Resistance matrix in crosstalk modeling for multiconductor systems

Author

Yu, Sunil ; Petranovic, Dusan M. ; Krishnan, Shoba ; Lee, Kwyro ; Yang, Cary Y.

fYear

2004

fDate

2004

Firstpage

122

Lastpage

125

Abstract

A complete modal analysis is introduced to derive the crosstalk voltage waveform in multiconductor coupled systems. In addition to the capacitance and inductance matrices, it also includes a resistance matrix. The off diagonal terms of the resistance matrix are related to the return path, which is important for accurate noise modeling at high frequency. It is shown that the error in crosstalk peak noise can be as high as 30% if the return path resistance is ignored. This work completes a previous modal analysis of a multiconductor system and significantly improves accuracy of crosstalk noise estimation, which is becoming increasingly important in design of deep-submicron integrated circuits.

Keywords

SPICE; crosstalk; current distribution; integrated circuit design; integrated circuit interconnections; integrated circuit modelling; modal analysis; multiconductor transmission lines; transmission line matrix methods; SPICE simulation; capacitance matrices; complete modal analysis; crosstalk voltage waveform; current distributions; deep-submicron integrated circuits; high frequency; inductance matrices; multiconductor coupled systems; noise modeling; resistance matrix; return path; Capacitance; Crosstalk; Frequency; Graphics; Inductance; Integrated circuit noise; Laboratories; Modal analysis; Nanoelectronics; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Quality Electronic Design, 2004. Proceedings. 5th International Symposium on

Print_ISBN

0-7695-2093-6

Type

conf

DOI

10.1109/ISQED.2004.1283661

Filename

1283661