Filter designs based on coupled transmission line model for double split ring resonators

Publication: Research - peer-reviewJournal article – Annual report year: 2012

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@article{49e3d2a6eca94b539726d65e7630752b,
title = "Filter designs based on coupled transmission line model for double split ring resonators",
keywords = "Coupling coefficients, Coupled lines, Microstrip, Impedance matrix, Asymmetric coupled multiconductors, Double split ring resonator, Filter synthesis",
author = "Lei Yan and Meng Tang and Viktor Krozer and Vitaliy Zhurbenko and Chenhui Jiang and Johansen, {Tom Keinicke}",
year = "2012",
doi = "10.1002/mop.26529",
volume = "54",
number = "2",
pages = "467--471",
journal = "Microwave and Optical Technology Letters",
issn = "08952477",

}

RIS

TY - JOUR

T1 - Filter designs based on coupled transmission line model for double split ring resonators

A1 - Yan,Lei

A1 - Tang,Meng

A1 - Krozer,Viktor

A1 - Zhurbenko,Vitaliy

A1 - Jiang,Chenhui

A1 - Johansen,Tom Keinicke

AU - Yan,Lei

AU - Tang,Meng

AU - Krozer,Viktor

AU - Zhurbenko,Vitaliy

AU - Jiang,Chenhui

AU - Johansen,Tom Keinicke

PY - 2012

Y1 - 2012

N2 - This work presents a systematic way to design filters based on coupled transmission line model of the microstrip rectangular double split ring resonators (DSRRs). This model allows to estimate all resonance modes of DSRR and extract the quality factors of the structure for filter synthesis purpose. According to the filter specifications, the low‐pass prototype parameters are used to calculate the required coupling coefficients between coupled DSRRs. The corresponding coupling coefficients are realized by using asymmetric coupled multi‐conductors networks. The proposed filter synthesis approach is experimentally verified by comparing measured and simulated data using the developed models.

AB - This work presents a systematic way to design filters based on coupled transmission line model of the microstrip rectangular double split ring resonators (DSRRs). This model allows to estimate all resonance modes of DSRR and extract the quality factors of the structure for filter synthesis purpose. According to the filter specifications, the low‐pass prototype parameters are used to calculate the required coupling coefficients between coupled DSRRs. The corresponding coupling coefficients are realized by using asymmetric coupled multi‐conductors networks. The proposed filter synthesis approach is experimentally verified by comparing measured and simulated data using the developed models.

KW - Coupling coefficients

KW - Coupled lines

KW - Microstrip

KW - Impedance matrix

KW - Asymmetric coupled multiconductors

KW - Double split ring resonator

KW - Filter synthesis

U2 - 10.1002/mop.26529

DO - 10.1002/mop.26529

JO - Microwave and Optical Technology Letters

JF - Microwave and Optical Technology Letters

SN - 08952477

IS - 2

VL - 54

SP - 467

EP - 471

ER -