Запис Детальніше

Design and Optimization of a Planar UWB Antenna

Електронного архіву Харківського національного університету радіоелектроніки (Open Access Repository of KHNURE)

Переглянути архів Інформація
 
 
Поле Співвідношення
 
Title Design and Optimization of a Planar UWB Antenna
 
Creator Lim, Eng Gee
Wang, Zhao
Juans, Gerry
Man, Ka Lok
Zhang, Nan
Hahanov, V. I.
Litvinova, E. I.
Chumachenko, S. V.
Mishchenko, A.
Dementiev, S.
 
Subject Design
Optimization
a Planar UWB Antenna
 
Description In this paper, we present our design on a simple, low-profile wideband planar antenna with a pure circular radiator fed by a 50 Ω microstrip line. By investigating the feeding position and ground plane dimensions, the antenna is optimized to have a very wide bandwidth that covers the whole FCC-allocated ultra-wideband (UWB) spectrum. Because of the additional patch beneath the radiator, the bandwidth can be further extended towards the lower side of the frequency spectrum. This antenna is finally modified to have a bandwidth from 2 to 12 GHz, which satisfies system requirements for S-DMB, WiBro, WLAN, CMMB and the entire UWB with S11 < -10dB. Since the Federal Communications Commission (FCC) of United States allocated the unlicensed frequency spectrum from 3.1 GHz to 10.6 GHz for commercial applications of ultra-wideband (UWB) technology in 2002 [1], ultra-wideband (UWB) technology has gained great popularity in research and industrial areas because of its high data rate wireless communication capability for various applications. As a crucial part of the UWB system, UWB antennas have been investigated extensively by researchers and numerous proposals for UWB antenna designs have been reported [2-5]. In [2], a new ultra-wideband antenna consisting of two steps, a single slotted patch and a partial ground plane is designed to operate from 3.2 to 12 GHz. In J. N. Lee’s work [3], an ultrawideband antenna composed of a modified trapezoidal radiating patch, a PI-shaped matching stub, CPW feeding, and two steps for impedance matching has been proposed for UWB applications. In [4], an ultrawideband microstrip-fed monopole antenna with a narrow slit and a modified inverted U-slot on the patch is presented. Recently, a small planar antenna fed by a microstrip line has been investigated and designed to exhibit dualband operation for Bluetooth (2.4 - 2.484 GHz) and UWB (3.1 - 10.6 GHz) bands [5]. However, many of the proposed designs employed slots or other complicated modifications in the antenna radiator and/or ground plane. These designs may pose complications during fabrication of the antenna since the tolerance of the increased special features/variables could be problematic when it goes to mass production, and instability due to the fact that complicated antenna structures may also occur in practice. Therefore, we are motivated to design a low complexity, low cost and compact antenna with wide frequency coverage supporting various applications such as Satellite Digital Multimedia Broadcasting (S-DMB), Wireless Broadband (WiBro), Wireless Local Area Network (WLAN), China Multimedia Mobile Broadcasting (CMMB) and UWB. In this paper, we present a very simple circular planar antenna with operating bandwidth ranging from 2 GHz to 12 GHz by integrating several techniques into one compact antenna. The design approach is very similar to our previously reported paper [6]. We start with a simple circular planar antenna fed by a 50Ω microstrip line with a truncated ground plane. Next, based on the study of the size of the radiator and current distribution, the antenna is designed to have an operating bandwidth covering the entire UWB band, i.e. 3.1 - 10.6 GHz. Then, the study on the size of the partial ground plane is conducted to increase the bandwidth towards the lower side of the frequency spectrum, to cover the bands for WLAN (2.4 - 2.484 GHz) and CMMB (2.635 – 2.66 GHz). With an extra patch printed on the back side of the substrate, underneath the circular radiator, the bandwidth can be further increased to cover Wibro (2.3 - 2.4 GHz) and S-DBM (2.17 -2.2 GHz) without significantly influencing other frequency bands. Thus the proposed antenna can be used for various applications such as SDMB, Wibro, WLAN, CMMB and the operating bands are evaluated using with the criterion of having return loss S11 less than 10 dB. Simulated radiation patterns over the whole frequency bands are acceptable.
 
Date 2016-09-02T05:54:02Z
2016-09-02T05:54:02Z
2013
 
Type Article
 
Identifier Eng Gee Lim Design and Optimization of a Planar UWB Antenna/Eng Gee Lim, Zhao Wang, Gerry Juans, Ka Lok Man, Nan Zhang, Vladimir Hananov, Eugenia Litvinova, Svetlana Chumachenko, Mishchenko Alexander, Dementiev Sergey //Proceedings of IEEE East-West Design & Test Symposium (EWDTS’2013)
http://openarchive.nure.ua/handle/document/1945
 
Language en
 
Publisher EWDTS