Bending and On-Arm Effects on a Wearable Antenna for 2.45 GHz Body Area Network

Bin Hu; Guo Ping Gao; Le Le He; Xiao Dong Cong; Jin Ning Zhao

doi:10.1109/LAWP.2015.2446512

Bending and On-Arm Effects on a Wearable Antenna for 2.45 GHz Body Area Network

Bin Hu, Guo Ping Gao, Le Le He, Xiao Dong Cong, Jin Ning Zhao

Lanzhou University

Research output: Contribution to journal › Article › peer-review

147 Citations (Scopus)

Abstract

Three types of flexible textile antennas for 2.45 GHz body area network (BAN) are compared in this letter. Two types of conducting materials are used to form radiation patch and ground plane; they are called copper foil tape (CFT, 0.05 mm thickness) and Shieldex (SH, 0.13 mm thickness, 0.009 Ohm surface resistivity). The substrate is a thin felt with relative permittivity of 1.2 and the thickness of 2 mm. In order to satisfy these requirements of small frequency shifting when the antenna is bent and placed on human body, two shorting probes are used to connect the radiation patch and ground plane. Compared to the antenna without shorting probes, the size of proposed antenna is reduced from 96 × 47 to 70 × 25 mm², and the measured minimum value of S₁₁ in free space is also decreased from - 14.59 to - 33.30 dB. Furthermore, an antenna with smaller size of 46 × 25 mm² is designed by modifying the proposed structure, and it can act as a wearable antenna as well.

Original language	English
Article number	7126951
Pages (from-to)	378-381
Number of pages	4
Journal	IEEE Antennas and Wireless Propagation Letters
Volume	15
DOIs	https://doi.org/10.1109/LAWP.2015.2446512
Publication status	Published - 2016
Externally published	Yes

Keywords

Bending performance
body area network
on-arm performance
textile antenna
wearable antenna

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10.1109/LAWP.2015.2446512

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title = "Bending and On-Arm Effects on a Wearable Antenna for 2.45 GHz Body Area Network",

abstract = "Three types of flexible textile antennas for 2.45 GHz body area network (BAN) are compared in this letter. Two types of conducting materials are used to form radiation patch and ground plane; they are called copper foil tape (CFT, 0.05 mm thickness) and Shieldex (SH, 0.13 mm thickness, 0.009 Ohm surface resistivity). The substrate is a thin felt with relative permittivity of 1.2 and the thickness of 2 mm. In order to satisfy these requirements of small frequency shifting when the antenna is bent and placed on human body, two shorting probes are used to connect the radiation patch and ground plane. Compared to the antenna without shorting probes, the size of proposed antenna is reduced from 96 × 47 to 70 × 25 mm2, and the measured minimum value of S11 in free space is also decreased from - 14.59 to - 33.30 dB. Furthermore, an antenna with smaller size of 46 × 25 mm2 is designed by modifying the proposed structure, and it can act as a wearable antenna as well.",

keywords = "Bending performance, body area network, on-arm performance, textile antenna, wearable antenna",

author = "Bin Hu and Gao, {Guo Ping} and He, {Le Le} and Cong, {Xiao Dong} and Zhao, {Jin Ning}",

note = "Publisher Copyright: {\textcopyright} 2002-2011 IEEE.",

year = "2016",

doi = "10.1109/LAWP.2015.2446512",

language = "English",

volume = "15",

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AU - Hu, Bin

AU - Gao, Guo Ping

AU - He, Le Le

AU - Cong, Xiao Dong

AU - Zhao, Jin Ning

PY - 2016

Y1 - 2016

N2 - Three types of flexible textile antennas for 2.45 GHz body area network (BAN) are compared in this letter. Two types of conducting materials are used to form radiation patch and ground plane; they are called copper foil tape (CFT, 0.05 mm thickness) and Shieldex (SH, 0.13 mm thickness, 0.009 Ohm surface resistivity). The substrate is a thin felt with relative permittivity of 1.2 and the thickness of 2 mm. In order to satisfy these requirements of small frequency shifting when the antenna is bent and placed on human body, two shorting probes are used to connect the radiation patch and ground plane. Compared to the antenna without shorting probes, the size of proposed antenna is reduced from 96 × 47 to 70 × 25 mm2, and the measured minimum value of S11 in free space is also decreased from - 14.59 to - 33.30 dB. Furthermore, an antenna with smaller size of 46 × 25 mm2 is designed by modifying the proposed structure, and it can act as a wearable antenna as well.

AB - Three types of flexible textile antennas for 2.45 GHz body area network (BAN) are compared in this letter. Two types of conducting materials are used to form radiation patch and ground plane; they are called copper foil tape (CFT, 0.05 mm thickness) and Shieldex (SH, 0.13 mm thickness, 0.009 Ohm surface resistivity). The substrate is a thin felt with relative permittivity of 1.2 and the thickness of 2 mm. In order to satisfy these requirements of small frequency shifting when the antenna is bent and placed on human body, two shorting probes are used to connect the radiation patch and ground plane. Compared to the antenna without shorting probes, the size of proposed antenna is reduced from 96 × 47 to 70 × 25 mm2, and the measured minimum value of S11 in free space is also decreased from - 14.59 to - 33.30 dB. Furthermore, an antenna with smaller size of 46 × 25 mm2 is designed by modifying the proposed structure, and it can act as a wearable antenna as well.

KW - Bending performance

KW - body area network

KW - on-arm performance

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KW - wearable antenna

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JF - IEEE Antennas and Wireless Propagation Letters

M1 - 7126951

ER -

Bending and On-Arm Effects on a Wearable Antenna for 2.45 GHz Body Area Network

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Keywords

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