LLAMPUDKEN - A HIGH-CURRENT, LOW-IMPEDANCE PULSER EMPLOYING AN AUXILIARY EXPONENTIAL TRANSMISSION-LINE

The design and constructional aspects of a novel pulse power generator for use in dense plasma research presently under construction are pre sented. The generator consists of two Marx capacitor banks, each of 0. 25 mu F, 480 kV, and 28.8 kJ. Each Marx generator drives a water trans mission line, in which the live electrode is the central conductor. Th e transmission lines consist of a constant impedance section followed by a multielectrode gas line gap followed by an exponential taper to t he load section. The novel feature is the use of an auxiliary exponent ial line coupled at the load. This line controls both the voltage and the effective impedance at the load section. In addition, by leaving t his line circuit open, energy not coupled to the plasma in the initial high-impedance phase may be reflected back and deposited into the dis charge, increasing the peak current by 50%. Circuit simulations using a real-time-varying load impedance show that the current pulse rises i n an approximately linear way to a maximum of 1.2 MA at 250 ns. The cu rrent falls to zero in the following 250 ns. The current waveform may be flattened simply by disconnecting the auxiliary line, giving a rect angular pulse of 350 ns with a maximum value of 950 kA. The overall im pedance of the entire system may be adjusted by varying the separation between the conductors. The equivalent source impedance at the load i s 0.8 Omega. This low value is by virtue of the auxiliary line, which limits the voltage at the load section and reduces the insulator const raints. We present simulations of the generator under real load condit ions. The model also is checked against analytical solutions of expone ntial line behavior and against other published models of pulse power generators.