Gao-Ya Jin scite author profile

In this article, a co‐planar waveguide‐fed ultra‐wideband (UWB) multiple‐input multiple‐output flexible antenna with dual band‐notched characteristics on liquid crystal polymer substrate with high isolation for wireless body area network application is designed and fabricated. Two fan‐shaped monopole UWB antenna elements are designed and placed vertically, with tampered feeder, asymmetrical ground plane and two C‐shaped slots on the radiation patch. The measured working bandwidth can reach 2.63–11.6 GHz and the rejection bands are 3.25–4.36 and 5.41–6 GHz. The port isolation (S21) is better than −22 dB. When the bending radius is 35 and 45 mm, the antenna is measured for flexibility. In addition, the antenna is placed on human tissue to test its performance. All the results show that it has good radiation, high isolation and flexibility, and has broad application prospects in the wearable field.

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A Compact Tri-Band Flexible Mimo Antenna Based on Liquid Crystal Polymer for Wearable Applications

Du¹,

Wang²,

Jin³

2021

PIER M

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In this paper, a compact tri-band flexible MIMO antenna based on liquid crystal polymer (LCP) is designed to operate in WLAN and WiMAX bands. The antenna consists of two identical antenna elements. The isolation structure includes a ground slot, two I-shaped branches, and a parasitic strip. The measured results show that the impedance bandwidth (S 11 < −10 dB) covers three frequency bands of 2.38-2.55 GHz, 3.37-3.60 GHz, and 4.92-5.37 GHz, and the S 21 of working bands is basically better than −19 dB. Moreover, the flexibility of the MIMO antenna is analyzed at different bent cases. The specific absorption ratio (SAR) values are obtained by simulating the model of antenna approaching human body. The simulated results show that the SAR value of the antenna meets the European Union (EU) standard. The proposed antenna demonstrates the characteristics of satisfactory radiation, high isolation, sound gain in working bands and flexibility, which has good application prospects in the wearable field.

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A Wideband CPW-fed Monopole Hexagon Antenna for UWB Applications

Jin

et al. 2020

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A Quad-Band MIMO Antenna for WLAN/WiMAX/7GHz X-Band Applications

Jin

et al. 2020

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Gao-Ya Jin

A compact CPW-fed band-notched UWB-MIMO flexible antenna for WBAN application

Design of a co‐planar waveguide‐fed flexible ultra‐wideband ‐ multiple‐input multiple‐output antenna with dual band‐notched characteristics for wireless body area network

A Compact Tri-Band Flexible Mimo Antenna Based on Liquid Crystal Polymer for Wearable Applications

A Wideband CPW-fed Monopole Hexagon Antenna for UWB Applications

A Quad-Band MIMO Antenna for WLAN/WiMAX/7GHz X-Band Applications

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