My 24kV high voltage "Jacob's Ladder" from DIY flyback transformer driver using 555 timer.
Creating an electric arc
I've always wanted to create an electric arc but don't know how.
Then I come across the theory that air breaks down at about 1MV/m (Mega Volts per meter) (24kV/in).
That mean you need 1kV in order to get 1mm arc. So you need a higher voltage.
One of the method is to use a flyback transformer that can be found from an old TV or an old CRT PC monitor.
It could generate about 10 to 30 kV. Other method is to create a "tesla coil" which is quite complicated.
Maybe it will become my next project.
Flyback transformer and preparation
Flybacks can be found in all types of monitors and screens that use a cathode ray tube (CRT),
e.g. TV sets, computer monitors etc. It has a big red cable with a suction cup.
It looks something like below.
Next, you need to identify the primary and secondary pin out.
Thanks to "Lab HV-PS page"
for providing an instruction on how to find the pinout.
The main HV out on the secondary coil is a big red cable with a suction cup.
Now we need to find the 0V pinout for the secondary coil.
The trick is to use a DC power supply. This is because the flyback secondary coil resistance is much too high.
There is no way you could find it with ordinary digital multimeter.
So use your own understanding on the circuit below to find the 0V pinout.
Give it about 12V and your meter should show some volts when you find the 0V pinout.
For me, just to be safe, try to find a datasheet of the flyback transformer or
try to find the TV or old CRT PC monitor service manual/schematics diagram to find the pinout like below.
Most modern flybacks include built-in HV rectifier diode(s) and/or
voltage multiplier (tripler) so output without additional components
will be high voltage positive or somewhat smoothed HV DC.
So, make sure your polarity is correct.
Unless you have one of these multimeter, you should get the resistance reading out of it.
From my FLUKE 189 multimeter you can see that it shows more than a hundred Mega Ohm.
That is why ordinary meter could not measure it because of it's limit.
Below I test two types of flybacks with 112 Mega Ohm and the other about 522 Mega Ohm.
Again, polarity is critical to get the reading.
To find the primary coil is a much simple than the secondary coil.
The primary coil resistance is about 1 ohm and again I confirm this with
a TV or old CRT PC monitor service manual/schematics diagram. In my case I could only get 0.45 ohm.
Creating the flyback driver (20kHz with 90% duty cycle)
Thanks to "Jonathan Filippi"
for the idea. My circuit is quite different.
I try to fix up the frequency and duty cycle with help from simulation software.
I use "Electronic Workbench" to simulate the circuit which can generate about 20kHz with 90% duty cycle
and I come out with this.
Using 555 timer to generate 20kHz with 90% duty cycle.
Next I try to put it on the breadboard and test the output from it.
I get about 18kHz with 85% duty cycle.
Jonathan Filippi is using 2N3904 and 2N3906 but I'm using c1815 (npn) and a1015 (pnp).
I found out that you can use any multipurpose transistor and I could find it on my old TV board.
For the MOSFET, Jonathan Filippi is using IRF840 but I'm using IRF630.
You may try to find it's equivalent and experiment with it.
Just make sure it is compatible if you want to use other types of MOSFETs.
Find it's data sheet and compare the characteristic for both types of components.
Before assemble it, I test this circuit with a small transformer which I can find it on the same old TV board.
Since I'm getting too excited, the quick test is to connect the output to the lowest resistance coil.
I test it with a limit resistor and surprise, I can get a hundred volt out of that.
Next is to plan to transfer it to the stripboard/veroboard.
Here is the stripboard layout and the assembled circuit board.
Make sure you mount the MOSFET to a heat sink since it going to heat up while running/powering it up.
Note that I put the 150 ohm "snubber" resistor and diode near the flyback.
This is to suppress ("snub") electrical transients that might damage of the circuit.
Again, I test the assembled circuit board with the same small transformer and I could get a neon to light up.
This mean I'm getting about hundred volts.
Neon needs about 80V or higher in order to light up.
Test it out
Now it time to test it out.
Get a high power supply for this test.
Don't use an expensive lab power supply for this test.
It might burn or damage. For me, I'm using a 12V DC battery charger that can give about 5 Amps.
You may also try a car battery if you have one.
There is an arc!. At last, I could get an arc out of it.
I try to measure the initial max. length and I could get about 24mm.
Thus, it is about 24kV. Remember the theory 1MV/m?.
I measure the DC operating current. It is about 5 Amps.
I've blown my DC power supply fuse in the process.
Maybe I need a bigger power supply :-) .
At least I've got some arcs.
1 comments:
Dear,
What is the name of the software to made stripboard layout?
Thank you
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