Hello, if it is used to make a baton, can it meet the police standard? If this thing is used for self-defense, can he resist the bad guy? , and whether your country uses electricity to set traps for incoming wild boars
I apritiate you have made such a simple HV generator, but for maximum you will have there 3250V. That amount of Voltage of high frequncy, i asume by its color that is around 40KHz, will not be able to kill you but shure can buzz your finger. Anyway Continue with good work, and be real with the video head lines. :)
From a sparks expert - nice video and nice project. If you are just playing with clickbait numbers then fine, but if you are interested in an accurate claim then a low-current spark that starts between sharp wire ends at about a millimeter air gap, and stretches out longer when started, would be probably less than 2000V.
That is an 8:500 ratio transformer. Should be able to take the 12vdc from the adapter and increase it to 750 volts. Correct? Calculating like this: (500windings in secondary / 8 windings in primary ) x 12vdc supply voltage = 750 volts? The 2A supply would be diminished by the same ratio or 2000mA/(500/8)=32mA. Anyway, looks like spark gap was about right for 750v. 30KV would jump a spark gap of about 1 cm so 300,000 volts should jump a spark gap of 10 cm. If you wanted to get 300,000 volts out of the 12vdc adapter and you used 8 windings on the primary then each winding would have 12 / 8 = 1.5 volts. 300,000 / 1.5 = 200,000 windings... so theoretically you would need 200,000 wingdings on the secondary side (not practical due to many factors). A spark gap is not the ionized air in an active arc as it becomes conductive when ionized. A spark gap in air is the un-ionized gap width.
correct...as soon as I saw the claim and the size of the spark gap I immediately thought......BULLSHIT !!!!! yeah...it's around 30Kv per centimeter or so....
This works unlike anything else you see here on RUclips. It is a blocking oscillator. But there is a risk that the leakage inductance will kill the transistor.
i woulds say 30kv. If you Tweak the turns on primary/feedback a bit,, you can get way more voltage out. And make the transistor stay colder. Maybe im wrong, i blame the beer.. Nice video, keep it up. But a schematic is always nice
@@arminjafari1667 - This is true, but the air breakdown voltage is strongly dependent on the shape of the electrodes. The value of 3 kV/mm applies to smooth spheres with a large radius. For pins it will be about 1 kV/mm. And the guy is a total idiot - maybe he meant 300000 mV :-)
@@richardguilarte1654 amigo mío, no me importa, solo busqué confirmación en Internet, pero no la encontré, ¿puedes dejar el enlace a la hoja de datos? www.datasheetcafe.com/d718-datasheet-npn-transistor/
Sei troppo ottimista , se raggiungi i 15.000 volt puoi essere contento !!! Se fossero i 300.000 volt come scritto , ti si brucerebbe tutto !!! I resistor non sono da 330 ohm , ma in base ai colori che si vedono sono da 57 ohm . saluti !!!
@@mareksvrcina5279 Marek, Doesn't it have to at least be pulsed on the primary in order to induce voltage in the secondary? The transistor is an audio power amp, is that pulsing somehow? If it was just DC on the primary the magnetic field would expand once inducing one pulse in the secondary. Thanks if you have time to explain.
@@nooceluap7760 yes, it has to be. In fact, every switched mode power supply rectifies the AC from your power socket, filters it though some capacitors and then there is the circuitry that switches the main transformer. The DC you feed into a transformer need to be pulsed and switched at very high frequency, at least if the transformer is small and have low induction. If the frequency isn't high enough, you saturate the transformer core and the voltage does no longer induce on the secondary coil. You can see that If you take a reasonably sized transformer and apply voltage to the primary, it does induce some voltage on the secondary for a brief moment. After that, the core will be saturated and the primary will act like a short circuit. And yes, his circuit is switching, and here's a great explanation to why that happens: electronics.stackexchange.com/questions/377753
It's definitely not 300 kV, I think around 3000V. The arc can be stretched for some distance thanks to the quite high current, but only once it's been started. And if you see from the video, the arc begins only and very small distace.
that's right, for every 10KV it generates an arc from 1 cm onwards, so it is possible that it does not exceed 5KV. isso mesmo, para cada 10KV gera um arco a partir de 1 cm, portanto é possível que não passe de 5KV.
I made one with good ol' 2N3055 while back when I was a kid and added a voltage doubler with 68nF capacitors. And accidentally touched it. It was damn powerful and it hurt as much as hitting my hand with sledgehammer. I checked and it was drawing 150 watts.
F A K E ! 1) I order to create 300 kV from 6 v we need transformation ratio of 300000 : 6=50000, which means that if primary coil has 8 windings, secondary must have 8x50000=400000 but there are just 500. 2) with 300kV the spark sholud be 10 cm, in this case it is about 1 cm 3) with such high voltage there is no way secondary coil to be wound like that, and white wire to go over other windings. That would blow in second.
Please I have questions, please which type or which size of wire, is the best we can use for secondary coil and primary coil? Please I need your explanation on this. May God continue bless you
Show the potential of your experiment by using voltmeter Then we trust in your video But it never happens to increase the potential of 6 V to 300000 volts ....
Good work sir, but I must say that. If that spark reach to 1 kV you're very optimist. Don't mind how far spark will become, but from what distance it will start, because in that moment voltage between electrodes break air resistance. After that spark will become bigger because it creates a sort of "road" of ionised and hot air that decrease air resistance and the spark distance can increase. If 1 cm of air necessitate of approximately 16 kV to be break from voltage, your less than 1 mm spark will have a voltage 10 times smaller. So approximately and for my opinion optimist 1000 Volt spark. Sorry for my very awful English knowledge. Good to see your video
You are right. Ignition coil is used to produce high voltage that goes to the spark plug. It is actually a step up transformer having plenty of turns in the secondary but finer wire than the primary.
If you think that 300000v you wrong! His wires wouldn't be able to handle that much voltage. They would melt in a instant. Also the arms ar TINY of this transformer.
Me gustó muchísimo, pero no dejó nota de qué clase de transistor utilizó y qué tipo de resistencias. Por favor mas pendiente con esos pequeños detalles
@@goldenhamiss9772 sorry..Im still learning I dont have Complete knowledge... I am a beginner... but if the transistor keeps on swithing then its heating issue ,according to me... .use heatsink and correct base resistors
@@goldenhamiss9772 probably few reasons behind it . 1.load will access 2.transister may be damaged.. 3.the components which connected to transistors may be damaged...
1mm is approximately 1000v (this varies butt still) given that I believe there 10-20kV Moreover you could calculate this by dividing secodary winding turns by primary winding turns and multiplying this on half of the supply voltage. So basically reduce primary winding turns and improve your toy's performance)
Nice work! . Can you modify this into continuously operating oscillator to make a Negative iron generator below 15KV, with a reverse biased high voltage diode??
First off, he does not have 15kv here, maybe 10 at most. Second, yes you can rectify the output, one direction will produce a far higher voltage output than the other, keep the capacitor low (unless you want to die), connect to the ionizing needle through a high voltage high resistance resistor(to reduce the danger of shock), value of this resistor and the filter capacitor depends on design specifications.
Hmmm. I think you slipped in 2 more zero's in the voltage than it really produces. What you have there is between 3000 and 5000 volts. TO start an arc you need around 1mm per 3Kv if using a sharp point for contacts. You misleading the public.
Здесь нет и 10000Вольт. Иначе бы дуга пробивала несколько миллиметров без проблем, а при 300000 Вольт вторичная обмотка бы замкнула везде, потому что эмальпровод на такие напряжения не рассчитан. Дуга бы тянулась на 10-20 сантиметров.
It is not possible because 300000 voltage is not sufficient insulation only open or air medium so conducted electron onle possible nearly 3000 voltage .
Идея разработки вечно бес топливного двигателя не нова, за разработку такого генератора во все времена брались именитые ученные и разработчики с большим стажем работы. ruclips.net/video/sAokqFu_Lp0/видео.html Однако, отсутствие технических средств, технологической базы, для реализации рассматриваемой идеи, а также возможностей по элементной базе и финансовой поддержки, не представляла возможным. В некоторых случаях процесс разработки заканчивался на этапе теоретического обоснования или в худшем случае обсуждения вариантов реализации. К текущему моменту уже разработаны некоторые варианты альтернативных двигателей, параметры которых превосходят определенный класс электрических машин и создают им существенную конкуренцию. Одним из таких моделей являются бес коллекторные двигатели, основанные на применении неодимовых магнитов. Среди современных разработок магнитных двигателей представлены самоподдерживающие модели. В которых магнитное устройство формирует и создает необходимое поле и тем самым поддерживает процесс вращения, в особых резонансных условиях работы. В представленном видео приведен грубый макет магнитного двигателя, вращающего от внешнего устройства с коэффициентом полезного действия близким единице! timeforward.vekrosta.biz/
I think there is not 300000 V because the arc it produces at only 2 or 3 mm, then the voltage will be 2000 to 3000 Volts. If you had 300000 V the it produce at 300 mm, and you can not touch the wire because the isolation is not the adequate.
atento saludo me gusto su invento.....Dios lo Bendiga...me gusta la electrónica....quisiera saber bien claro el valor de las resistencias.....la de color verde azul y negro si se notan bien claro, la otra de que colores son...maestro.... muy amable...
You should know that every 1000 V the air resistance shoots at a distance of 1 mm at a humidity of 60%. You have 2000V here, plasma stretching is not an indicator, plasma is gas and I don't see a 300mm spark anywhere.
that's right, for every 10KV it generates an arc from 1 cm onwards, so it is possible that it does not exceed 5KV. isso mesmo, para cada 10KV gera um arco a partir de 1 cm, portanto é possível que não passe de 5KV.
@@jaksaradman1627 isso mesmo o plasma não conta, esta distancia de 1cm para 10KV é o inicio da faísca (levando em conta a umidade do ar em condições normais) e baseado nisso deduzi que a suposta tensão de 300KV na verdade seria no máximo 5KV.
You are wrong about the output voltage, according to your design the output voltage reach about 3000 Volts. If the output voltage were 300000 volt you could not manipulate it the way you do, since the spark would reach approximately 30 cm not only 5 mm. You must to correct the title.
You don't need as many turns ratio, you need current flowing in the secondary side to power an engine. Find a standard car coil and you'll have the perfect transformer supplying the right voltage at the right current capability, and it will be less than 100:1 turns ratio.
500/6 ratio, Transistor=120 V , Power supply output = 12V. Transistor will be maximized at 120V anyhow... and together with 500/6=62,5 times 120 = 7,5kV. And that is absolut max. Obviously "a click bait". At 300kV... 1mm per kV, would mean that the distance would reach 300mm roughly, give or take. But interesting video nevertheless
it is just blocking generator on one transistors. Where u see 300kV? Here is a maximum 1kV. if u wanna build realy hight voltage generator. Look to zvs driver on mosfets IRFZ44, IRFZ48 or realy high power irfp260, irfp 250.
Look for another project, this cannot be replicated due to lack of information on the components used. Transistor, resistors and wire gauge awg not informed. Impossible.
Transistor name is D718
Hi friend
@@kingshibahaczix4037 no it isn't fake
Why you not show the code???
Bro will it work with d882 npn?
Hello, if it is used to make a baton, can it meet the police standard? If this thing is used for self-defense, can he resist the bad guy? , and whether your country uses electricity to set traps for incoming wild boars
I apritiate you have made such a simple HV generator, but for maximum you will have there 3250V. That amount of Voltage of high frequncy, i asume by its color that is around 40KHz, will not be able to kill you but shure can buzz your finger. Anyway Continue with good work, and be real with the video head lines. :)
That's illigal
From a sparks expert - nice video and nice project. If you are just playing with clickbait numbers then fine, but if you are interested in an accurate claim then a low-current spark that starts between sharp wire ends at about a millimeter air gap, and stretches out longer when started, would be probably less than 2000V.
More like 3 kv , see his initial length is approx 1.3~1.5mm
That is an 8:500 ratio transformer. Should be able to take the 12vdc from the adapter and increase it to 750 volts. Correct? Calculating like this: (500windings in secondary / 8 windings in primary ) x 12vdc supply voltage = 750 volts? The 2A supply would be diminished by the same ratio or 2000mA/(500/8)=32mA. Anyway, looks like spark gap was about right for 750v. 30KV would jump a spark gap of about 1 cm so 300,000 volts should jump a spark gap of 10 cm. If you wanted to get 300,000 volts out of the 12vdc adapter and you used 8 windings on the primary then each winding would have 12 / 8 = 1.5 volts. 300,000 / 1.5 = 200,000 windings... so theoretically you would need 200,000 wingdings on the secondary side (not practical due to many factors). A spark gap is not the ionized air in an active arc as it becomes conductive when ionized. A spark gap in air is the un-ionized gap width.
correct...as soon as I saw the claim and the size of the spark gap I immediately thought......BULLSHIT !!!!! yeah...it's around 30Kv per centimeter or so....
If it was 300kV, there's no way I'm holding those skinny wires with my bare fingers
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.
Birds are like.. come on im hungry
Cows like.. moooo
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He is neglecting them hhhhh
This works unlike anything else you see here on RUclips. It is a blocking oscillator. But there is a risk that the leakage inductance will kill the transistor.
The voltage is really high. You did well. I also want to make one like yours
SK Creative =NAMASKAR
Well done, good job,
|| JAI HIND ***JAI SINDH ||
i woulds say 30kv. If you Tweak the turns on primary/feedback a bit,, you can get way more voltage out. And make the transistor stay colder. Maybe im wrong, i blame the beer.. Nice video, keep it up. But a schematic is always nice
So you plug the 6V transformer and how much it consume? 6V or 300000V?
Thanks for ur kindness for sharing ur best experiences
Many beautiful ideas, and you value a lot of intelligence
Air can ionize 10000v per 1cm and 300000v can jump around 30cm, you are lie ☹️
The cable insulation also cannot withstand 300kv!
You lie also , for 1 Cm need 1000V , not 10 000v , in video we see aboud 3 cm. 3cm =3000v
TEHNO MD see this at 3:19 ruclips.net/video/DOMs7mYm_zs/видео.html
6 Volts input supply x (500 secondary/ 5 primary) ~ 600 V
Air streamer breakdown ~ 3 kV/mm
@@arminjafari1667 - This is true, but the air breakdown voltage is strongly dependent on the shape of the electrodes.
The value of 3 kV/mm applies to smooth spheres with a large radius. For pins it will be about 1 kV/mm.
And the guy is a total idiot - maybe he meant 300000 mV :-)
D718 n-p-n Emitter - U, Punches 1-2mm = 6kV maximum, and stretches the arc to 10-12mm. Pw 12v 2A
(goats bleat, the village is excellent)
amigo no es NPN,es PNP. el voltaje + entra es por el emisor.
@@richardguilarte1654 amigo mío, no me importa, solo busqué confirmación en Internet, pero no la encontré, ¿puedes dejar el enlace a la hoja de datos?
www.datasheetcafe.com/d718-datasheet-npn-transistor/
Consumption current can avalanche a transistor!
Good job my friend +1 Like
Muito top hoje eu coloquei meu projeto em prática em breve vou posta meu vídeo
Sei troppo ottimista , se raggiungi i 15.000 volt puoi essere contento !!! Se fossero i 300.000 volt come scritto , ti si brucerebbe tutto !!! I resistor non sono da 330 ohm , ma in base ai colori che si vedono sono da 57 ohm . saluti !!!
Mariness Alexsunderoffnu Nikolujevskyear! I love you!
300,000volt would make an arc 30cm long! This is ca 10,000volt.
5000 volt
Could have been even less than 5000 it look like he had to damn near touch the wires together to get it to Arc
@@Magneticitist That is my guess as well, 5KV tops. The guy is illiterate.
More like less than 3kv, the cheater had to touch the electrodes to start the arcing
“What are you doing in there?”
“...nothing mom”
В кулере от компьютерного блока питания есть какая то проволока, вроде бы достаточно тонкая для вторички.
Где сердечник замутить?
I am happy to learn about the changing of direct current to alternating current.if possible i need more about it again.
Actually it hasn't changed. It's still DC
@@mareksvrcina5279 Marek, Doesn't it have to at least be pulsed on the primary in order to induce voltage in the secondary? The transistor is an audio power amp, is that pulsing somehow? If it was just DC on the primary the magnetic field would expand once inducing one pulse in the secondary. Thanks if you have time to explain.
@@nooceluap7760 yes, it has to be. In fact, every switched mode power supply rectifies the AC from your power socket, filters it though some capacitors and then there is the circuitry that switches the main transformer. The DC you feed into a transformer need to be pulsed and switched at very high frequency, at least if the transformer is small and have low induction. If the frequency isn't high enough, you saturate the transformer core and the voltage does no longer induce on the secondary coil. You can see that If you take a reasonably sized transformer and apply voltage to the primary, it does induce some voltage on the secondary for a brief moment. After that, the core will be saturated and the primary will act like a short circuit.
And yes, his circuit is switching, and here's a great explanation to why that happens:
electronics.stackexchange.com/questions/377753
There are 12 loops at primary winding, so for 300 000 v you should have 600 000 loops on secondary winding
The real voltage in the apparatus is less than 30kV, not 300kV!
@@LucasPereiradaSilva I know
@@LucasPereiradaSilva nem 30KV no máximo 5KV, para cada 10KV gera um arco de 1cm
It's definitely not 300 kV, I think around 3000V. The arc can be stretched for some distance thanks to the quite high current, but only once it's been started. And if you see from the video, the arc begins only and very small distace.
Exactly
exactement
même pas 3000 V
that's right, for every 10KV it generates an arc from 1 cm onwards, so it is possible that it does not exceed 5KV.
isso mesmo, para cada 10KV gera um arco a partir de 1 cm, portanto é possível que não passe de 5KV.
Its very good and useful
This was the same principle used for CRT monitor it needs 25 kv to Scan the picture so HT Voltage is created using LOT (Line put transformer)
I made one with good ol' 2N3055 while back when I was a kid and added a voltage doubler with 68nF capacitors. And accidentally touched it. It was damn powerful and it hurt as much as hitting my hand with sledgehammer. I checked and it was drawing 150 watts.
F A K E !
1) I order to create 300 kV from 6 v we need transformation ratio of 300000 : 6=50000, which means that if primary coil has 8 windings, secondary must have 8x50000=400000 but there are just 500.
2) with 300kV the spark sholud be 10 cm, in this case it is about 1 cm
3) with such high voltage there is no way secondary coil to be wound like that, and white wire to go over other windings. That would blow in second.
Very well... at I didnt believe in this video and waiting for someone to speak.
Mr how many turn if out put only 100 volt and what transistor and resistor must i use,thank you great video
Please I have questions, please which type or which size of wire, is the best we can use for secondary coil and primary coil? Please I need your explanation on this.
May God continue bless you
Show the potential of your experiment by using voltmeter
Then we trust in your video
But it never happens to increase the potential of 6 V to 300000 volts
....
dont trust
Its not 300000v
In order for it to be 300,000V, your primary would need a couple hundred thousand windings. I’m hissing it’s closer to 10-20 kV
Soldering skills -1...
Nice job
Good idea 👍👍👍
Good work sir, but I must say that. If that spark reach to 1 kV you're very optimist. Don't mind how far spark will become, but from what distance it will start, because in that moment voltage between electrodes break air resistance. After that spark will become bigger because it creates a sort of "road" of ionised and hot air that decrease air resistance and the spark distance can increase. If 1 cm of air necessitate of approximately 16 kV to be break from voltage, your less than 1 mm spark will have a voltage 10 times smaller. So approximately and for my opinion optimist 1000 Volt spark. Sorry for my very awful English knowledge. Good to see your video
You need capacitors and diodes wired in series to get actual high voltage generating. This is part of the circuit but not the whole process.
If you want DC, true that. If you want to make fancy Tesla like things, you want AC voltages and these coils to operate at resonance.
much close to the way a old ignition coil works(i'm brazilian, my english is very bad. sorry)
Your English is really good, but instead of "much" you should write "very", and since "old" starts with a vowel (o), the "a" should be "an"
Vá si lascar 🇧🇷 😂
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You are right. Ignition coil is used to produce high voltage that goes to the spark plug. It is actually a step up transformer having plenty of turns in the secondary but finer wire than the primary.
Op bro🧐🧐😯😯
1мм или 0.1мм, 500 витков, потом 0.4мм, 0.4мм 4 витка, 330 ом резистор, и 56 ом резистор
If you think that 300000v you wrong! His wires wouldn't be able to handle that much voltage. They would melt in a instant. Also the arms ar TINY of this transformer.
This is not 30KV. 30KV sparks from way too far. It seems 1KV to 3KV output.
judging by the spark length you have few kV only
@Y B that is exactly what you have ruclips.net/video/cK8ISnDJ2OI/видео.html
(do not confuse with the discharge plasma length)
Good video
High voltage flyback transformer simple way
He made it from scratch. Pretty cool
Thank you, but what kind of transistor and parts are used? Please reply,
I'm Arab😅
Nice work
Me gustó muchísimo, pero no dejó nota de qué clase de transistor utilizó y qué tipo de resistencias. Por favor mas pendiente con esos pequeños detalles
ខ្ញុំមានថ្ម1.5v,,3.7v,,9v❤
300000kv
4:17
❤❤🎉🎉❤❤🎉🎉❤❤
Really super sir
I like this amazing work..
add two carbon leads at the end of output...they dont melt easily
Sorry guys help me, i have made an inverter but when i connect with 12V battery transistors become too hot and it keeps on and off itself.
What's app number +255677214905 help to make my inverter work.
@@goldenhamiss9772 sorry..Im still learning I dont have Complete knowledge... I am a beginner...
but if the transistor keeps on swithing then its heating issue ,according to me... .use heatsink and correct base resistors
@@goldenhamiss9772 probably few reasons behind it .
1.load will access
2.transister may be damaged..
3.the components which connected to transistors may be damaged...
@@ComedySots damaged transistors hust act as closed switch..
Good good baiya
max voltage = TR Vce 120V * 500 turn / 8 turn = 7.5k volt
max voltage = (TR Vce 120V - 12V) * 500 turn / 8 turn = 6.75k volt look at the D718 datasheet
this is NPN transistor Is the red wire positief?
Yesus i doo
i wonder if we make the inverse proccess, maybe we could make a spot welder, with some turns of thick wire in the secondary
Tolong bang cara gulung nya di jelaskan saya mau memprak Tek kan nya
very good frend
Without exaggeration maybe 3000V, but with this 500/10 gearbox it is rather 300V with 6V supply
1mm is approximately 1000v (this varies butt still) given that I believe there 10-20kV Moreover you could calculate this by dividing secodary winding turns by primary winding turns and multiplying this on half of the supply voltage. So basically reduce primary winding turns and improve your toy's performance)
Nice work! . Can you modify this into continuously operating oscillator to make a Negative iron generator below 15KV, with a reverse biased high voltage diode??
First off, he does not have 15kv here, maybe 10 at most. Second, yes you can rectify the output, one direction will produce a far higher voltage output than the other, keep the capacitor low (unless you want to die), connect to the ionizing needle through a high voltage high resistance resistor(to reduce the danger of shock), value of this resistor and the filter capacitor depends on design specifications.
Here a maximum of 2 kV, 15 kV - is an advertising trick.)
@@emery5581 You plug in the 6V transformer, 6V input, how much it consume if the output is 300.000V? 6V or 300000V?
@@Viking_one-w3x Thanks for the information! calculation shows it's only 3 KV not 300KV. that's why I get confused.
@@rishanranatunga4851 hey bro, how did you calculate ?? He didn't mention number of primary turns.. Or did he..?
If that was 300 KV you wouldn't be holding wires that have that sort of isulation.
You made my day ! LMFAO
Emazing good job. God job. tenks.
The mosth🤗😇😇🤗😘
could this be done with a C3883 transistor?
Electrostatic generator,kinda in the Tesla Zone.🏁
You know video it's from India when you hear the cow and the goat in the background audio.
Are you Super intelligent? Or Super idiot? Cows and goats only found in india? Get a life useless fellow.
Says the person from india
Not all people have goats and cows running around in their backyard dumbass
What made you think you have a 300kv fly back? The length of that spark indicates a far, far lower voltage
👍👍👍👍👍Nice👍👍👍👍👍
ruclips.net/video/Bsp0sTDFRbc/видео.html
Plzz visit my RUclips channel
Hmmm. I think you slipped in 2 more zero's in the voltage than it really produces. What you have there is between 3000 and 5000 volts. TO start an arc you need around 1mm per 3Kv if using a sharp point for contacts. You misleading the public.
Good project
Здесь нет и 10000Вольт. Иначе бы дуга пробивала несколько миллиметров без проблем, а при 300000 Вольт вторичная обмотка бы замкнула везде, потому что эмальпровод на такие напряжения не рассчитан. Дуга бы тянулась на 10-20 сантиметров.
which transistor did you use?
Purchase CDI unit of a 2-wheeler. It is way cheaper and readily available.
¡¡¡No entendistes el objetivo de experimento!!!
It is not possible because 300000 voltage is not sufficient insulation only open or air medium so conducted electron onle possible nearly 3000 voltage .
Идея разработки вечно бес топливного двигателя не нова, за разработку такого генератора во все времена брались именитые ученные и разработчики с большим стажем работы. ruclips.net/video/sAokqFu_Lp0/видео.html
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I think there is not 300000 V because the arc it produces at only 2 or 3 mm, then the voltage will be 2000 to 3000 Volts. If you had 300000 V the it produce at 300 mm, and you can not touch the wire because the isolation is not the adequate.
Как замерял КV прибором или соотношение витков первички ивторички?
Máximo 15000v
10,000 PORQUE SOLO ALCANZA 1CM DE ARCO
@@gilbertopina8618 dije 15000 exagerando un poco porque de lejos es difícil calcular la distancia exacta.
Máximo 3000v
*No, esta entre 3000v y 10000v*
2000 V sino no puduera tocar con las manos los cables
Stun gun or kit electro touch ??
oi is the black thing a magnet ?
and is the pc charger necessary like kan i use a 9v battery?
atento saludo me gusto su invento.....Dios lo Bendiga...me gusta la electrónica....quisiera saber bien claro el valor de las resistencias.....la de color verde azul y negro si se notan bien claro, la otra de que colores son...maestro.... muy amable...
3cm approx arc 300kv ? It will jump to your fingers touching the wires and with that insulation any moments it will burn the whole coil .
Ok hay dang hoc.thank’s
You should know that every 1000 V the air resistance shoots at a distance of 1 mm at a humidity of 60%.
You have 2000V here, plasma stretching is not an indicator, plasma is gas and I don't see a 300mm spark anywhere.
that's right, for every 10KV it generates an arc from 1 cm onwards, so it is possible that it does not exceed 5KV.
isso mesmo, para cada 10KV gera um arco a partir de 1 cm, portanto é possível que não passe de 5KV.
@@eletrosonic O plasma não conta como faísca, são apenas gases ionizados.
@@jaksaradman1627 isso mesmo o plasma não conta, esta distancia de 1cm para 10KV é o inicio da faísca (levando em conta a umidade do ar em condições normais) e baseado nisso deduzi que a suposta tensão de 300KV na verdade seria no máximo 5KV.
What kind of plastic transformer was that and any idea where I can get one?
Mantap
Да возьмите готовый твс от лампового телевизора и не морочьте людям голову !
You are wrong about the output voltage, according to your design the output voltage reach about 3000 Volts. If the output voltage were 300000 volt you could not manipulate it the way you do, since the spark would reach approximately 30 cm not only 5 mm. You must to correct the title.
How did u calculate that 300kv???.......
With hopes and dreams???........
Kkkkkll 3000000 v. Kkkl nem na China. Sonhador !😅😅
it works s like a flyback transformer in old CRT TV'S
Sir kindly mjhy ye btain k mainy mosquito killer bana tu ignition coil banani h
Is the output ac or dc sir ?
Ac
Hello, can I use something like this to make ignition for little engine? And instead of 6v I'm gonna use 12v to make spark little bit stronger.
You don't need as many turns ratio, you need current flowing in the secondary side to power an engine. Find a standard car coil and you'll have the perfect transformer supplying the right voltage at the right current capability, and it will be less than 100:1 turns ratio.
@@tonyfremont Thank You very much :)
500/6 ratio, Transistor=120 V , Power supply output = 12V. Transistor will be maximized at 120V anyhow... and together with 500/6=62,5 times 120 = 7,5kV. And that is absolut max. Obviously "a click bait". At 300kV... 1mm per kV, would mean that the distance would reach 300mm roughly, give or take. But interesting video nevertheless
What is the "transistor" name? is it D718?
Irf z44
How did you calculate the 300kv? I bought a flyback that only gets 10kv, but the beam fires at about 15cm
Are you kidding me? Most flybacks would arc over or break internally if you can get a 15cm arc, that's about 450kV!
@@LucasPereiradaSilva impressive!!!
it is just blocking generator on one transistors. Where u see 300kV? Here is a maximum 1kV. if u wanna build realy hight voltage generator. Look to zvs driver on mosfets IRFZ44, IRFZ48 or realy high power irfp260, irfp 250.
can it weld into wire 2 and 4 sizes?
Look for another project, this cannot be replicated due to lack of information on the components used. Transistor, resistors and wire gauge awg not informed. Impossible.
Embuh yah...laka keterangane babarblas bos
@@abenkipin8865 vou chamar um evangélico que fala linguas estranhas pra traduzir