Explosively pumped flux compression generator
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An explosively pumped flux compression generator is a pulsed power supply that magnetically derives its energy from an explosion.
Explosively pumped flux compression generators (hereafter referred to as an "EPFCG") are popular as power sources for electronic warfare devices known as transient electromagnetic devices that generate an electromagnetic pulse without the costs and side effects of a nuclear weapon, a form of cyberwar.
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[edit] Characteristics
An EPFCG is a one-off pulsed power supply; it can only be used once as the device is destroyed in operation. An EPFCG package that could be easily carried by a person can produce pulses in the millions of amperes — tens of terawatts, exceeding the power of a lightning strike by orders of magnitude.
They require a starting current pulse to operate, which is usually supplied from a capacitor bank which has in turn been charged from batteries or the power supply of the vehicle carrying the weapon.
[edit] Construction and Operation
The most widespread and developed design for an EPFCG is the coaxial design. This consists of a cylindrical core of high explosive surrounded by a conductive armature tube, an air gap, then a conductive winding.
In operation, the start current is supplied to the conductive winding from one end of the device, and the explosive is detonated from the same end. As the explosion propagates along the explosive core it forces the armature tube out across the air gap and into contact with the winding, forcing the magnetic flux in the air gap (induced by the start current in the winding) to be compressed against the winding, then shorting the winding out, starting from the input end of the device and progressing towards the output end as the explosion continues.
The motion of the armature tube through the intense magnetic field set up by the start current acts as an electromagnetic brake, resisting the explosion, and converting the explosive energy into electrical energy in the outer winding.
The far end of the winding is then tapped for power output. The result is a ramping current pulse, which peaks before the final disintegration of the device. Published results[citation needed] suggest ramp times of tens to hundreds of microseconds, with times depending on device maximum current and power.
When used as an electromagnetic pulse weapon, the EPFCG's output is fed to an antenna, possibly via some wave-shaping electronics; capacitors and inductors. A frequency converter device which turns the lower frequencies into microwave range can be placed between the EPFCG and the antenna; a vircator tube is particularly suitable. The output pulse is converted directly into an electromagnetic pulse which can damage electronics. It is not known for certain, though it is suspected, that at very short range the pulse may severely injure or even kill humans due to microwave heating effects in the body. In any case, this would require a person to be at such proximity to the device that they would stand a far greater chance of harm from the shock wave from the explosive and the high-speed shrapnel from the bomb casing.
[edit] Other uses
EPFCGs could be used to drive pulsed lasers for military applications, and for such interesting possibilities as portable nuclear magnetic resonance analysers; the EPFCG being used to provide energy for the powerful magnetic field required, and maybe the radio pulse used to probe the sample (using a single pulse for FTNMR), thus avoiding the need for large superconducting storage magnets. It may also be used as a fast rise time power surge source for the EBW and slapper detonators in advanced nuclear weapons.
