This instructable will show you how to make an audio modulated plasma speaker using a flyback transformer out of an old CRT display, and the all time hobbyist favourite which is the 555 timer chip.
Not only can this circuit be used to produce audio modulated plasma arcs but it functions as a high voltage power source for other projects.
I will be updating this instructable over time.
Note: Please turn up your sound volume, it sounds much better in real life but my camera does not pick it up too well.
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Signing UpStep 1: What you will need
Parts list:
1x Flyback tranformer
A flyback transformer, sometimes called a line output transformer are used in CRT TV's and computer monitors to produce the high voltage needed to power the CRT and electron gun. They also have other auxiliary windings built into them that power other parts of the TV.
You can get flyback transformers out of older CRT monitors and TV's. They are the ones that have a big chunky chassis. There are also other instructables on this website showing how to remove them from the chassis and circuit board.
1x Power MOSFET,
I used an IRF540 as that is all that I had lying around. I strongly recommended using a MOSFET with a higher drain-to-source voltage than the IRF540, which is only 100v.
Just for an example IRFP460 would be well suited for this and IRFP250N and IRFP260N would also work. Any MOSFET that is rated for high voltage, has a low on resistance and can take more than 15 amps would be fine.
1x Heatsink
You will need a large heatsink as it will get very hot (more on why later). The TV board you got the flyback from is a good source for heatsinks.
1x NE555 timer chip
I also recommend using an IC socket (8 pin) for the 555 so you can easily remove the chip without de-soldering it.
2x 47 ohm resistors
1x 22 ohm resistor
1x 470 ohm resistor
2x 50K potentiometers
3x 1nF capacitors
1x 220uF - 1000uF electrolytic capacitor (16v will fine).
1x 10nF capacitor
1x 100nF capacitor
1x fast diode, such as UF4007
1x NPN and PNP complementary bi-polar junction transistor pair (if you are following the first schematic). BD139 and BD140 can be used here.
Stripboard
12V power source
Fuse (recommended to protect the power source/supply).
Audio source (This could be an MP3 player or old phone for example).
Solder and soldering iron + some spare wire.
Disclaimer
I am in no way responsible if you mess up with this circuit. If you mess up, receive an electrical shock or burn your house down whilst making this circuit you have no-one to blame but yourself. By following this guide in order to make this circuit you agree to accepting all liability if something were to go wrong.
1x Flyback tranformer
A flyback transformer, sometimes called a line output transformer are used in CRT TV's and computer monitors to produce the high voltage needed to power the CRT and electron gun. They also have other auxiliary windings built into them that power other parts of the TV.
You can get flyback transformers out of older CRT monitors and TV's. They are the ones that have a big chunky chassis. There are also other instructables on this website showing how to remove them from the chassis and circuit board.
1x Power MOSFET,
I used an IRF540 as that is all that I had lying around. I strongly recommended using a MOSFET with a higher drain-to-source voltage than the IRF540, which is only 100v.
Just for an example IRFP460 would be well suited for this and IRFP250N and IRFP260N would also work. Any MOSFET that is rated for high voltage, has a low on resistance and can take more than 15 amps would be fine.
1x Heatsink
You will need a large heatsink as it will get very hot (more on why later). The TV board you got the flyback from is a good source for heatsinks.
1x NE555 timer chip
I also recommend using an IC socket (8 pin) for the 555 so you can easily remove the chip without de-soldering it.
2x 47 ohm resistors
1x 22 ohm resistor
1x 470 ohm resistor
2x 50K potentiometers
3x 1nF capacitors
1x 220uF - 1000uF electrolytic capacitor (16v will fine).
1x 10nF capacitor
1x 100nF capacitor
1x fast diode, such as UF4007
1x NPN and PNP complementary bi-polar junction transistor pair (if you are following the first schematic). BD139 and BD140 can be used here.
Stripboard
12V power source
Fuse (recommended to protect the power source/supply).
Audio source (This could be an MP3 player or old phone for example).
Solder and soldering iron + some spare wire.
Disclaimer
I am in no way responsible if you mess up with this circuit. If you mess up, receive an electrical shock or burn your house down whilst making this circuit you have no-one to blame but yourself. By following this guide in order to make this circuit you agree to accepting all liability if something were to go wrong.
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I am going to post an updated version of the schematic on here soon which will help with lowering the amount of heat the MOSFET generates.
Why not work on the real issues the sub-woofers that are very expensive, and amps to drive them. The mid-range and tweeters have already been figured out.
as close to the fly-back transformer as you can so Base of Q1 and 12V main at the transformer. ..
and adding some type of clamping on the transformer feedback might help make the sound a lot better but will make the arc smaller.
high speed diode like UF4007 and a 2ohm 1 watt resistor in series across the transformer P-coil might make for quick and easy testing good testing.
let me know how it go's if you test the ideas ;-)
Do you mean just using the 30v supply for both the 555 timer directly and flyback? if so then that will not work since the max voltage the 555 timer can run off is 16v for most versions of the chip.
If you put a voltage regulator such as the LM7815 between the 30v supply and 555 timer then that would work, just be sure to use lots of decoupling capacitors and a fuse between your power supply and circuit.
i really wanna know if the irf640 with vdds=200v and ID=18 amps at 25celsius
is suitable for this project , here is the schematic so you can take a look http://www.vishay.com/docs/91036/91036.pdf
thank you very much :)
http://www.alliedelec.com/search/productdetail.aspx?SKU=70212479
love the instructable. great job
I am using a 12v cpu power supply capable of several (around 12) amps. Is the capacitor across the mosfet important because I do not have it in my circuit. What does it do?
Long story short: 9v batteries were the invention of satan and should all be destroyed
An NPN and PNP totem pole BJT buffer stage? If so I think possibly the high peak current draw of the gate charging might have drawn down the 9v's so much that the voltage sagged. Also you might have shoot-through happening and both BJT's turning on at the same time causing the 9v's to short.
Also if you are using separate supply for the 555 and flyback (which I recommend) then remove R4 and make R3 22 ohms. This will help switch the MOSFET faster.
Alex.
The diode and the capacitor across the mosfet are to prevent surges? Or do they help keep the mosfet cool/increase arc length? I have a 500v mosfet so i dont think I need to worry about surges, but if adding those components will make the arc better then I am all for it,
The diode and capacitor is there to help reduce the back-emf voltage spikes that will be produced on the primary side when the MOSFET turns off (its also one of the reasons the MOSFET gets so hot because it is avalanching every cycle).
You *might* be ok with that 500v MOSFET but its always good not to let the MOSFET's breakdown voltage be the only thing protecting it. If your MOSFET does blow then you need a larger capacitor here.
I have also found putting a small MKP capacitor in parallel with the primary coil helps reduce the voltage spikes and MOSFET heating a little. It makes the arcs smaller but thicker though.
As for making the arcs smaller, putting anything there that reduces back emf spikes will make the arc slightly smaller but its a compromise between arc length and durability. The only reason you get such a high voltage on the secondary coil is becuase of this back emf spike, if you were to put a diode in reverse with the primary coil like you would with a motor or relay then you would remove all back emf spikes but arc length will be much smaller becuase there will be no "flyback kick" to further boost the output voltage.
I also recommend having a permanent arc gap set up for the arc to take place, rather than always drawing arcs and moving the arc around. I say this becuase the back emf spikes are different depending on how much you are loading the secondary coil of the flyback, and with no arc at all or if the arc is unstable the back emf will much higher than if you had a steady arc going.
Hope this helps.
i was thinking, what if you put the diode in between the primary and the transistor? like
+12V -> one side of primary -> other side of primary w/ small capacitor across it -> DIODE -> mosfet with backwards diode-> ground.
and also have zener diodes put together across the gate, so any overvoltage (<24) to further protecy the mosfet?
and havee you tried IGBT's? do they work any better?
Yes you can use a zener diode to protect the gate, use a 12-18v one with cathode to the gate and anode to ground.
See the image I have attached.
used it in the plasmana's ZVS flyback...
See the image I have have attached to this reply for comparison.
Short answer: Get the NE555N.
the BEST schematic but when I turn on the 555 oscillator and connect the primary
coil to power it gets very hot and no arcs on secondary. Any idea where the
problem could be?
Any Idea what's going wrong with the audio? I'm using right channel and ground, headphone wire continuity with the circuit is solid. Tried a couple of different flybacks too.
PS:
You have got to see the results of using this driver with a "sampo" brand computer monitor flyback.....Internal capacitors are scary as hell. Youtube channel coming soon :p
too bad, cool inst. sent friend somewhere else...