EBG Common-Mode Filter Design Using Uncoupled Coplanar Waveguide to Microstrip Transitions

Wilder A. Alarcon; A. Ege Engin; Ivan NdipKlaus-Dieter Lang

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EBG Common-Mode Filter Design Using Uncoupled Coplanar Waveguide to Microstrip Transitions

机译：使用非耦合EBG共模滤波器设计共面波导微带转换

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This letter investigates the effects of an Electromagnetic Bandgap (EBG) common-mode filter design using coplanar waveguide (CPW) to microstrip transitions on differential signals. Specifically, the improvements in the frequency and time domains are studied by s-parameters and eye diagrams. EBG structures are based on a periodic alteration of even-mode impedances to create stop bands in the common-mode, while not affecting the differential mode as much as possible. The proposed common-mode filter is unique in the way that a broad bandwidth is achieved by choosing one of the even-mode characteristic impedances as small as possible. This EBG structure is implemented on a printed circuit board (PCB) and characterized using a 4-port vector network analyzer (VNA).

机译：这封信调查的影响电磁能带电磁带隙)(共模滤波器使用共面波导(CPW)设计微带过渡微分信号。具体来说,提高频率和时间域的参数和学习眼图。定期变更even-mode阻抗创建停止乐队共模,虽然不是影响微分模式一样可能的。独特的方式广泛的带宽通过选择even-mode之一特性阻抗尽可能小。电磁带隙结构这是印刷的方式实现电路板(PCB)和使用特点并矢量网络分析仪(VNA)。

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来源
《IEEE journal on electromagnetic compatibility practice and applications》 |2020年第3期|81-84|共4页
作者
Wilder A. Alarcon; A. Ege Engin; Ivan NdipKlaus-Dieter Lang;
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作者单位

Fraunhofer-Institut fuer Zuverlaes-sigkeit und Mikrointegration IZM, Berlin, Germany;

San Diego State University, San Diego, CA, USA;

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原文格式 PDF
正文语种英语
中图分类 IELEP0501;
关键词
Web filters; scattering parameters; coplanar waveguidesleft-handed materialsmicrostrip transitionselectromagnetic compatibilitycommon mode filterMicrostrip filterssuperconducting microstripsdifferential modePeriodic structuresVector network analysers;

机译：Web过滤器;散射参数;共面waveguidesleft-handed materialsmicrostriptransitionselectromagnetic compatibilitycommon模式filterMicrostrip filterssuperconductingmicrostripsdifferential modePeriodicstructuresVector网络分析器;

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专利

1. Magnetic-Coupling Based Waveguide-to-Microstrip Transition [J] . Jun Xu, Zhi-Tao Xu, Mao-Yan Wang, 电子科技学刊：英文版 . 2011,第002期
2. ВОЛНОВОД С БЕСКОНТАКТНЫМИ СТЕНКАМИ ИЗ EBG-СТРУКТУРЫ [J] . С. Е. Банков, В. А. Калошин Радиотехника и электроника . 2010,第4期

机译：EBG结构的无接触墙的WAVEGUIDE
3. 科学技術計算用シミュレーション·ソフトウェアをマスタしよう：フィルタ設計のためのScilab入門 [J] . 三谷政昭, Masaaki Mitani インタ-フェ-ス . 2006,第9期

机译：让我们的科学和技术主仿真软件：Scilab for Filter Design简介
4. Lumped Element Coplanar-Microstrip-Transition Model for Si-RFICs up to 90GHz [C] . Daniel Gnmer, Zihui Zhang, Falk Korndoerfer, IEEE International Workshop on Radio-Frequency Integration Technology . 2007

机译：Clumped Element Coplanar-MicroTrip-Transition模型，用于SI-RFICS高达90GHz
5. W-BAND MICROSTRIP-TO-WAVEGUIDE TRANSITION USING VIA FENCES [O] . R. Shireen, S. Shi, D. W. Prather 2016

机译：使用VIa FONCEs的W-BaND mICROsTRIp-TO-WaVEGUIDE转换

EBG Common-Mode Filter Design Using Uncoupled Coplanar Waveguide to Microstrip Transitions

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