В конце видео один транзистор сгорел. Ток был 2.7 ампер, потом подскочил до 9 ампер. Полевые и IGBT транзисторы имеют ограничения по напряжению на затворах. Не более 20 вольт.
La tensión de puerta del IGBT, no debe superar los 12 Vcc, en el peor de los casos ... Y encima, puso a trabajar los IGBT SIN RADIADOR, sin el soporte correcto, en alta frecuencia y potencia ... No podía pasar otra cosa que TERMINAR ROTO ... Un trabajo de mierda ... 🤦🤦🤦
this is the most simple ZVS oscilator i've ever seen, it works but it seems that the standby curent is high, perhaps you can create another version with lower standby current, it will be awesome
I like this very much. I was going to bu one, but i had the parts to build. Only experimented with it for 2 hours. I tried 0.40uf to 1uf but little change in performance. I parallel IGBT's for use of 4, again little difference. Next i will try different coils but circuit seems tuned well as is. Used 13 volt motorcycle Lithium battery.
Please be safe the current draw is alot. This circuit has no choke too so it will take as much as it can get from the power supply. I suggest you use an old laptop charger or make/ buy a dedicated power supply. The charger only get around 100 watts of power so for more use a big power supply or use a lead acid battery for a car. The power you saw in this video can be done with 100 watts. To melt the metal you will need more power. 1000 watts would be a good start. Just make anothe circuit. This is not reliable and safe!
Amazing power of resonance: the same place of circuit turns red both thick copper wire requiring dozens of amperes to glow, both thin tungsten wire, requiring dozens of volts to glow.
I think the coil becomes hot at the end due to the current, not resonance. The lamp, I don't know to be honest.. even if it's for AC it should absorb some current at low voltages 🧐
You do some of the best builds of skeleton circuits on the planet, literally. Well done!! Truly interesting circuit with no diodes, resistors or inductors (other than all the copper). I look forward to your next video!! Thanks!
The circuit looks like a transistor based multivibrator. The IGBT needs to be on heat sinks since circuit current is nearly 6.8 Amps. Heating a blade is only for demonstration. If one wants to heat bigger objects the circuit should be scaled up with a good power supply , cooling fan etc. Good work.
I love watching your videos. I was particularly intrigued to see how you would create an induction heater without a coil... until 2:44 when you started to wind a coil!! 😂😂
He meant the choke i guess. Anyway there's a good reason why the intelligent inventor of this circuit uses zeners, resistors and choke. but i guess safety and sense have also become obsolete in this new era of making video's on proven topics and trying to be a wise guy.
So I’ve read a lot of the skeptical comments on this build so I thought I’d give it a try. I found the igbts, caps and got it built.The circuit functions exactly as shown in the video and circuit diagram and it 100% works as advertised. Really, very cool. Thanks again for this build!!
GREAT VIDEO!!! On a standard induction heater, the peak output is about three times as much as the input, however, on the IGBT induction heater it is about three times LESS. Is this correct?? THANKS MUCH!!!
Wow, flux used on a video like this. Congratulations! Would love to know how hot the transistors are running. I know the coil is crazy hot as that is normal and limits the duty cycle of induction heaters if you don't use tubing with cooling liquid.
Ive always waiting for new video definitely im new at electronics but i am a ac tech when im out of work i xopy all your piece more power from Philippines here I copy some of ur piece and im keep improving my skil...
Nice Video and excellent wire forming skills! Every time I see people useing "Lead-Free" solder, I feel sorry for them having to use it instead of 60/40 or 63/37 eutectic solders.
Because I did not want to say that the solder connections are/look awful, I blamed that on lead free solder instead of soldering skill. I have been Soldering for over 50 years, and I have used ROHS Solders before, and they are no where near is good as traditional solders still are. You should try it sometime! @@electrocat9
Единственное несовпадение, которое я не могу объяснить, это когда осциллоскоп показывает без нагрузки 100 кГц, а под нагрузкой 180 кГц. При этом синусоида расширяется. хотя частота увеличивается.
Чем выше частота, тем быстрее нагрев и меньше потребление соответственно из за поверхтностного эффекта. Но защиту управляющего электрода транзистора от перенапряжения я бы предусмотрел как это делают в типовых схемах.
@@zootehnik6662 спасибо за ответ. Но получается, что деталь, особенно массивная, будет на очень высокой частоте прогреваться только в поверхностном слое? А дальше ( в глубь) будет греться только за счёт теплопроводности?
@@МихаилМакаров-щ7щ Это не такая большая частота, что бы токи были только на поверхности. Для цементации детали это хорошо чем выше частота, она не будет хрупкой. В любом случае это ускорит полное програевание детали так как теплопроводность металов высокая. К примеру то что не нагревается совсем на частоте 10мгц, не выдерживает температуры на 30 мгц при той же мощности из моего опыта
@@zootehnik6662 благодарю. Думал там частоты килогерц 20-30. Не знал, что мегагерцы даже используют. Считал, что на таких частотах на излучение будет тратиться энергия.
@@МихаилМакаров-щ7щ Извините если ввел вас в заблуждение. Я привел пример из области радиотехники для наглядности. Для индукционного нагрева обычно используют токи разных частот - промышленной (50 Гц), повышенной (150 и 250 Гц), средней (от 0,5 до 10 кГц), высокой (67 и 440 кГц), сверхвысокой (1,76 и 5,28 МГц). Ограничение по частотам из за дороговизны и отсутствия электронных силовых приборов на такие мощности. Потому так называемые сверхвысокие частоты используют для относительно небольших по обьему деталей. Более детальную информацию вы найдете погуглив. Успехов...
😂😂i dare you to try without the zeners and resistors. If you want to see igbt's exploding i guess it will be alright. And you better not use the resistor values you find in ordinary zvs schematics. They are meant to be used between 12 and 48 volts dc. You can do it on 220 but then you need to calculate the resistors for the gates. And use an apropriate choke. Anyway more volts are not needed. The current is the most important thing not the voltage.
@@hooseinz Also the voltage you use is on the warming coil so 220 would be a rather bad idea. You should use an isolation transformer at least to not run the risk of shocks if you where to touch the warming coil it would not be good if not isolated from mains. Be safe! If you play with these voltages use an isolation transformer. A variac will not isolate the circuit from mains.
The video description seems kind of disingenuous to me. No mosfet. So, you used something that essentially works exactly like a mosfet. No diodes, except that transistors do have a diode effect. No resistance, except that everything has resistance - the wires, the IGBTs, the caps, the coil. No coil, except that you are using the output coil for a dual purpose. So, essentially all of the no's are either irrelevant or wrong. What am I missing?
Typically tank circuits will fry the transistors if you slowly bring the power up. [They won't start oscillating] They require instant voltage application to it ???
hi, if I make a dc power supply directly taken from the 220vac power outlet (using a bridge diode and a capacitor and supposed to become about 300vdc), what needs to be modified? the numbers of the copper wires turning? and what else? please advise me, thanks.
Would this build work to heat a bolt (stuck) that fits inside the coil ? Ive been looking for one of the tools but the costs are too much for me (not a mechanic). I watched another video where they used an old twisty style light bulb and built one.
You are stressing the transistors with this simple circuit because switching is happening at high current/high voltage regime. An oscillator of this (and similar) type must have a large inductor (choke) between the + of power supply and the centre-tap of the induction coil to smooth out the switching. Also by plugging a lamp parallel to the induction coils you are dropping inductivity of the setup too much causing the current through the coil to shoot up. That is why your coil glow red in this experiment. Good project though.
In a good zvs driver the mosfets don't heat much. This circuit is not good. Since the zvs switches the mosfets at 0volts the mosfet never needs to block a huge voltage and current and will not heat. Also mosfets are better with higher frequencies. This is a nice experiment, but not usable imo.
HDD slow thaan but data recovery ku best ahh irukkum ji SSD damage aakiduchu apdinaa data recovery rombave kastam illa pannave mudiyaamalum pogalaam ji
А можно рассчитать схему для мощных IGBT-сборок от драйвера сервопривода? С питанием 45-50 вольт? Как это сделать? Если можно подскажите пожалуйста. Я в экспериментах не силён. 😅
I really don't understand what is going on in the brain of the creator of this video. Video title : "Revolutionary Invention: IGBT-Based Induction Heater - No Mosfet, No Diodes, No Resistance, No Coil!" You can already see from the thumbnail image that it has at least a coil, as in the video at 3:08. And from the video at 1:58 you can tell that it includes two G40N60UFD mosfets...
Zafer hocam datasheete baktım bundan inverter yapabilirmiyiz? Pc 300W diyor bize yeter ufak bir şeyler çalıştırmak için. Yalnız bir sorum var trafo kullan madan yapabilir miyiz?
No because you will destroy the gate of your igbt's wich will be rated for 10- 20volts. For that you need the zeners and resistors. Maybe there are igbt's with higher gate voltage but most will have that threshold. Just build a normal zvs driver. This circuit is not usable. A good zvs driver is more efficient than this piece of junk. This is just an experiment to show it is possible, but it's not a good idea imho.
@@davypeleman3672 OK, Thanks! Yeah, I think they're rated at about 20V. Any idea of the oscillating frequency of a typical ZVS driver? High freq seems to be the key here. Do you have any suggestions of things I should look for when searching for a good ZVS circuit? Or am I better off just buying a prebuilt driver for +-1KW? I want to build a something I can change coil sizes on and power with invertor or batteries. Thanks
@@onestoptechnologies7305 Search for ZVS driver schematic also known as the flyback driver. Steve Ward or Telaundmehr have a nice webpage where you can find it too. This is the best circuit imho. It uses more components but is very reliable and the mosfets will not heat alot. ZeroVoltageCrossing means the mosfets turn off at 0volts. So they don't have to block the current. And so they don't heat alot. This is what makes this circuit efficient and is not hard on the mosfets. I have build many and some are old. They all still work never blown a mosfet with them. The frequency will depend on your heating coil and capacitor combo. They will form an RC circuit. But the frequency is not critical in this application so you can experiment with that. It should however not be too slow. Keep the capacitor below 1uf and you should be good. The longer the coil the slower the frequency. And use the right capacitor it needs to be a film capacitor. Don't use a polarized cap like an electrolityc that would not be good. It will blow up 😅😅. If you want 1kw you will need a good power supply. at 24v that would mean +- 40 amps. Or use 48 volts at 20 amps. That would be 960 watts to be precize.
I don’t understand the lightbulb. You get current drawn when you have resistance. Like a light bulb for instance. Powering the light bulb would be more useful with the minleaf variable power supply. Otherwise I was able to follow along to your build on a different take of induction coil heater. 😅
Здраствуте автор. Сможете сделать высоковольтный генератор на 50-100 киловольт для очистки дыма. Если покажете простую понятную схему я был бы очень рад и спасибо за такие ролики. Привет из Жетысая.
In a good zvs driver there's not much heat produce on the mosfets since they swith at 0 volts. My zvs could run without, but it is always a good idea to use a heatsink in such power application. Anyway i use small heatsinks and they stay cool. Then you know it's working as it should. This circuit is just not usable, a good experiment to show it can be done, nothing more.
JE M'EXPRIME est ce que ont peut chauffait une maison ou un appartement avec ce système là et ou trouvait les composants électroniques en vous remerciant !
40n60 has both mosfet and igbt .. datasheet.octopart.com/FGH40N60SFDTU-ON-Semiconductor-datasheet-95276769.pdf?_gl=1*19e819s*_ga*MjkyODk2MTY0LjE3MTA0ODE2MTc.*_ga_SNYD338KXX*MTcxMDQ4MTYxNy4xLjEuMTcxMDQ4MTgzMS4wLjAuMA..
Благодарим ви!
В конце видео один транзистор сгорел. Ток был 2.7 ампер, потом подскочил до 9 ампер. Полевые и IGBT транзисторы имеют ограничения по напряжению на затворах. Не более 20 вольт.
стабилитроны в затворы не ставил и транзюки на радиаторах
Причина горения в том, что провод катушки был намотан слишком тонко и нагрузка находилась на одной стороне.
@@MsAndru79 зачем так, контента не будет. Народу нравится мощщ..гром и молнии)
@@ZAFERYILDIZ52 нет, как раз причина в сгоревшем транзисторе. он сгорел в тот момент когда ток подскочил очень резко! смотри внимательнее
La tensión de puerta del IGBT, no debe superar los 12 Vcc, en el peor de los casos ...
Y encima, puso a trabajar los IGBT SIN RADIADOR, sin el soporte correcto, en alta frecuencia y potencia ...
No podía pasar otra cosa que TERMINAR ROTO ...
Un trabajo de mierda ... 🤦🤦🤦
this is the most simple ZVS oscilator i've ever seen, it works but it seems that the standby curent is high, perhaps you can create another version with lower standby current, it will be awesome
I like this very much. I was going to bu one, but i had the parts to build. Only experimented with it for 2 hours. I tried 0.40uf to 1uf but little change in performance. I parallel IGBT's for use of 4, again little difference. Next i will try different coils but circuit seems tuned well as is. Used 13 volt motorcycle Lithium battery.
Please be safe the current draw is alot. This circuit has no choke too so it will take as much as it can get from the power supply. I suggest you use an old laptop charger or make/ buy a dedicated power supply. The charger only get around 100 watts of power so for more use a big power supply or use a lead acid battery for a car. The power you saw in this video can be done with 100 watts. To melt the metal you will need more power. 1000 watts would be a good start. Just make anothe circuit. This is not reliable and safe!
Amazing power of resonance: the same place of circuit turns red both thick copper wire requiring dozens of amperes to glow, both thin tungsten wire, requiring dozens of volts to glow.
I think the coil becomes hot at the end due to the current, not resonance.
The lamp, I don't know to be honest.. even if it's for AC it should absorb some current at low voltages 🧐
Finally I got new knowledge from this video
You do some of the best builds of skeleton circuits on the planet, literally. Well done!! Truly interesting circuit with no diodes, resistors or inductors (other than all the copper). I look forward to your next video!! Thanks!
Many channels will use this design closely :) Thank you for your comments and support.
دمت گرم❤
سلام ، مدار های الکترونیکی که شما ارائه میدهید، هم خلاقانه است ،هم ساده و قابل فهم و هم کاربردی است .احسنت به این خلاقیت شما .متشکر .❤❤❤
@@ZAFERYILDIZ52Can this concept also be applied to the induction door lock method? Thanks
No hitsink
J'ai essayé le montage, ça fonctionne bien, pas oublier des refroidisseurs sur les transistors, bravo !
Abi masAllahın var bu ülkeye senin gibi sanatkâr insanlar lazım
The circuit looks like a transistor based multivibrator. The IGBT needs to be on heat sinks since circuit current is nearly 6.8 Amps. Heating a blade is only for demonstration. If one wants to heat bigger objects the circuit should be scaled up with a good power supply , cooling fan etc. Good work.
Спасибо Вам за ваши видео! Очень интересно и приятно смотреть ваши разработки.
Благодарю вас от всего сердца за поддержку и искренний комментарий.
شكرا لك استاذنا المحترم
Kkolay gelsin zafer bey, verdiğiniz bilgilerden faydalanıyoruz teşekürler.
I love watching your videos. I was particularly intrigued to see how you would create an induction heater without a coil... until 2:44 when you started to wind a coil!! 😂😂
the aforementioned babon indicator
He meant the choke i guess. Anyway there's a good reason why the intelligent inventor of this circuit uses zeners, resistors and choke.
but i guess safety and sense have also become obsolete in this new era of making video's on proven topics and trying to be a wise guy.
@@ZAFERYILDIZ52 What is a babon?
I guess he meant the inductor ?
So I’ve read a lot of the skeptical comments on this build so I thought I’d give it a try. I found the igbts, caps and got it built.The circuit functions exactly as shown in the video and circuit diagram and it 100% works as advertised. Really, very cool. Thanks again for this build!!
3:42 رائع برافوا عليك ❤❤❤❤❤❤❤❤❤
Toujours génial, merci❤❤❤
хороший пример того для чего используются наборы пластин в трансформаторе, чтобы не пораждать токи фуко и не нагревать сердечник)))
سيد ظافر شكرا لك هل يمكن صنع نفس التصميم بقدرة اعلى باستخدام igbt كبير جدا
Title: no mosfet **mosfets**
WHAT THE?! NO NOTHING?!?!!
GREAT VIDEO!!!
On a standard induction heater, the peak output is about three times as much as the input, however, on the IGBT induction heater it is about three times LESS. Is this correct??
THANKS MUCH!!!
مشاء الله عليك مهندسنا العزيز بارك الله فيك تحية طيبة
🤲🤲🤲
شكرا على التعليق الرائع والدعم آمين
Wow, flux used on a video like this. Congratulations! Would love to know how hot the transistors are running. I know the coil is crazy hot as that is normal and limits the duty cycle of induction heaters if you don't use tubing with cooling liquid.
*Can* we use this for driving Flyback Transformers?
സൂപ്പർ ആയിട്ടുണ്ട്. നന്ദി സാർ❤
നിങ്ങളുടെ അഭിപ്രായത്തിനും പിന്തുണയ്ക്കും നന്ദി.
All that stuff is basically a DC to AC converter that I assume has a pretty high frequency? That frequency would come from the value of the capacitor?
Ive always waiting for new video definitely im new at electronics but i am a ac tech when im out of work i xopy all your piece more power from Philippines here
I copy some of ur piece and im keep improving my skil...
love to the philippines
Nice Video and excellent wire forming skills!
Every time I see people useing "Lead-Free" solder, I feel sorry for them having to use it instead of 60/40 or 63/37 eutectic solders.
How do you know it is lead free?
Because I did not want to say that the solder connections are/look awful, I blamed that on lead free solder instead of soldering skill.
I have been Soldering for over 50 years, and I have used ROHS Solders before, and they are no where near is good as traditional solders still are. You should try it sometime! @@electrocat9
60/40 isn't eutectic. Stick with the 63/37
Единственное несовпадение, которое я не могу объяснить, это когда осциллоскоп показывает без нагрузки 100 кГц, а под нагрузкой 180 кГц. При этом синусоида расширяется. хотя частота увеличивается.
Частота 182 кГц не слишком высокая для индукционного нагревателя?
Чем выше частота, тем быстрее нагрев и меньше потребление соответственно из за поверхтностного эффекта. Но защиту управляющего электрода транзистора от перенапряжения я бы предусмотрел как это делают в типовых схемах.
@@zootehnik6662 спасибо за ответ.
Но получается, что деталь, особенно массивная, будет на очень высокой частоте прогреваться только в поверхностном слое?
А дальше ( в глубь) будет греться только за счёт теплопроводности?
@@МихаилМакаров-щ7щ
Это не такая большая частота, что бы токи были только на поверхности. Для цементации детали это хорошо чем выше частота, она не будет хрупкой. В любом случае это ускорит полное програевание детали так как теплопроводность металов высокая. К примеру то что не нагревается совсем на частоте 10мгц, не выдерживает температуры на 30 мгц при той же мощности из моего опыта
@@zootehnik6662 благодарю. Думал там частоты килогерц 20-30.
Не знал, что мегагерцы даже используют.
Считал, что на таких частотах на излучение будет тратиться энергия.
@@МихаилМакаров-щ7щ Извините если ввел вас в заблуждение. Я привел пример из области радиотехники для наглядности. Для индукционного нагрева обычно используют токи разных частот - промышленной (50 Гц), повышенной (150 и 250 Гц), средней (от 0,5 до 10 кГц), высокой (67 и 440 кГц), сверхвысокой (1,76 и 5,28 МГц). Ограничение по частотам из за дороговизны и отсутствия электронных силовых приборов на такие мощности. Потому так называемые сверхвысокие частоты используют для относительно небольших по обьему деталей. Более детальную информацию вы найдете погуглив. Успехов...
Eline saglik ustam bir de bunu kaynak makinasi ile yapabilir misin
Dose it work well with 220 volt DC?
Thank you
😂😂i dare you to try without the zeners and resistors. If you want to see igbt's exploding i guess it will be alright. And you better not use the resistor values you find in ordinary zvs schematics. They are meant to be used between 12 and 48 volts dc. You can do it on 220 but then you need to calculate the resistors for the gates. And use an apropriate choke. Anyway more volts are not needed. The current is the most important thing not the voltage.
@@davypeleman3672 thank you 😊😁
@@hooseinz Also the voltage you use is on the warming coil so 220 would be a rather bad idea. You should use an isolation transformer at least to not run the risk of shocks if you where to touch the warming coil it would not be good if not isolated from mains. Be safe! If you play with these voltages use an isolation transformer. A variac will not isolate the circuit from mains.
@@davypeleman3672 yes of course, thank you 😊😁👏
@@davypeleman3672 were are you from?
The video description seems kind of disingenuous to me. No mosfet. So, you used something that essentially works exactly like a mosfet. No diodes, except that transistors do have a diode effect. No resistance, except that everything has resistance - the wires, the IGBTs, the caps, the coil. No coil, except that you are using the output coil for a dual purpose. So, essentially all of the no's are either irrelevant or wrong. What am I missing?
Can it melt / repair a cracked windshield, by putting a pointed, rod sticking out of the coil?
Typically tank circuits will fry the transistors if you slowly bring the power up. [They won't start oscillating] They require instant voltage application to it ???
Can I use 1uf capasitor?
Thật hay và tuyệt vời. Chúc mừng Bạn. Tôi nghĩ có thể thay dây đồng bằng ống đồng phi 3mm cho nước tuần hoàn được không?
Bunun biraz büyüğünü yapsak evi ısıtırmı fatura çok gelirmi
Top demais parabéns 👏👏👏👏
hi, if I make a dc power supply directly taken from the 220vac power outlet (using a bridge diode and a capacitor and supposed to become about 300vdc), what needs to be modified? the numbers of the copper wires turning? and what else? please advise me, thanks.
7:42 Not only the lamp lit up, the coil too 🙂
Any one no of a good temperature control for that circuit
Гениально👍☝️
Would this build work to heat a bolt (stuck) that fits inside the coil ? Ive been looking for one of the tools but the costs are too much for me (not a mechanic). I watched another video where they used an old twisty style light bulb and built one.
Bence nobel ödülünü hakediyor gercekten devrim niteliğinde bir buluş tebrik ediyorum
Would this configuration work with an igbt like a Mitsubishi qm100dy-h igbt (or equivalent)module? 600v 100a would make for quite an inductive heater.
هل تعمل جيدا برأيك
Svaka vam čast gospodine, sve ste rekli .lp
Nice. Now see how far you get with it in your carry on bag.
Can you make it half wave ?
For a 72 watt heater use for few seconds at a time that will work like that
7:27- The copper coil starts glowing, this is the reason why the copper tube should be water cooled.
Does Any inductor has a very high voltage or current across the copper coil,is it dangerous??
İndüksiyon bobininin sarım çapını büyütebilir miyiz?
I'm glad you are asking cause I was wondering the same thing.
evet cm kadar çıkabilirsiniz ancak sonuç için giriş gerilimi 30 volt olmalı ve sogutucu ekleyin
You are stressing the transistors with this simple circuit because switching is happening at high current/high voltage regime. An oscillator of this (and similar) type must have a large inductor (choke) between the + of power supply and the centre-tap of the induction coil to smooth out the switching. Also by plugging a lamp parallel to the induction coils you are dropping inductivity of the setup too much causing the current through the coil to shoot up. That is why your coil glow red in this experiment. Good project though.
I know I wanted to show the results
الله يحفظك❤❤
It's possible for testing purposes, but definitely need a heatsink for IGBT .
In a good zvs driver the mosfets don't heat much. This circuit is not good. Since the zvs switches the mosfets at 0volts the mosfet never needs to block a huge voltage and current and will not heat. Also mosfets are better with higher frequencies. This is a nice experiment, but not usable imo.
Nüve ile yönlendirme yapilabilrmi ?
VEREY NICE.THANK YOU
Teşekkürler Zafer bey
Very nice information Great work for you Sir ji 🎉 bahut bahut shukriya Bhai Ji
Thank you for your comment and support.
@@ZAFERYILDIZ52какое сечение провода катушки? Заранее спасибо!
HDD slow thaan but data recovery ku best ahh irukkum ji
SSD damage aakiduchu apdinaa data recovery rombave kastam illa pannave mudiyaamalum pogalaam ji
Good 👍👍👍🙏
А можно рассчитать схему для мощных IGBT-сборок от драйвера сервопривода? С питанием 45-50 вольт? Как это сделать? Если можно подскажите пожалуйста. Я в экспериментах не силён. 😅
Cool! 😎 🔥
I really don't understand what is going on in the brain of the creator of this video. Video title :
"Revolutionary Invention: IGBT-Based Induction Heater - No Mosfet, No Diodes, No Resistance, No Coil!"
You can already see from the thumbnail image that it has at least a coil, as in the video at 3:08. And from the video at 1:58 you can tell that it includes two G40N60UFD mosfets...
thank you for saving me the time to ask exact same question!..
@@DreadPirarateAndersen We'll see how many weeks it takes to get an answer.
@@MR-ub6sq didn't actually expect one, so would be surprised if he more than just likes it, but who knows...
Zafer hocam datasheete baktım bundan inverter yapabilirmiyiz? Pc 300W diyor bize yeter ufak bir şeyler çalıştırmak için. Yalnız bir sorum var trafo kullan madan yapabilir miyiz?
Very good!
Good work
I wish you all the best
Can you make with
코일을 작게 해도 무방한가요?
그림에서처럼의 1/2만큼 으로하면?
Stmicroelectronics STP40N60M2 Mosfet, N Ch, 600V, 34A, To-220-3 | Single MOSFETs
Can you increase the voltage to 36-48VDC to maximize the wattage?
No because you will destroy the gate of your igbt's wich will be rated for 10- 20volts. For that you need the zeners and resistors. Maybe there are igbt's with higher gate voltage but most will have that threshold. Just build a normal zvs driver. This circuit is not usable. A good zvs driver is more efficient than this piece of junk. This is just an experiment to show it is possible, but it's not a good idea imho.
@@davypeleman3672 OK, Thanks! Yeah, I think they're rated at about 20V.
Any idea of the oscillating frequency of a typical ZVS driver? High freq seems to be the key here.
Do you have any suggestions of things I should look for when searching for a good ZVS circuit?
Or am I better off just buying a prebuilt driver for +-1KW?
I want to build a something I can change coil sizes on and power with invertor or batteries.
Thanks
@@onestoptechnologies7305 Search for ZVS driver schematic also known as the flyback driver. Steve Ward or Telaundmehr have a nice webpage where you can find it too. This is the best circuit imho. It uses more components but is very reliable and the mosfets will not heat alot. ZeroVoltageCrossing means the mosfets turn off at 0volts. So they don't have to block the current. And so they don't heat alot. This is what makes this circuit efficient and is not hard on the mosfets. I have build many and some are old. They all still work never blown a mosfet with them. The frequency will depend on your heating coil and capacitor combo. They will form an RC circuit. But the frequency is not critical in this application so you can experiment with that. It should however not be too slow. Keep the capacitor below 1uf and you should be good. The longer the coil the slower the frequency. And use the right capacitor it needs to be a film capacitor. Don't use a polarized cap like an electrolityc that would not be good. It will blow up 😅😅. If you want 1kw you will need a good power supply. at 24v that would mean +- 40 amps. Or use 48 volts at 20 amps. That would be 960 watts to be precize.
Surely it isn't desirable to to have the col burning red hot, such as it does while you're running the lamp from 30V ?
I don’t understand the lightbulb.
You get current drawn when you have resistance. Like a light bulb for instance. Powering the light bulb would be more useful with the minleaf variable power supply.
Otherwise I was able to follow along to your build on a different take of induction coil heater. 😅
Good work
Thanks for sharing
Thanks for the nice comment and support.
Bagaimana rara buat input 220 volt om?
Very nice job 👍 can you make this work without the centre tap coil ?
please add a variable to adjust power of induction
❤❤❤ eline sağlık ustam
çok teşekkür ederim kardeşim
Так надо попробовать на МОП-транзисторах. Напряжения тут низкие!
Bikin yg bisa di jual di pasaran mas ?
Nice!
Здраствуте автор. Сможете сделать высоковольтный генератор на 50-100 киловольт для очистки дыма. Если покажете простую понятную схему я был бы очень рад и спасибо за такие ролики. Привет из Жетысая.
Bravo Hocam 👏
teşekkürler kardeşim
- Ну и как, получилось?
- Всё сгорело, барин.
,,Всё хорошо, прекрасная маркиза..!,,😆 Как использовать это на практике? Мира всем!
PEKİ HOCAM bu ebatlarda isitici max kaç mm kaınlıkları ısıtabilir ? mesela bi 5 mm ısıtabilirmi bıcak yapımında kullanmak için işe yararmı
IGBT sogutucu ekleyin ve 24v 10 amperle besleyin 10 mm dahi ısıtmaya yeter bu arada bobin telini daha kalın sarın 2,5 mm telden
Herhangibir ıgbt olurmu sizin kullandığınızı bulamadım intetnette
Merhaba, + uç neden bobinin ortasından veriliyor? Başka bir yöntemi yok mu?
ماهي اقوى دائرة يمكننا صنعها لصهر المعادن
How long do you think those IGBTs are going to last with no heat sink?
In a good zvs driver there's not much heat produce on the mosfets since they swith at 0 volts. My zvs could run without, but it is always a good idea to use a heatsink in such power application. Anyway i use small heatsinks and they stay cool. Then you know it's working as it should. This circuit is just not usable, a good experiment to show it can be done, nothing more.
bermanfaat banget boz..
Daha güçlü indüksiyon için bir bilgi alabilirmiyiz.
JE M'EXPRIME est ce que ont peut chauffait une maison ou un appartement avec ce système là et ou trouvait les composants électroniques en vous remerciant !
Pour votre appartement, c'est petit mais peut chauffer un radiateur, consultez Aliexpres.
@@ZAFERYILDIZ52 je vous remercie !
Вот,если честно Дуб 😂у пайке, но очень красиво смотрится 😊
Интересно!👍
Super ❤
thx my friend
You dont looked how is warms on 14,18,20 V ... please look it
Why did the coil start glowing as well?
고주파가 코일에 임피던스를 증가시켜서 코일이 붉게 되나요?
40N60UFD is an IGBT or a MOSFET? Looking over datasheet looks like a MOSFET and not an IGBT.
40n60 has both mosfet and igbt .. datasheet.octopart.com/FGH40N60SFDTU-ON-Semiconductor-datasheet-95276769.pdf?_gl=1*19e819s*_ga*MjkyODk2MTY0LjE3MTA0ODE2MTc.*_ga_SNYD338KXX*MTcxMDQ4MTYxNy4xLjEuMTcxMDQ4MTgzMS4wLjAuMA..
Merhaba Dhafer kardeşim. Bu yöntem IGBT'yi aşırı ısıtmıyor mu? Çabuk yanıyor mu, yanmıyor mu? Lütfen cevap verin. Teşekkür ederim.
IGBT mosfetten daha dayanıklıdır ve farkındaysanız sogutucu koymadım ama uzun süre kullanım için sogutucu ekleyin tabiki
Ustam o güzel sesini özledik ya eskiden her videonda konusurdun
👉❤👈