A new millimeter-wave waveguide-based four-way power dividing/combining network

A novel Ka-band (29-37 GHz) four-way power dividing/combining network, based on Y-Structure waveguide has been proposed. To widen the bandwidth of the dividing/combining network, a stepped-impedance transformer at both E-plane and H-plane is used. One vertical resistive card and two horizontal resis...

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Hauptverfasser:	Yonglun Wu, Xiaoqiang Xie, Ruimin Xu, Qiuquan Lu
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bandwidth Microwave amplifiers Microwave circuits Microwave integrated circuits Millimeter wave communication
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creator	Yonglun Wu Xiaoqiang Xie Ruimin Xu Qiuquan Lu
description	A novel Ka-band (29-37 GHz) four-way power dividing/combining network, based on Y-Structure waveguide has been proposed. To widen the bandwidth of the dividing/combining network, a stepped-impedance transformer at both E-plane and H-plane is used. One vertical resistive card and two horizontal resistive cards are inserted to improve isolation. The EM simulation shows that, nearly 25% effective bandwidth (ranging from 29 to 37 GHz) is achieved, the return loss is better than -17 dB over the range 29.5-35.5 GHz, and the isolation and output port reflection are better than -11 dB over the whole range. This structure has properties of not only a wide bandwidth, good isolation, low insertion loss and high power capacity, but also a small size, perfect output amplitude and phase balance, and efficient thermal sinking performance, and has potential for millimeter-wave broadband high power combination applications.
doi_str_mv	10.1109/ICMMT.2012.6230218
format	Conference Proceeding
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To widen the bandwidth of the dividing/combining network, a stepped-impedance transformer at both E-plane and H-plane is used. One vertical resistive card and two horizontal resistive cards are inserted to improve isolation. The EM simulation shows that, nearly 25% effective bandwidth (ranging from 29 to 37 GHz) is achieved, the return loss is better than -17 dB over the range 29.5-35.5 GHz, and the isolation and output port reflection are better than -11 dB over the whole range. 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To widen the bandwidth of the dividing/combining network, a stepped-impedance transformer at both E-plane and H-plane is used. One vertical resistive card and two horizontal resistive cards are inserted to improve isolation. The EM simulation shows that, nearly 25% effective bandwidth (ranging from 29 to 37 GHz) is achieved, the return loss is better than -17 dB over the range 29.5-35.5 GHz, and the isolation and output port reflection are better than -11 dB over the whole range. This structure has properties of not only a wide bandwidth, good isolation, low insertion loss and high power capacity, but also a small size, perfect output amplitude and phase balance, and efficient thermal sinking performance, and has potential for millimeter-wave broadband high power combination applications.</abstract><pub>IEEE</pub><doi>10.1109/ICMMT.2012.6230218</doi><tpages>4</tpages></addata></record>
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subjects	Bandwidth Microwave amplifiers Microwave circuits Microwave integrated circuits Millimeter wave communication
title	A new millimeter-wave waveguide-based four-way power dividing/combining network
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