Integrated-Antenna-Source of Directive Peak Electric-Field Patterns for High-Power Ultrawideband Parabolic Reflector System

This letter presents a directive integrated-antenna-source (DIAS) for a high-power ultrawideband parabolic reflector system. Unlike the previously developed omnidirectional integrated-antenna-source (OIAS) that leads to spillover loss in a high-power parabolic reflector system, the proposed DIAS red...

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Bibliographic Details
Published in:IEEE antennas and wireless propagation letters 2019-04, Vol.18 (4), p.727-731
Main Authors: Ryu, Jiheon, Kim, Kiho, Lim, Tae Hyun, Kwon, Hae-Ok, Kuk, Jeong Hyeon, Choi, Jin Soo, Baek, Sung-Hyun, Yu, Jong-Won
Format: Article
Language:English
Subjects:
Antenna measurements
Antennas
Capacitance
Computer simulation
Electric field strength
Electric fields
Electrodes
Electromagnetic pulses
Generators
High-power electromagnetics (HPEM)
integrated-antenna-source (IAS)
peak electric-field pattern (PEFPs)
Switches
Ultrawideband
ultrawideband (UWB)
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Summary:This letter presents a directive integrated-antenna-source (DIAS) for a high-power ultrawideband parabolic reflector system. Unlike the previously developed omnidirectional integrated-antenna-source (OIAS) that leads to spillover loss in a high-power parabolic reflector system, the proposed DIAS reduces the spillover loss in the system. The DIAS is designed by cutting away the halves of the two electrodes in the OIAS. The DIAS-based reflector system was designed through numerical electromagnetic simulations. The proposed DIAS was fabricated for validation. The proposed DIAS shows 3 dB beamwidths on the H-plane and E-plane of 234° and 116°, respectively, in the peak electric-field patterns. In addition, the DIAS has a much smaller capacitance than the OIAS. The proposed DIAS-based reflector system has a peak electric-field strength of 39.5 kV/m at a distance of 40 m. The results show that, although the DIAS has a much smaller capacitance than the OIAS, the DIAS-based reflector system is capable of producing high-power electromagnetic pulses similar to those of the OIAS-based reflector system.
ISSN:1536-1225
1548-5757
DOI:10.1109/LAWP.2019.2901839