DESIGN STUDY OF A PHOTOELECTRICAL TRIGGER SYSTEM.

Abstract

A moderate-energy pulsed power system discharges 15 Marx-surge pulsers in parallel into an exploding-wire load. The present trigger system, which utilizes a common ultraviolet (uv) light source to irradiate a trigger gap in each pulser, requires operation with the pulser charging voltage set within about 2 percent of self-fire voltage to achieve simultaneous discharge of all pulsers within about = 2 nanoseconds. This degree of synchronism is essential to achieve minimum voltage rise-tim and hence maximum wire temperature. The study describes an improved 'photoelectrical' trigger system successfully developed experimentally, in which a fast-rise voltage trigger pulse is applied to a third electrode in the pulser trigger gap subsequent to uv illumination of the gap. Statistical data have been taken with a single pulser which predict successful triggering of the 15 system pulsers with a discharge simultaneity of about = 1 nanosecond, for a pulser charging voltage of about 10 percent below selffire, while still maintaining original system voltage output, pulse waveform, total delay time, and delay adjustment techniques. The 15 separate trigger pulses required can be derived from the present system uv pulser by addition of a 1:16 coaxial cable transformer. (Author)

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 1965

Accession Number

AD0625778

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