2-Port Modeling Technique for Surface-Mount Passive Components Using Partial Inductance Concept
Summary :
Electrical modeling for surface-mount passive components is proposed. In order to accurately capture parasitic inductance, the proposed 2-port model accounts for surrounding ground layer configurations of the print circuit board (PCB) on which the component is mounted. Our model retains conventional modeling paradigm in which component suppliers provide their customers with simulation models characterized independently of the customers' PCB. We also present necessary corrections that compensate magnetic coupling between the separated models. Impedance and its anti-resonant frequency of two power distribution networks are experimentally analyzed being non-separated modeling as the reference. The proposed model achieved very good match with the reference result reducing 7-34% error of the conventional model to about 2%.
- Publication
- IEICE TRANSACTIONS on Fundamentals Vol.E92-A No.4 pp.976-982
- Publication Date
- 2009/04/01
- Publicized
- Online ISSN
- 1745-1337
- DOI
- 10.1587/transfun.E92.A.976
- Type of Manuscript
- Special Section PAPER (Special Section on Advanced Technologies Emerging Mainly from the 21st Workshop on Circuits and Systems in Karuizawa)
- Category
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Koh YAMANAGA, Takashi SATO, Kazuya MASU, "2-Port Modeling Technique for Surface-Mount Passive Components Using Partial Inductance Concept" in IEICE TRANSACTIONS on Fundamentals,
vol. E92-A, no. 4, pp. 976-982, April 2009, doi: 10.1587/transfun.E92.A.976.
Abstract: Electrical modeling for surface-mount passive components is proposed. In order to accurately capture parasitic inductance, the proposed 2-port model accounts for surrounding ground layer configurations of the print circuit board (PCB) on which the component is mounted. Our model retains conventional modeling paradigm in which component suppliers provide their customers with simulation models characterized independently of the customers' PCB. We also present necessary corrections that compensate magnetic coupling between the separated models. Impedance and its anti-resonant frequency of two power distribution networks are experimentally analyzed being non-separated modeling as the reference. The proposed model achieved very good match with the reference result reducing 7-34% error of the conventional model to about 2%.
URL: https://global.ieice.org/en_transactions/fundamentals/10.1587/transfun.E92.A.976/_p
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@ARTICLE{e92-a_4_976,
author={Koh YAMANAGA, Takashi SATO, Kazuya MASU, },
journal={IEICE TRANSACTIONS on Fundamentals},
title={2-Port Modeling Technique for Surface-Mount Passive Components Using Partial Inductance Concept},
year={2009},
volume={E92-A},
number={4},
pages={976-982},
abstract={Electrical modeling for surface-mount passive components is proposed. In order to accurately capture parasitic inductance, the proposed 2-port model accounts for surrounding ground layer configurations of the print circuit board (PCB) on which the component is mounted. Our model retains conventional modeling paradigm in which component suppliers provide their customers with simulation models characterized independently of the customers' PCB. We also present necessary corrections that compensate magnetic coupling between the separated models. Impedance and its anti-resonant frequency of two power distribution networks are experimentally analyzed being non-separated modeling as the reference. The proposed model achieved very good match with the reference result reducing 7-34% error of the conventional model to about 2%.},
keywords={},
doi={10.1587/transfun.E92.A.976},
ISSN={1745-1337},
month={April},}
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TY - JOUR
TI - 2-Port Modeling Technique for Surface-Mount Passive Components Using Partial Inductance Concept
T2 - IEICE TRANSACTIONS on Fundamentals
SP - 976
EP - 982
AU - Koh YAMANAGA
AU - Takashi SATO
AU - Kazuya MASU
PY - 2009
DO - 10.1587/transfun.E92.A.976
JO - IEICE TRANSACTIONS on Fundamentals
SN - 1745-1337
VL - E92-A
IS - 4
JA - IEICE TRANSACTIONS on Fundamentals
Y1 - April 2009
AB - Electrical modeling for surface-mount passive components is proposed. In order to accurately capture parasitic inductance, the proposed 2-port model accounts for surrounding ground layer configurations of the print circuit board (PCB) on which the component is mounted. Our model retains conventional modeling paradigm in which component suppliers provide their customers with simulation models characterized independently of the customers' PCB. We also present necessary corrections that compensate magnetic coupling between the separated models. Impedance and its anti-resonant frequency of two power distribution networks are experimentally analyzed being non-separated modeling as the reference. The proposed model achieved very good match with the reference result reducing 7-34% error of the conventional model to about 2%.
ER -
English
