Design of Millimeter-Wave High-Power Power Monitoring Miter Bend Based on Aperture-Coupling

QIN Long; ZHAO Qing; LIU Shuzhang

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Design of Millimeter-Wave High-Power Power Monitoring Miter Bend Based on Aperture-Coupling

机译：基于孔径耦合的毫米波大功率功率监测斜接弯设计

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A directional coupler in a miter bend was designed to monitor the microwave power of the transmission line in an electron cyclotron resonance heating (ECRH) system. It is based on aperture-coupling theory and simulation of an electromagnetic (EM) field to design and optimize the 140 GHz high-power directional coupler. In addition, we simulated the double-aperture directional coupler by using three-dimensional (3D) EM simulation software, in which the central frequency is 140 GHz, coupling factor is about -70 dB, and directivity is greater than 17dB. The results show that such a coupler is a viable tool for power measurement in high-power transmission systems.

机译：设计了斜接弯曲的定向耦合器，以监控电子回旋共振加热（ECRH）系统中传输线的微波功率。它基于孔径耦合理论和电磁场（EM）场的仿真来设计和优化140 GHz大功率定向耦合器。此外，我们使用三维（3D）EM仿真软件对双孔定向耦合器进行了仿真，其中中心频率为140 GHz，耦合因子约为-70 dB，方向性大于17dB。结果表明，这种耦合器是用于大功率传输系统中功率测量的可行工具。

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《Plasma Science & Technology》 |2014年第7期|共4页
作者
QIN Long; ZHAO Qing; LIU Shuzhang;
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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
ECRH; power monitoring; aperture-coupling; 140 GHz; transmission line;

机译：ECRH;功率监控;孔径耦合;140 GHz;传输线;
入库时间 2022-08-18 16:35:01

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1. Design of Millimeter-Wave High-Power Power Monitoring Miter Bend Based on Aperture-Coupling [J] . QIN Long, ZHAO Qing, LIU Shuzhang Plasma Science & Technology . 2014,第7期

机译：基于孔径耦合的毫米波大功率功率监测斜接弯设计
2. Power monitor miter bends for high-power microwave transmission [J] . Doane John, Anderson James, Grunloh Howard, Fusion Engineering and Design . 2015,第apra期

机译：功率监控器斜接弯头，用于大功率微波传输
3. Polarizer miter bends for high-power microwave transmission: Ohmic loss and cooling [J] . Doane John, Grunloh Howard, Martin Ward, Fusion Engineering and Design . 2016,第Jana期

机译：用于大功率微波传输的偏振器斜接器弯曲：欧姆损耗和冷却
4. Broadband Polarizer Miter Bend for High-Power Radar Applications [C] . Daniel Haas, Alexander Marek, Manfred Thumm, German Microwave Conference . 2020

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Design of Millimeter-Wave High-Power Power Monitoring Miter Bend Based on Aperture-Coupling

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