• Title/Summary/Keyword: symmetrical parallel coupled-line

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Equivalent Circuit Design of 2.4 GHz Band LTCC Bandpass Filters Using Multilayer Inter-Digital Resonators (적층 Inter-Digital 공진기를 이용한 2.4 GHz 대역 LTCC 대역통과 여파기의 등가회로 설계)

  • Sung Gyu-Je
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.16 no.1 s.92
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    • pp.78-83
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    • 2005
  • LTCC filters have been widely used to wireless terminals. They generally adopt the multilayer structure. Some of multilayer LTCC filters are made of symmetrical parallel-coupled lines and anti-symmetrical parallel-coupled lines to reduce the length of resonators. The equivalent circuit of parallel-coupled lines was analyzed and applied to bandpass filters using multilayer parallel-coupled line resonators. The three-pole bandpass filter with the center frequency of 2.45 GHz is designed by using the proposed equivalent circuit and the measured results have good agreement with the design results.

Compact Low-Pass Filter with Sharp Skirt Characteristics and Broad Stopband

  • Li, Rui;Kim, Dong-Il;Choi, Chang-Mook
    • Journal of Navigation and Port Research
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    • v.30 no.7
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    • pp.607-610
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    • 2006
  • A new compact microstrip low-pass filter and its equivalent-circuit model are developed. The philosophy of the structure behind this novel microstrip low-pass filter is simple as it is composed of a pair of symmetrical parallel coupled-line and an open-stub. With this configuration, a finite attenuation pole near the stopband cutoff frequency is available and adjustable by simply tuning the circuit parameters. Furthermore, the rejection bandwidth of this type of low-pass filter can be extended. In order to validate the feasibility of the proposed design method, a low-pass filter based on a microstrip structure is designed, fabricated, and measured. Experimental results agree very well with the simulation and analytical results.

A Novel Design of Compact Low-Pass Filter and Its Equivalent Circuit Model

  • Li, Rui;Kim, Dong-Il;Choi, Chang-Mook;Song, Young-Man
    • Proceedings of the Korean Institute of Navigation and Port Research Conference
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    • 2006.10a
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    • pp.79-84
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    • 2006
  • A novel design of compact low-pass filter based on microstrip structure and its equivalent-circuit model are developed. The philosophy of the structure behind this novel microstrip low-pass filter is simple as it is composed of a pair of symmetrical parallel coupled-line and an open-stub. With this configuration, a finite attenuation pole near the stopband cutoff frequency is available and adjustable by simply tuning the circuit parameters. Furthermore, the rejection bandwidth of this type of low-pass filter can be extended. In order to validate the feasibility of the proposed design method, a low-pass filter based on a microstrip structure is designed, fabricated, and measured. Experimental results agree very well with the simulation and analytical results.

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Semi-Lumped Compact Low-Pass Filter for Harmonics Suppression

  • Li Rui;Kim Dong-Il;Choi Chang-Mook
    • Journal of electromagnetic engineering and science
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    • v.6 no.3
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    • pp.171-175
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    • 2006
  • In this paper, a new semi-lumped low-pass filter with three finite attenuation poles at stopband is presented. The new structure is composed of a pair of symmetrical parallel coupled-line and a shunted capacitor. With this configuration, three finite attenuation poles can be available for 2nd, 3rd, and 4th harmonics suppression. The research method is based on transmission-line model for tuning the attenuation poles. In order to examine the feasibility of the proposed structure, a low-pass filter based on microstrip structure with harmonics suppression is designed, fabricated, and measured. The experimental results of the fabricated circuit agree well with the simulation and analytical ones.

Stopband-Extended and Size-Miniaturized Low-Pass Filter with Three Transmission Zeros

  • Li, Lin;Bao, Jia;Du, Jing-Jing;Wang, Yaming
    • ETRI Journal
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    • v.36 no.2
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    • pp.286-292
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    • 2014
  • This paper presents a compact structure composed of an upper high-impedance transmission line, a middle extended parallel coupled line, and a pair of inter-coupled symmetrical stepped impedance stubs. Detailed investigation into this structure based on an equivalent circuit analysis reveals that this proposed structure exhibits a quasi-elliptic low-pass filtering response with three transmission zeros. Moreover, the positions of the three transmission zeros can be tuned and reallocated flexibly by choosing the proper circuit parameters. Finally, the design concept is validated through the design, fabrication, and measurement of two exemplary low-pass filters (LPFs) with one single unit and two cascaded asymmetric units. The measured results agree well with the simulated results. In addition, in the range of $1.42f_c$ to $7.03f_c$, the fabricated quasi-elliptic LPFs experimentally demonstrate a very wide upper-stopband of 20 dB using a compact size of only $0.0089{\lambda}_g{^2}$, where ${\lambda}_g$ is the guided wavelength of a $50{\Omega}$ transmission line at the central frequency.

Design of Tight Coupled 1/4 Wavelength Backward-Wave Directional Coupler using Coupled Lines with Finite Metallization Thickness (도체 두께를 가진 결합선로를 이용하여 강한 결합특성을 갖는 1/4파장 역방향 방향성 결합기의 설계)

  • 홍익표;윤남일;육종관
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.14 no.10
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    • pp.1004-1010
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    • 2003
  • In this paper, the 1/4 wavelength backward-wave directional coupler using coupled lines with finite metallization thickness is described. A mode-matching method, simple and fast approach to the quasi-static analysis, has been used to analyse this structure. The numerical results show that it is possible to overcome the disadvantages of weakly coupling, low directivity, and narrow strip distance non-realizable in the case of 1/4 wavelength backward-wave directional coupler with zero thickness conductor. It is also revealed that thicker metallization causes longer coupler length in the case of backward-wave symmetrical parallel coupled line directional coupler. The finite metallization thickness can be a new parameter for tight coupling in the design of backward-wave directional couplers, which enables us to design more accurate properties of monolithic microwave integrated circuits.