A novel dual‐band balanced‐to‐single‐ended in‐phase filtering power divider based on slotted circular patch resonator

This article proposes a balanced‐to‐single‐ended (BTSE) in‐phase filtering power divider (FPD) based on slotted circular patch resonator, By carefully studying the TM11‐like and TM12‐like modes in the slotted circular patch resonator, the common‐mode (CM) signal of the balanced port can be well supp...

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Veröffentlicht in:	International journal of RF and microwave computer-aided engineering 2022-09, Vol.32 (9), p.n/a
Hauptverfasser:	Liu, Zhengkang, Zhang, Qiyun, Guo, Zaicheng, Wang, Huaiwei, Li, Zhihan, Sun, Yuan, Shi, Jianping, Zhang, Gang
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Sprache:	eng
Schlagworte:	balanced‐to‐single‐ended (BTSE) circular patch resonator dual‐band filtering power divider (FPD) Filtration Frequencies in‐phase Power dividers Resonators
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container_title	International journal of RF and microwave computer-aided engineering
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creator	Liu, Zhengkang Zhang, Qiyun Guo, Zaicheng Wang, Huaiwei Li, Zhihan Sun, Yuan Shi, Jianping Zhang, Gang
description	This article proposes a balanced‐to‐single‐ended (BTSE) in‐phase filtering power divider (FPD) based on slotted circular patch resonator, By carefully studying the TM11‐like and TM12‐like modes in the slotted circular patch resonator, the common‐mode (CM) signal of the balanced port can be well suppressed, and in‐phase output and good isolation can be obtained at the single‐ended ports. At the same time, two patch resonators is properly coupled through the apertures etched on the common ground in a back‐to‐back form to achieve a dual‐band filter response. In order to verify the feasibility of this concept, a dual‐band BTSE in‐phase FPD operating at 3.9 and 7.3 GHz is designed, manufactured and tested. The simulation results are in good agreement with the measurement ones, indicating that the design has expected differential‐mode (DM) response, nice CM rejection, significant single‐ended output port isolation, and a dual‐wide frequency band.
doi_str_mv	10.1002/mmce.23274
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At the same time, two patch resonators is properly coupled through the apertures etched on the common ground in a back‐to‐back form to achieve a dual‐band filter response. In order to verify the feasibility of this concept, a dual‐band BTSE in‐phase FPD operating at 3.9 and 7.3 GHz is designed, manufactured and tested. 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At the same time, two patch resonators is properly coupled through the apertures etched on the common ground in a back‐to‐back form to achieve a dual‐band filter response. In order to verify the feasibility of this concept, a dual‐band BTSE in‐phase FPD operating at 3.9 and 7.3 GHz is designed, manufactured and tested. 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At the same time, two patch resonators is properly coupled through the apertures etched on the common ground in a back‐to‐back form to achieve a dual‐band filter response. In order to verify the feasibility of this concept, a dual‐band BTSE in‐phase FPD operating at 3.9 and 7.3 GHz is designed, manufactured and tested. The simulation results are in good agreement with the measurement ones, indicating that the design has expected differential‐mode (DM) response, nice CM rejection, significant single‐ended output port isolation, and a dual‐wide frequency band.</abstract><cop>Hoboken, USA</cop><pub>John Wiley & Sons, Inc</pub><doi>10.1002/mmce.23274</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0003-4584-9801</orcidid><orcidid>https://orcid.org/0000-0001-8363-3265</orcidid><orcidid>https://orcid.org/0000-0003-4305-2567</orcidid><oa>free_for_read</oa></addata></record>
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subjects	balanced‐to‐single‐ended (BTSE) circular patch resonator dual‐band filtering power divider (FPD) Filtration Frequencies in‐phase Power dividers Resonators
title	A novel dual‐band balanced‐to‐single‐ended in‐phase filtering power divider based on slotted circular patch resonator
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