A Lossy Circuit Model Based on Physical Interpretation for Integrated Shielded Slow-Wave CMOS Coplanar Waveguide Structures

Franc A.-L.; Pistono E.; Meunier G.; Gloria D.; Ferrari P.

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A Lossy Circuit Model Based on Physical Interpretation for Integrated Shielded Slow-Wave CMOS Coplanar Waveguide Structures

机译：集成屏蔽慢波CMOS共面波导结构的基于物理解释的有损电路模型

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This paper presents a new physical model for shielded slow-wave coplanar waveguide structures. This lossy electrical model is based on physical behavior of the transmission lines. It allows a better understanding of the losses distribution along the structure. The ohmic losses in the coplanar strips, as well as the ohmic losses and the eddy current losses in the floating shield strips are studied for transmission lines having different geometrical dimensions and hence electrical characteristics. The model is then validated on different CMOS technologies and leads to the efficient optimization of the slow-wave transmission lines, especially concerning the floating shield dimensions.

机译：本文提出了一种新的屏蔽慢波共面波导结构物理模型。该有损电模型基于传输线的物理行为。它可以更好地了解沿结构的损耗分布。对于具有不同几何尺寸并因此具有电气特性的传输线，研究了共面带中的欧姆损耗以及浮动屏蔽带中的欧姆损耗和涡流损耗。然后，该模型在不同的CMOS技术上进行了验证，并导致了慢波传输线的有效优化，尤其是在浮动屏蔽尺寸方面。

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来源
《Microwave Theory and Techniques, IEEE Transactions on》 |2013年第2期|p.754-763|共10页
作者
Franc A.-L.; Pistono E.; Meunier G.; Gloria D.; Ferrari P.;
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作者单位

IMEP-LAHC, Université de Grenoble/UMR CNRS 5130, Grenoble, France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Coplanar waveguides; Eddy currents; Integrated circuit modeling; Magnetic noise; Magnetic shielding; Semiconductor device modeling; Strips; Electromagnetic modeling; millimeter wave integrated circuits; slow-wave coplanar waveguide;

机译：共面波导;涡流;集成电路建模;磁噪声;磁屏蔽;半导体器件建模;带子;电磁建模毫米波集成电路;慢波共面波导;

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1. A 48 Gb/s PAM-4 Transmitter With 3-Tap FFE Based on Double-Shielded Coplanar Waveguide in 65-nm CMOS [J] . Do Hyungrok, Hwang Jeongho, Choi Hong-Seok, Circuits and Systems II: Express Briefs, IEEE Transactions on . 2020,第9期

机译：一个48 GB / S PAM-4发射器，基于65-NM CMOS的双屏蔽COPLANAR波导的3间FFE
2. A Programmable On-Chip Reference Oscillator With Slow-Wave Coplanar Waveguide in 14-nm FinFET CMOS [J] . Hwang Jeongho, Chu Sang-Hyeok, Jeong Gyu-Seob, Circuits and Systems II: Express Briefs, IEEE Transactions on . 2020,第10期

机译：具有14-NM FinFET CMOS的可编程片上参考振荡器，具有慢波COPLANAR波导
3. CAD Equivalent-Circuit Modeling of Attenuation and Cross-Coupling for Edge-Suspended Coplanar Waveguides on Lossy Silicon Substrate [J] . Lydia L. W. Leung, Kevin J. Chen IEEE Transactions on Microwave Theory and Techniques . 2006,第5期

机译：有损硅基板上边缘悬浮共面波导的衰减和交叉耦合的CAD等效电路建模
4. Dispersive model for the phase velocity of slow-wave CMOS coplanar waveguides [C] . Franc Anne-Laure, Pistono Emmanuel, Ferrari Philippe European Microwave Conference . 2015

机译：慢波CMOS共面波导相速度的色散模型。
5. Design and analysis of double-gate CMOS for low-voltage integrated circuit applications, including physical modeling of silicon-on-insulator MOSFETs. [D] . Kim, Keunwoo. 2001

机译：用于低压集成电路应用的双栅CMOS设计和分析，包括绝缘体上硅MOSFET的物理建模。
6. Microwave index engineering for slow-wave coplanar waveguides [O] . Álvaro Rosa, Steven Verstuyft, Antoine Brimont, -1

机译：慢波共面波导的微波指标工程
7. Design of Coplanar Waveguide Matching Circuit for RF-CMOS Front-End [O] . Haruichi Kanaya, Tetsuya Nakamura, Koji Kawakami, 2015

机译：射频CmOs前端共面波导匹配电路设计
8. New Reciprocal Circuit Model for Lossy Waveguide Structures Based on theOrthogonality of the Eigenmodes [R] . Olyslager, F., de Zutter, D., de Hoop, A. T. 1993

机译：基于本征模的正交性的有耗波导结构新的互补电路模型

A Lossy Circuit Model Based on Physical Interpretation for Integrated Shielded Slow-Wave CMOS Coplanar Waveguide Structures

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