Wideband 90°phase shifter using modified composite resonant circuits for phase slope alignment

Jang, Youna; Ahn, Dal

doi:10.1002/mop.32194

Cited by 3 publications

(1 citation statement)

References 12 publications

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“…일반적으로 임의의 위상 차이를 갖는 전력분배기 구조는 중심주파수에서만 위상 차이를 갖는다는 한계를 갖는다 [6] . 광대역에서 일정 한 위상 기울기 특징을 지닌 위상 천이기가 복합 공진기 를 이용해 구현되었지만, 이 회로는 위상 편차 특성이 좋 지 않다는 단점이 있다 [7] . 임의로 일정하게 규정된 위상 차를 갖는 대역통과 전력분배기에 대한 연구도 진행되었 지만, 임의로 종단된 임피던스를 조절할 수 없다는 제한 이 있다 [8] .…”

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Bandpass-Filtering Coupled-Line Power Divider with Broadband Arbitrary Phase Difference

Kim¹,

Chaudhary²,

Jeong³

2021

J. Korean Inst. Electromagn. Eng. Sci.

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This paper presents an approach for the design of a bandpass-filtering coupled-line power divider with a broadband arbitrary phase difference between two paths. The proposed circuit consists of a Wilkinson power divider and N th-order coupled line bandpass filters(BPFs) having different fractional bandwidths(FBWs). Through control of the FBWs of the N th-order BPFs, a constant phase difference over broadband can be obtained. From the analysis, the design equations of the proposed circuit are derived. To prove the validity of the proposed circuit, a power divider having a phase difference of 180° is designed and fabricated. From the measurement results, the phase and magnitude imbalances are 180°±3.22° and ±0.2 dB, respectively, at the center frequency of 2.90 GHz with an operation bandwidth of 310 MHz.

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Bandpass-Filtering Coupled-Line Power Divider with Broadband Arbitrary Phase Difference

Kim¹,

Chaudhary²,

Jeong³

2021

J. Korean Inst. Electromagn. Eng. Sci.

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Broadband miniaturized 180° phase shifter based on symmetric coupling structure

Zhang

Sun

et al. 2022

Micro & Optical Tech Letters

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An electronically reconfigurable wideband 180° phase switch using microstrip–slotline transitions is proposed. Multilayer structure with microstrips on the bottom and top layers, slotline on the middle layer confirm the broadband transmission. Taking advantage of the symmetry of the transition, only two p–i–n diodes are integrated on the top microstrip layer to achieve a 0°/180° phase reconfiguration. Miniaturized design is achieved with a size of 0.26λg × 0.16λg. The measured results are in good agreement with the simulated results, which show less than 5° phase deviation and less than 1.5 dB insertion loss across the band 0.68–2.5 GHz.

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