DocumentCode
927199
Title
Improved pulse power sources with high-energy density capacitor
Author
Lee, Ho-Lun ; Bullard, G.L. ; Mason, G.E. ; Kern, K.
Author_Institution
Pinnacle Res. Inst. Inc., Cupertino, CA, USA
Volume
25
Issue
1
fYear
1989
fDate
1/1/1989 12:00:00 AM
Firstpage
324
Lastpage
330
Abstract
The authors report on work done to demonstrate a concept that provides a nonnuclear space power system to be used on SDI (Strategic Defense Initiative) weapons platforms. The characteristics of a proposed high-power pulse energy system, formed by combining a recently developed high-energy density capacitor with various batteries, were investigated. The main advantages of the system thus far appear to be high power and pulse energy density and flexibility in energy outputs. Parametric relationships between most key design variables, such as average pulse power, system output voltages, load impedance, pulse width, pulse frequency, duty cycle and battery voltage and current limits, were established. Projections of the system´s weights in large-scale applications suggested that the lithium/SO2 battery considered might be too heavy when high duty cycles were required. However, significant weight reductions could be foreseen with proper selection of the battery and further advances in the capacitor technology
Keywords
capacitor storage; lithium; power supplies to apparatus; primary cells; pulsed power technology; space vehicle power plants; sulphur compounds; Li-SO2 primary cells; SDI; Strategic Defense Initiative; average pulse power; batteries; battery voltage; duty cycle; high-energy density capacitor; load impedance; nonnuclear space power system; pulse frequency; pulse power sources; pulse width; system output voltages; weapons platforms; Batteries; Capacitors; Frequency; Impedance; Large-scale systems; Lithium; Pulse power systems; Space vector pulse width modulation; Voltage; Weapons;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/20.22558
Filename
22558
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