next video 😊
vraiment top idea!
My first reaction is laughing my ass off!!
😂😂😂🤣🤣🤣
This ist the most bad soldering technique I've ever seen. Also, you will need resistors in the gate structure of a MOSFet array! You cant just switch them parallel. Also, what about termal resistance of the PCB???
Agreed, the resistance of those joints is off the scale and running the rated current through them would cause serious trouble due to overheating. Also, that's one ugly soldering tip.
..also resistors in drains of all mosfets are needed. The can not be connected in parallel just like that :)
When I saw the thumbnail , I got shocked 😱😱😱😱😱😱😱😱😱
Is that soldering iron big enough?!😆
Chủ kênh là người việt à
I'm watching your videos 2x speed but still feel slow please don't waste time
only 2x, 10x is probably better.
@@paulstubbs7678 😅
Extreme talent.
It's really giant MOSFET but where will you use and how 🤔😂👍
car audio amplifiers use a tons of high current
Chào bạn, mình thấy video rất hay, và cách làm mạch pcb bằng máy in laser cũng rất hay và sắc nét. Bạn làm video hướng dẫn làm pcb bằng máy laser đi. Cảm ơn bạn
этот колхоз сгорит на 100А, первыми пробьет правый ряд
ну он в любом случае сгорит)))а кпд какое будет ммм
Да и фиг сним, зато типо красиво.
100% это шляпа дорожки тонкие а вывода из проволоки мощные.
Первым делом дорожки погорят ежели транзисторы!!!
OMG 😲
I LIKE That is transistor
"тихо шифером шурша, крыша едет не спеша..."
It may be a mere piece of art.....
Молодец не поленился. Счахнет один сгорят все
Почему сгорят все они параллельны?
Другой вопрос куда и зачем, это да)
Ну конечно кулибин соединил все параллель чтобы получить большие токи лучше два транзистора и транс и так последовательно можно хоть сто транзиторов
Сгорит одна пара и уменьшится наряжение и всё
Cudnt you get bigger chisel tip ya need a hammer with that one 😂😂😂
Касьяну на тест.
вот и я думал что тест будет
@@GrandFRX я тоже
1. Теплоотвод так себе.
2. Эти выводы, как и проводники на плате, не смогут выдержать 600А
Поэтому, изделие можно оценить как минимум на 250 полуляхов :) (русскоязычная часть аудитории меня поймет)
It is a good caricature... So much wrong electrically and thermally...
Шок! раскрыт секрет производства любого палёного китайского igbt на 500А
also a fun show is too take alternators and replace the coil with ones from motors that are the right size to make them run cooler and convert the larger amperage to voltage automatically. no circuitry needed.
Do you mind making a video of what you are talking about? That sound very very interesting 🧐🤔
i like this video thank you this really help up my game on how to solder
Pls make an inverter using a huge welding machine core with your monster transistor & try to test it if you can power your whole neighborhood. 😅
You probably meant to say firecracker instead of mosfet
Hi I dol very good
"How eBay MOSFet's are made..." 8-)
It's a piece of tech art, useless for any practical purpose but in principle it does work. Make a singje ended amplifier from it and audiophiles will love it
I loved this video about laser mask removal and etching, but when I saw that soldering iron...
Has a laser engraver and a plumber’s soldering iron.......😜
Забавная вещь. Но лайкать это я не буду, чтоб ютуб не спамил меня подобной чушью. Чур меня!
Спешу вас разочаровать: алгоритмы основываются на просмотрах, а оставляя комментарии и ставя дизлайки вы продвигаете видео. Лучше нажмите «три точки - не интересует». Должно сработать.
Insane! Must try 👍 :]
Правильно, нахер охлаждение.)
Плюсую, а то думал я один обратил внимание, что алюминий приклеили к текстолиту, хотя разумней было на термопасту к корпусам транзисторов и винтами закрепить сам текстолит и уже потом корпус залить. Хотя по сути зачем это чудо-юдо вообще делать.
@@Johnny-kd4db выставочный экспонат) главное чтоб красиво а не функционально))
I'd like to see it work.