How to Build an EMP Generator

A favorite device of science fiction and action movie writers is the EMP generator. An EMP (or Electro-Magnetic Pulse) has the power to knock out all electronic devices within its range. Wall current, batteries, it doesn't matter: everything electrical just stops working. Think of the possibilities! One pop of an EMP generator, and that car next to you—you know the one, with the bass pumping so loud it makes your bones rattle—goes silent. Of course, so does your car. And wristwatch. And iPhone. Oh well, back to the drawing board—which is where we come in: we'll show you how to build a small EMP generator for fun. Be careful, though: the high voltages involved could be dangerous. Intrigued? Read on!

Steps

  1. 1
    Obtain a disposable camera. It doesn't have to be anything fancy, just a cheap photo shooter that you can pick up at any big-box store.
  2. 2
    Slip on a pair of rubber gloves. You'll be dealing with the potential of getting a painful shock should you accidentally touch the flash capacitor, which will carry about 300 volts when fully charged.
  3. 3
    Open the case. Using the flat edge of a screwdriver, carefully pry the camera apart, being careful not to touch the printed circuit board or any metal parts inside.
  4. 4
    Locate the large electrolytic capacitor on the PCB. It is commonly a black cylindrical item, with two leads coming out of the bottom.
  5. 5
    Discharge the flash capacitor safely. First, check to see if it's charged. Turn on your volt meter (if you have one), and set it to the 1000-volt scale. Place one probe on one lead of the capacitor, and the other probe on the other lead. If there is no reading, your capacitor may discharged. Slowly lower the scale until you get a reading.
    • If there's no reading, your capacitor is likely discharged already. If not...
  6. 6
    Discharge the flash and remove the battery. Charge the flash by turning it on. You should hear that familiar high-pitched whine as the capacitor charges. When the capacitor is charged, a light will come on, or blink, or make some indication that the flash is ready.
  7. 7
    Wind the film up until it clicks and stops. This sets the shutter so that you can shoot.
  8. 8
    Click the shutter button. Don't look at the flash when you shoot! The flash should engage. As soon as it does, remove the battery so that the capacitor does not charge again.
    • Use a volt meter again to check the residual charge in the capacitor. If there is, discharge it by placing a 100-ohm resistor across the the leads. Be careful to not touch the leads with your fingers if you're not wearing rubber gloves. You can get a nasty shock if the capacitor is still charged!
    • If you use a screwdriver to discharge the capacitor, it will make a loud bang and shower sparks and may do so several times. This is not the recommended method.
    • Repeat the process of checking the capacitor voltage until there is no voltage left.
  9. 9
    Locate the charge switch on the front of the PCB. It should make a click sound when pressed. Peel off the tape and remove the button, then solder a toggle switch directly onto the solder pads revealed underneath.
  10. 10
    Feeling adventurous? De-solder the trigger transformer and xenon flash tube from the PCB, and store or discard them as you wish. Alternatively isolate the section of PCB with the charger circuit and cut the rest off.
  11. 11
    If not, skip the above step and continue by soldering two cables onto the two capacitor terminals. Wire one of these to a high current momentary switch. You can find those at Radio Shack or other electronics hobby store.
  12. 12
    Form a load coil. Wrap 5-10 of turns of thick, insulated, stranded copper wire around a dowel approximately 1 to 2 inches (25-50mm) in diameter. With care, slide the windings off the dowel, and bind the coil by wrapping it with adhesive tape. You can also put an iron rod through the center of the coil as long as it fits snug, this will intensify the effects and range.
  13. 13
    Attach the coil to the switch. Connect one of the leads of the load coil to the other unused terminal on the switch, and the other lead to the free end of the cable coming from the capacitor. You should now have a PCB with a switch to turn the charger circuit on and off and a load coil that can be switched across the capacitor.
  14. 14
    Charge your EMP. Re-insert the battery. Place the load coil as close as possible to the desired target (such as a small electric toy, cheap calculator, or anything that's not valuable). Switch the charger on with the toggle switch, wait for the indicator to come on, then toggle the switch back off. This is done to prevent the charger from being damaged.
  15. 15
    Fire when ready. Press the momentary switch to fire your TEPG. Please note, that this will have no effect on electronics encased in steel or aluminum—or any other metal, for that matter.


Warnings
  • Do not operate near medical equipment or computer equipment. Do not use this if you wear a pacemaker.
  • May damage RFID systems or tags.
  • It is illegal to use this for destruction of property or disruption of services (UK).

Things You'll Need

  • Soldering iron
  • High-current momentary switch
  • Solder
  • Some general-purpose hook-up wire
  • Insulated thick copper cable
  • Small toggle switch
  • Disposable camera

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How to make an EMP device+ demo (Video)

THIS is cool!

Any idea the range it will reach? Does it emit in radius?

I really am considering trying it out. If I'm not on 12160 for awhile- DERP is probably what happened. ;)

this one's a "toy", functional, but miniscule in effectiveness (inches).  Good news is you can use this as a model to make a bigger, better, badder one. Cap size, voltage, a faster trigger (dispos cam isn't really a good one, mosfet will collapse because its now exceeding what it was designed to due, ie release stored cap energy to xenon flash bulb)

excellent source for HV Caps is a microwave oven, they look like this, a bunch wired in series would be a good supply

wanna talk Drone range?, gonna need something like this shunt cap, probably times 2

the antenna or the point it gets discharged is also important, higher in the air the better, lower the load, the farther the dispersal, etc

HIGH VOLTAGE KILLS!!!

yeah, had a video doc on it somewhere, sort of crude directed energy....

Sounds like an excellent tool to keep handy when SHTF! This may be needed to keep the police and feds from making a retreat!

Thanks DEEP!

I guess it's only useful if someone actually builds it. I'm no techie, but I'd surmise a good one would built upon a much larger scale?

so if the milabs put an rifd in me somewhere i could use this to fuck up theyre day?

Yes. If they install an rfid in your body, this will help. But it's very small and requires a lot of batteries. Your best bet is still good old fashioned tin foil, shaped into a hat. Sometimes the old standbys are the best!

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