Miniaturization and integration of various electronic devices, With the proposed antenna, the structure is complex, and the This work is licensed under a Creative Commons Attribution 4.0 License. Multi-frequency through different structures, but compared The comparisonīetween the above antennas and the proposed antenna is Same geometry on the left and right sides. Rectangular shaped radiator with F-shaped slots with the A circular ring, a Y-shape-like strip, and aĭefected ground plane were used to design a triple-bandĪntenna in. Strips with a new rectangular strip, tri-band antenna is
Microstrip antenna theory and application xidian university Patch#
The tri-bandĪntenna in was composed of a circle patch with aĬomplementary Split RingResonator (CSRR) slot and aĬonventional ground plane. Rectangular loop with three slits and a parasitic strip isĮxploited for WLAN and WiMAX application. The antenna in Ĭonsisted of a small inner rectangular ring, an outer The antenna in was composed of a rectangular ring,Ī fork-shaped strip, a modified 1-shaped stub, and a coplanar Ground plane were used to excite three different resonances L-shaped arms, a slitted feedline, and a slitted Investigated on multiband antennas for WLAN and WiMAXĪpplications. Over the past few years, several designs have been Higher requirements on multi-frequency antenna. Information Department of China at the end of 2018 places Plan which requires the antenna to operate at: 3.4-3.5, 3.53.6, and 4.8-4.9 GHz announced by the Industrial The China 5th-Generation (5G) spectrum resource allocation Important application in these research areas. Interoperability for Microwave Access (WiMAX) are an Multifrequency antennas for wireless systems used in Wireless Ultra-wideband and multi-frequency antennas. Planar antennas focused on two research areas of interest: Rapidly in recent years, and planar printed antennas haveĪttracted extensive attention in academic and industrialĬircles due to their small size, light weight, simple Wireless communication systems have been developing INDEX TERMS LCP, WLAN/WiMAX/5G, Flexible antennas, CPW Indicates that the antenna is suitable for integration in flexible electronic devices. The flexible, compact, simple design and multiband performance The proposed antenna shows re asonable gains and good radiationĬharacteristics in the operating bands. The experimental results show that the performance of theĪntenna remains reliable under bending conditions and that the specific absorption ratio (SAR) value meets Integration effect in wearable equipment.
In addition, the antenna is attached to different parts of the human body to test the Test the flexibility of the antenna, the antenna is simulated and measured in bent configurations for radii ofġ0 mm and 50 mm. The measurement results show that the proposedĪntenna has three operating bandwidths, including 2.38-2.79 GHz, 3.27-4.05 GHz, and 4.80-8.44 GHz.
Performance of the antenna is measured and tested. To analyze the characteristics, the antenna is designed and fabricated, and then the Is printed on a LCP substrate with a thickness of 0.1 mm and has a small overall dimensions ofĢ0mm×32mm×0.1mm. Two strips with the main radiation rectangular patch and coplanar waveguide ground. Interoperability for Microwave Access (WiMAX) and 5th-Generation (5G) systems. 61371022.ĪBSTRACT In this paper, a new compact coplanar waveguide (CPW)-fed liquid crystal polymer (LCP)īased tri-band antenna is presented and fabricated for Wireless Local Area Network (WLAN), Worldwide School of Communication and Information Engineering, Shanghai University, Shanghai 200072, ChinaĬorresponding author: CHENGZHU DU (e-mail: work was supported by the National Science Foundation of China under Grant No. Citation information: DOIĬompact Liquid Crystal Polymer Based TriBand Flexible Antenna for WLAN/WiMAX/5GĬHENGZHU DU1, XIAODI LI1, and SHUNSHI ZHONG2, (Member, IEEE)Ĭollege of Electronics and Information Engineering, Shanghai University of Electric Power, Shanghai 200090, China Content may change prior to final publication. This article has been accepted for publication in a future issue of this journal, but has not been fully edited.
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