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A spiral VIG consists of four alternating conductor-insulator-conductor-insulator sheets, wound into a cylinder, forming a [[capacitor]] also acting as a single-ended [[transmission line]], connected to a [[spark gap]] switch. The capacitor is charged from a power source, e.g. an [[Explosive-driven ferroelectric generator|EDFEG]], then the spark gap fires after its [[breakdown voltage]] is reached. The [[electromagnetic wave]] created by the [[electric spark]] discharge travels along the transmission line, converting [[electrostatic field]] to [[electromagnetic field]], then after reflecting from the open end converts back to electrostatic field. A pulse of output amplitude 2nU (where n is the number of turns of the capacitor and U is the initial voltage it was charged to) and a rise time equal to twice the [[electrical length (transmission medium)|electrical length]] of the transmission line.<ref>http://scholarsmine.mst.edu/post_prints/pdf/physics_09007dcc80588630.pdf</ref><ref>http://www.boliven.com/patent/US7151330/drawings</ref><ref>http://shadaly.com/vector_inversion_generator_4507567.html</ref> The device acts as a distributed [[pulse forming network]].
[[Ferrite (magnet)|Ferrite]]s can be attached to the VIG construction to modify its characteristics, typically lowering the resonant frequency and increasing the efficiency.<ref>http://www.findthatpatent.com/Apparatus_and_method_for_generating_high_voltages_using_a_voltage,7151330.html</ref>
==Applications==
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