This design is very simple and only uses four components! It is also very versatile and the input voltage can be as low as 5 volts or higher than 18 volts if the transistor is attached to a heat sink. ------THEORY OF OPERATION------ - 5 to 18 volts is fed into the circuit, a resistor (R1) is placed before the Base pin of the transistor in order to limit the amount of current the pin receives. If too much current is allowed into the Base pin the transistor can produce excessive heat and fail. - One end of the secondary (L2) is connected to the Base pin of the transistor in order to feed it with oscillations. The two diodes (D1 and D2) prevent the oscillations from going directly to ground. (Learn more about oscillations and why they're important, below). - The transistor is made up of three pins: the Collector, the Emitter, and the Base. If you were to think of the transistor as a garden hose spigot (See picture 2), the Collector would be the reservoir of water. The Emitter would be the hose and the Base would be the valve that would allow water from the reservoir (Collector) to the hose (Emitter). The valve (Base) is in the closed position (no water flowing) until it is given a little nudge. When it receives a nudge, the valve opens and a lot of water is allowed to flow from the reservoir through the hose as long as the valve is still getting a nudge. However, as soon as the nudge goes away the valve will close, cutting off the water from the reservoir to the hose until the valve gets another nudge. - When the Base receives a little bit of current, it closes the circuit and electricity is allowed to flow through the primary coil (L1). However, electricity likes to take the path of least resistance so when the electricity is allowed to flow from the collector to the emitter (~0 ohm resistance) it will stop flowing to the base because there is 47,000 ohms of resistance there. When the electricity stops flowing to the base, the base will open up the circuit again until the resistor offers less resistance than the Collector-Emitter path. This cycle repeats itself many times a second. - The primary coil collapses when the electricity stops flowing through it, when this happens, the secondary coil picks up the magnetic field and converts it back into voltage which gets stepped up to around a thousand volts in the process. The top load acts as a capacitor and increases the output from the secondary causing electrons in the air to become excited. - Finally, the oscillations from the secondary coil are fed back into the transistor in order to 'tune' or achieve maximum output from the Slayer Exciter.
I'm following your announcement and I have one question for that. is it possible to connect a mobile phone charger to the inverter? whereby the energy from 220v would drop to 12v, but on the other hand, through an inverter, I would get 220v, and in turn, it would reduce the costs of consuming energy
Does this circuit actually generate ac current, or it's just a intermittent dc current? Why such a high voltage doesn't hurt the cell phone? (and i assume that the output voltage's been more than 1500v)
My friend you also need those in some cases you need higher voltage to travel electricity from one place to another specialy on longer range so yes we do nned those you just dont realize it.
The music is horrible!!! You should place a beautiful and charming silence with your voice in the background, for next time. Keep improving, thank you.
Well in reality when he powered the light bulb the high voltage dropped significantly since the circuit probably could'nt deliver enough current, also i wouldnt recomend doing this with a normal light bulb since the one he's using is a bulb rated most likely for higher voltages. :D
This design is very simple and only uses four components! It is also very versatile and the input voltage can be as low as 5 volts or higher than 18 volts if the transistor is attached to a heat sink.
------THEORY OF OPERATION------
- 5 to 18 volts is fed into the circuit, a resistor (R1) is placed before the Base pin of the transistor in order to limit the amount of current the pin receives. If too much current is allowed into the Base pin the transistor can produce excessive heat and fail.
- One end of the secondary (L2) is connected to the Base pin of the transistor in order to feed it with oscillations. The two diodes (D1 and D2) prevent the oscillations from going directly to ground. (Learn more about oscillations and why they're important, below).
- The transistor is made up of three pins: the Collector, the Emitter, and the Base. If you were to think of the transistor as a garden hose spigot (See picture 2), the Collector would be the reservoir of water. The Emitter would be the hose and the Base would be the valve that would allow water from the reservoir (Collector) to the hose (Emitter). The valve (Base) is in the closed position (no water flowing) until it is given a little nudge. When it receives a nudge, the valve opens and a lot of water is allowed to flow from the reservoir through the hose as long as the valve is still getting a nudge. However, as soon as the nudge goes away the valve will close, cutting off the water from the reservoir to the hose until the valve gets another nudge.
- When the Base receives a little bit of current, it closes the circuit and electricity is allowed to flow through the primary coil (L1). However, electricity likes to take the path of least resistance so when the electricity is allowed to flow from the collector to the emitter (~0 ohm resistance) it will stop flowing to the base because there is 47,000 ohms of resistance there. When the electricity stops flowing to the base, the base will open up the circuit again until the resistor offers less resistance than the Collector-Emitter path. This cycle repeats itself many times a second.
- The primary coil collapses when the electricity stops flowing through it, when this happens, the secondary coil picks up the magnetic field and converts it back into voltage which gets stepped up to around a thousand volts in the process. The top load acts as a capacitor and increases the output from the secondary causing electrons in the air to become excited.
- Finally, the oscillations from the secondary coil are fed back into the transistor in order to 'tune' or achieve maximum output from the Slayer Exciter.
this is very simply and easy to make
eres uno de los mejores que evisto haciendo ese men saludo y siempre seas asi con todos tus suscritores saludo men
Terima kasih saudaraku atas ilmunya.semoga sukses dan bahagia selalu aminnn
very good . i will try. thank you
I'm following your announcement and I have one question for that.
is it possible to connect a mobile phone charger to the inverter?
whereby the energy from 220v would drop to 12v, but on the other hand, through an inverter, I would get 220v, and in turn, it would reduce the costs of consuming energy
Me gusta la electronica (soy Ingeniero) Ingeniero electrico)
y dos carreras mas), Diseño y fabrico aparatos que Patento por 25 años)
Does this circuit actually generate ac current, or it's just a intermittent dc current?
Why such a high voltage doesn't hurt the cell phone?
(and i assume that the output voltage's been more than 1500v)
If you wrap 4-6 feedback loops, it will produce higher voltage and less heat resistance
Muito bom top
hola, el video esta impresionante bro, y una consulta se puedes haces una de 5v de entra y de 12v de salida...
Filmeporno
How many amps for output ? is depend on input's
I say 2 or 3 ma
what don't understand is isn't 1000v gonna burn the appliance which is connected with?
Workin hours min 2-3))), время работы этого преобразователя мин 2-3 от того АКБ😂
What is the formula u r using to make transformer
How does the bulb not blow putting 1000v through it???
ola boa tarde amigo quantas hora é a duração da bateria nesse circuito?
ola boa noite quantas horas e a duração da bateria neste inversor o amigo ai pode me dizer?
ola boa noite pode me dizer quantas horas é a durabilidade da bateria nesse circuito?
Good s
измеряешь переменное напряжение на выходе трансформатора прибором включенном на постоянное напряжение )))
We need only 220 volt not 1000 volt
You only need to wrap fewer secondary quantities and wrap larger wires
@@HuyenTran-pk5yr oh i see.
My friend you also need those in some cases you need higher voltage to travel electricity from one place to another specialy on longer range so yes we do nned those you just dont realize it.
And your phone btw uses a bms so
3.7v is the maximum capacity of your battery.
Nice
Terus itu batery tahan berapa jam bang?,,,
wow!
jk 1000v.. coba tuk manasin air/try to boil a glass water
cara bikin nya bagai mana sob
Hello friendly, know what like very of his itinerary e very good continio thus. But please, you're more lucid in flaunt the references.
Ok ok felicitari
ola bom dia esse fio 0,2mm em awg quê fio é e o 0.5mm quê fio é em awg?
The music is horrible!!! You should place a beautiful and charming silence with your voice in the background, for next time.
Keep improving, thank you.
1000v ko cháy bóng ah
1000volts not applicable in households appliances,we need 230-250 volts,, what appliances need 1000volts supply?
Well in reality when he powered the light bulb the high voltage dropped significantly since the circuit probably could'nt deliver enough current, also i wouldnt recomend doing this with a normal light bulb since the one he's using is a bulb rated most likely for higher voltages. :D
Forget the god awful music, and explain what you're doing.
1000 volt ????
Si
Yes
never seen a 1000v light bulb
Sao ma len dc 1000va z ko the tin noi
Semuanya banyak yang ndak bener...cuman 1,2...yang bener praktek 100x
Fake
sorry but its really not this circuit is actually quite simple :D but i still would'nt recommend making it!
why 1000V??? isn't too much???
He made a high voltage transformer. NOT A 220V INVERTER .
feke
Fake video
No fake
Cara rakit power bg pidio
1
What's use of this project
Cara rakit powrbg
Das funktioniert?werden Sehen
No use
Wasteful excercise
Bulshit ! is like u put a moskito to pull a car !!!
🤣🤣🤣
This output has 1000 Vdc not Vac.. Look at the multimeter.
watt?
Nice
Fake video