Publication: Design and evaluation of finite and small antennas at 0.97 GHz for lightning remote sensing
Date
2019
Authors
Seah B.Y.
Ahmad M.R.
AlKahtani A.A.
Esa M.R.M.
Sidik M.A.B.
Baharin S.A.S.
Sabri M.H.M.
Yusop N.
Aziz M.Z.A.A.
Al-Khaleefa A.S.
Journal Title
Journal ISSN
Volume Title
Publisher
Mattingley Publishing
Abstract
This paper presents the analysis of the UHF signature associated with positive and negative narrow bipolar events (+NBEs and -NBEs) captured by using a finite antenna (the largest dimension comparable to the wavelength of the incident electric field) and a small antenna (the largest dimension less than one tenth of the wavelength of the incident electric field). Both antennas have been designed and simulated in Computer Simulation Technology(CST) simulator. The finite antenna was calibrated inside anechoic chamber and was found to have resonant frequency at 0.97 GHz with 20 MHz bandwidth and omnidirectional radiation pattern. Measurements have been conducted between November and December 2018 where 120 UHF samples and 69 UHF samples had been captured by small antenna and finite antenna, respectively, together with their corresponding low frequency records (lower than 1 MHz), also known as fast antenna record (FA record). In average, the UHF peak amplitudes of the finite antenna are 22% larger than the small antenna and the former has better SNR which would ease the characterization of the UHF signals. � 2019 Mattingley Publishing. All rights reserved.
Description
Lightning; Microwave antennas; Natural frequencies; Omnidirectional antennas; Remote sensing; Signal to noise ratio; UHF devices; Computer simulation technology (CST); Design and evaluations; Finite; Narrow bipolar events; Omnidirectional radiation pattern; Small antenna; UHF sensor; UHF signal; Directional patterns (antenna)