Hang Yuan scite author profile

A high selectivity planar filtering quasi-Yagi antenna employing the codesign of bandpass filter (BPF) and antenna is investigated in this article. A stubloaded resonator (SLR) and a half-wavelength resonator are utilized as the feeding network to excite the driven dipole of the quasi-Yagi antenna. The length of the driven dipole is about half-wavelength, which can be equivalent to the last stage resonator of BPF, achieving a good filtering gain response. To improve the frequency selectivity, an elaborate balun structure is utilized, and a transmission zero (TZ) on the lower side of the passband is acquired.Together with the TZ introduced by the SLR at the upper edge, the antenna can achieve a sharp band-skirt. An antenna prototype is fabricated and measured, showing a wide bandwidth up to 19.1% (from 3.1 to 3.76 GHz) with a flat gain response in band, an antenna peak gain of 4.85 dBi and a peak efficiency of À0.6 dB.

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Design of Planar Filtering Quasi-Yagi Antenna

Yuan

Chen

2021

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Codesign of ADS and Crisscross-Shaped Dipole Antenna and Its Application in Dual-Band Antenna Array Decoupling

Yuan

Chen

2023

Antennas Wirel. Propag. Lett.

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Hang Yuan

A High Selectivity and High Efficiency Filtering Antenna With Controllable Radiation Nulls Based on Stacked Patches

A Wideband and High Gain Dual-Polarized Filtering Antenna Based on Multiple Patches

A high selectivity planar filtering quasi‐Yagi antenna

Design of Planar Filtering Quasi-Yagi Antenna

Codesign of ADS and Crisscross-Shaped Dipole Antenna and Its Application in Dual-Band Antenna Array Decoupling

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