Effects of shorting pin on the Substrate Integrated Cylindrical Cavity

Substrate Integrated Cylindrical Cavity (SICC) can be used to design compact planar circuits. For the same size, SICC loaded with shorting pin can resonate at higher frequency than no shorting pin SICC. This property can be used to implement the millimeter wave circuits. In this paper, the effects o...

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Main Authors: Luan Xiu-zhen, Tan Ke-jun, Fang Shao-jun
Format: Conference Proceeding
Language:English
Subjects:
Dielectric substrates
Inductance
Microstrip
Millimeter wave communication
Millimeter wave devices
Millimeter wave integrated circuits
Millimeter wave technology
Pins
Resonant frequency
RLC circuits
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creator Luan Xiu-zhen
Tan Ke-jun
Fang Shao-jun
description Substrate Integrated Cylindrical Cavity (SICC) can be used to design compact planar circuits. For the same size, SICC loaded with shorting pin can resonate at higher frequency than no shorting pin SICC. This property can be used to implement the millimeter wave circuits. In this paper, the effects of shorting pin on SICC are analyzed theoretically. With the help of electromagnetic simulation software, the effects of shorting pin position, radius and number on the resonant frequency of SICC are studied. Some results and conclusions are given in the paper, they will be useful for the SICC based millimeter wave device design.
doi_str_mv 10.1109/ICMMT.2010.5524985
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subjects Dielectric substrates
Inductance
Microstrip
Millimeter wave communication
Millimeter wave devices
Millimeter wave integrated circuits
Millimeter wave technology
Pins
Resonant frequency
RLC circuits
title Effects of shorting pin on the Substrate Integrated Cylindrical Cavity
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