DocumentCode
2428551
Title
An EMI-noise analysis on LSI design with impedance estimation
Author
Shimazaki, Kenji ; Hirano, Shouzou ; Tsujikawa, Hiroyuki
Author_Institution
Matsushita Electr. Ind. Co., Ltd., Japan
fYear
2002
fDate
2002
Firstpage
169
Lastpage
174
Abstract
The EMI noise of LSI has become more significant factor for LSI reliability. The result of a transistor-level simulator was not compared sufficiently with measurement and needs the final layout. This paper shows an EMI-noise analysis method at the early stage of the LSI design. The spectrum of the power supply current and the frequency response of the LSI estimated impedance are merged analytically at high speed. The current can be calculated at high speed by a gate level simulator with a triangle model. The experimental results show that our method has a high accuracy that is correlated with measurement results. Furthermore, the estimation method of the LSI impedance enables EMI noise prediction at the early stage of LSI design. The information obtained from our method can also help designers to improve LSI and electronic systems design quality.
Keywords
circuit simulation; electric impedance; electromagnetic interference; frequency response; integrated circuit design; integrated circuit measurement; integrated circuit noise; large scale integration; parameter estimation; EMI noise; EMI noise prediction; EMI-noise analysis; LSI design; LSI design quality; LSI reliability; electronic systems design quality; estimated LSI impedance; final layout; frequency response; gate level simulator; impedance estimation; power supply current spectrum; transistor-level simulator; triangle model; Electromagnetic interference; Electronic countermeasures; Impedance; Large scale integration; Magnetic field measurement; Magnetic noise; Noise measurement; Power supplies; Probes; Semiconductor device measurement;
fLanguage
English
Publisher
ieee
Conference_Titel
Quality Electronic Design, 2002. Proceedings. International Symposium on
Print_ISBN
0-7695-1561-4
Type
conf
DOI
10.1109/ISQED.2002.996724
Filename
996724
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