Low-Impedance and High-Q Transmission Line for mmw VCO

被引:0
作者
Nomiyama, You [1 ]
Chaivipas, Win [1 ]
Okada, Kenichi [1 ]
Matsuzawa, Akira [1 ]
机构
[1] Tokyo Inst Technol, Dept Phys Elect, Meguro Ku, Tokyo 1528552, Japan
来源
2009 IEEE WORKSHOP ON SIGNAL PROPAGATION ON INTERCONNECTS | 2009年
关键词
VCO; Transmission Line; Slow wave; Low-impedance; High-Q;
D O I
暂无
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
A transmission line with low impedance and high quality factor is presented in this paper. This transmission line has a ground shield and metal slits unlike conventional transmissions line which has either a ground shield or metal slits. Simulation results shows that the floating metal slits lowers the impedance of the transmission line while maintaining a high quality factor. This transmission line is employed as a resonator of a millimeter voltage controlled oscillator to lower the phase noise.
引用
收藏
页码:115 / 118
页数:4
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共 36 条
[11]   Tuning PEDOT:PSS low-impedance thin films with high charge injection for microelectrodes applications [J].
Teixeira, H. J. ;
Dias, C. ;
Veloso, R. C. ;
Apolinario, A. ;
Ventura, J. .
PROGRESS IN ORGANIC COATINGS, 2022, 168
[12]   On the development of a high strain-rate tensile testing method for thin low-impedance materials [J].
Baumann, Georg ;
Czibula, Caterina ;
Hirn, Ulrich ;
Feist, Florian .
MATERIALS LETTERS, 2024, 355
[13]   X-band low phase noise push-push oscillator utilizing High-Q differential transmission line loaded with multiple split-ring resonator [J].
Li, Zhipeng ;
Huang, Hongyun ;
Bao, Jingfu .
JOURNAL OF ELECTROMAGNETIC WAVES AND APPLICATIONS, 2016, 30 (01) :124-139
[14]   A 2.5 V, 10 GHz fully integrated LC-VCO with integrated high-Q inductor and 30% tuning range [J].
De Cock, W ;
Steyaert, M .
ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING, 2002, 33 (02) :137-144
[15]   A 2.5 V, 10 GHz Fully Integrated LC-VCO with Integrated High-Q Inductor and 30% Tuning Range [J].
Wouter De Cock ;
Michiel Steyaert .
Analog Integrated Circuits and Signal Processing, 2002, 33 :137-144
[16]   High-Q Slow-Wave Coplanar Transmission Lines on 0.35 μm CMOS Process [J].
Kaddour, D. ;
Issa, H. ;
Franc, A. -L. ;
Corrao, N. ;
Pistono, E. ;
Podevin, F. ;
Fournier, J. -M. ;
Duchamp, J. -M. ;
Ferrari, P. .
IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, 2009, 19 (09) :542-544
[17]   Wafer-level packaging technology for high-Q on-chip inductors and transmission lines [J].
Carchon, GJ ;
De Raedt, W ;
Beyne, E .
IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 2004, 52 (04) :1244-1251
[18]   Particle-in-cell simulation of a new X-band low-impedance high power microwave source [J].
Yan Xiao-Lu ;
Zhang Xiao-Ping ;
Li Yang-Mei .
ACTA PHYSICA SINICA, 2016, 65 (13)
[19]   Characterization of high Q transmission line structure for advanced CMOS processes [J].
Lai, Ivan Chee Hong ;
Tanimoto, Hideyuki ;
Fujishima, Minoru .
IEICE TRANSACTIONS ON ELECTRONICS, 2006, E89C (12) :1872-1879
[20]   High Impedance Fault Location in Transmission Line Using Nonlinear Frequency Analysis [J].
Chen, Min-you ;
Zhai, Jin-qian ;
Lang, Zi-qiang ;
Liao, Ju-cheng ;
Fan, Zhao-yong .
LIFE SYSTEM MODELING AND INTELLIGENT COMPUTING, PT I, 2010, 6328 :104-+
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