Koh YAMANAGA


State-Dependence of On-Chip Power Distribution Network Capacitance
Koh YAMANAGA Shiho HAGIWARA Ryo TAKAHASHI Kazuya MASU Takashi SATO 
Publication:   IEICE TRANSACTIONS on Electronics
Publication Date: 2014/01/01
Vol. E97-C  No. 1  pp. 77-84
Type of Manuscript:  PAPER
Category: Integrated Electronics
Keyword: 
CMOS logic circuitstate-dependent capacitance modelcapacitance measurementPDN-capacitanceparasitic capacitance
 Summary | Full Text:PDF(2.2MB)

Linear Time Calculation of On-Chip Power Distribution Network Capacitance Considering State-Dependence
Shiho HAGIWARA Koh YAMANAGA Ryo TAKAHASHI Kazuya MASU Takashi SATO 
Publication:   IEICE TRANSACTIONS on Fundamentals of Electronics, Communications and Computer Sciences
Publication Date: 2010/12/01
Vol. E93-A  No. 12  pp. 2409-2416
Type of Manuscript:  Special Section PAPER (Special Section on VLSI Design and CAD Algorithms)
Category: Device and Circuit Modeling and Analysis
Keyword: 
capacitancepower distribution networkstate-dependencyintegrated circuit modelingelectromagnetic interference
 Summary | Full Text:PDF(1010.4KB)

A Universal Equivalent Circuit Model for Ceramic Capacitors
Koh YAMANAGA Shuhei AMAKAWA Kazuya MASU Takashi SATO 
Publication:   IEICE TRANSACTIONS on Electronics
Publication Date: 2010/03/01
Vol. E93-C  No. 3  pp. 347-354
Type of Manuscript:  Special Section PAPER (Special Section on Circuits and Design Techniques for Advanced Large Scale Integration)
Category: 
Keyword: 
ceramic capacitormoment methodequivalent circuitinductance
 Summary | Full Text:PDF(809KB)

2-Port Modeling Technique for Surface-Mount Passive Components Using Partial Inductance Concept
Koh YAMANAGA Takashi SATO Kazuya MASU 
Publication:   IEICE TRANSACTIONS on Fundamentals of Electronics, Communications and Computer Sciences
Publication Date: 2009/04/01
Vol. E92-A  No. 4  pp. 976-982
Type of Manuscript:  Special Section PAPER (Special Section on Advanced Technologies Emerging Mainly from the 21st Workshop on Circuits and Systems in Karuizawa)
Category: 
Keyword: 
ceramic capacitorinductanceimpedancepower distribution network
 Summary | Full Text:PDF(833.7KB)