Compact Smart Antenna with Electronic Beam-Switching and Reconfigurable Polarizations

Chao Gu; Steven Gao; Haitao Liu; Qi Luo; Tian Hong Loh; Mohammed Sobhy; Jianzhou Li; Gao Wei; Jiadong Xu; Fan Qin; B. Sanz-Izquierdo; Raed A. Abd-Alhameed

doi:10.1109/TAP.2015.2490239

Compact Smart Antenna with Electronic Beam-Switching and Reconfigurable Polarizations

Chao Gu, Steven Gao, Haitao Liu, Qi Luo, Tian Hong Loh, Mohammed Sobhy, Jianzhou Li, Gao Wei, Jiadong Xu, Fan Qin, B. Sanz-Izquierdo, Raed A. Abd-Alhameed

School of Electronics and Information

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

88 Scopus citations

Abstract

This paper presents a compact-size, low-cost smart antenna with electronically switchable radiation patterns, and reconfigurable polarizations. This antenna can be dynamically switched to realize three different polarizations including two orthogonal linear polarizations and one diagonally linear polarization. By closely placing several electronically reconfigurable parasitic elements around the driven antenna, the beam switching can be achieved in any of the three polarization states. In this design, a polarization reconfigurable square patch antenna with a simple feeding network is used as the driven element. The parasitic element is composed of a printed dipole with a PIN diode. Using different combinations of PIN diode on/off states, the radiation pattern can be switched toward different directions to cover an angle range of 0° to 360° in the azimuth plane. The concept is confirmed by a series of measurements. This smart antenna has the advantages of compact size, low cost, low power consumption, reconfigurable polarizations, and beams.

Original language	English
Article number	7297845
Pages (from-to)	5325-5333
Number of pages	9
Journal	IEEE Transactions on Antennas and Propagation
Volume	63
Issue number	12
DOIs	https://doi.org/10.1109/TAP.2015.2490239
State	Published - Dec 2015

Keywords

Beam switching
pattern diversity
polarization diversity
reconfigurable antenna
smart antenna

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10.1109/TAP.2015.2490239

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title = "Compact Smart Antenna with Electronic Beam-Switching and Reconfigurable Polarizations",

abstract = "This paper presents a compact-size, low-cost smart antenna with electronically switchable radiation patterns, and reconfigurable polarizations. This antenna can be dynamically switched to realize three different polarizations including two orthogonal linear polarizations and one diagonally linear polarization. By closely placing several electronically reconfigurable parasitic elements around the driven antenna, the beam switching can be achieved in any of the three polarization states. In this design, a polarization reconfigurable square patch antenna with a simple feeding network is used as the driven element. The parasitic element is composed of a printed dipole with a PIN diode. Using different combinations of PIN diode on/off states, the radiation pattern can be switched toward different directions to cover an angle range of 0° to 360° in the azimuth plane. The concept is confirmed by a series of measurements. This smart antenna has the advantages of compact size, low cost, low power consumption, reconfigurable polarizations, and beams.",

keywords = "Beam switching, pattern diversity, polarization diversity, reconfigurable antenna, smart antenna",

author = "Chao Gu and Steven Gao and Haitao Liu and Qi Luo and Loh, {Tian Hong} and Mohammed Sobhy and Jianzhou Li and Gao Wei and Jiadong Xu and Fan Qin and B. Sanz-Izquierdo and Abd-Alhameed, {Raed A.}",

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doi = "10.1109/TAP.2015.2490239",

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AU - Liu, Haitao

AU - Luo, Qi

AU - Loh, Tian Hong

AU - Sobhy, Mohammed

AU - Li, Jianzhou

AU - Wei, Gao

AU - Xu, Jiadong

AU - Qin, Fan

AU - Sanz-Izquierdo, B.

AU - Abd-Alhameed, Raed A.

PY - 2015/12

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N2 - This paper presents a compact-size, low-cost smart antenna with electronically switchable radiation patterns, and reconfigurable polarizations. This antenna can be dynamically switched to realize three different polarizations including two orthogonal linear polarizations and one diagonally linear polarization. By closely placing several electronically reconfigurable parasitic elements around the driven antenna, the beam switching can be achieved in any of the three polarization states. In this design, a polarization reconfigurable square patch antenna with a simple feeding network is used as the driven element. The parasitic element is composed of a printed dipole with a PIN diode. Using different combinations of PIN diode on/off states, the radiation pattern can be switched toward different directions to cover an angle range of 0° to 360° in the azimuth plane. The concept is confirmed by a series of measurements. This smart antenna has the advantages of compact size, low cost, low power consumption, reconfigurable polarizations, and beams.

AB - This paper presents a compact-size, low-cost smart antenna with electronically switchable radiation patterns, and reconfigurable polarizations. This antenna can be dynamically switched to realize three different polarizations including two orthogonal linear polarizations and one diagonally linear polarization. By closely placing several electronically reconfigurable parasitic elements around the driven antenna, the beam switching can be achieved in any of the three polarization states. In this design, a polarization reconfigurable square patch antenna with a simple feeding network is used as the driven element. The parasitic element is composed of a printed dipole with a PIN diode. Using different combinations of PIN diode on/off states, the radiation pattern can be switched toward different directions to cover an angle range of 0° to 360° in the azimuth plane. The concept is confirmed by a series of measurements. This smart antenna has the advantages of compact size, low cost, low power consumption, reconfigurable polarizations, and beams.

KW - Beam switching

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KW - polarization diversity

KW - reconfigurable antenna

KW - smart antenna

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ER -

Compact Smart Antenna with Electronic Beam-Switching and Reconfigurable Polarizations

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Keywords

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