Extraction of SPICE-type equivalent circuits of signal via transitions using the PEEC method

Citation data:

2004 International Symposium on Electromagnetic Compatibility (IEEE Cat. No.04CH37559), Vol: 3, Page: 980-983

Publication Year:
2004
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Downloads 22
Abstract Views 2
Citations 1
Citation Indexes 1
Repository URL:
http://scholarsmine.mst.edu/ele_comeng_facwork/1621
DOI:
10.1109/isemc.2004.1349959
Author(s):
Mao, Jingkun; Drewniak, James L.; Antonini, Giulio; Orlandi, Antonio
Publisher(s):
Institute of Electrical and Electronics Engineers (IEEE)
Tags:
EMI; PEEC Method; SPICE; SPICE-Type Equivalent Circuit Extraction; Circuit Analysis Computing; Digital Devices; Electromagnetic Interference; Electromagnetic Modeling; Equivalent Circuits; Frequency Domain; Full-Wave Modeling Tool; Multi-Layer Printed Circuit Designs; Network Routing; Nodal Analysis Technique; Optimisation; Optimization Algorithm; Partial Element Equivalent Circuit; Printed Circuit Layout; Signal Integrity; Signal Line Routing; Signal Via Transitions; Time Domain; Circuit extraction; PEEC; Signal Integrity; EMI; PEEC Method; SPICE; SPICE-Type Equivalent Circuit Extraction; Circuit Analysis Computing; Digital Devices; Electromagnetic Interference; Electromagnetic Modeling; Equivalent Circuits; Frequency Domain; Full-Wave Modeling Tool; Multi-Layer Printed Circuit Designs; Network Routing; Nodal Analysis Technique; Optimisation; Optimization Algorithm; Partial Element Equivalent Circuit; Printed Circuit Layout; Signal Integrity; Signal Line Routing; Signal Via Transitions; Time Domain; Circuit extraction; PEEC; Electrical and Computer Engineering
conference paper description
Digital devices and discontinuities are typically analyzed by inserting their equivalent circuits into SPICE-type simulators. The partial element equivalent circuit method has been proven to be very useful for electromagnetic modeling. It can be used in both the time and the frequency domain. In this paper, the PEEC technique is employed as an efficient full-wave modeling tool to derive SPICE-type equivalent circuits of signal via transition structures. A nodal analysis technique is utilized in conjunction with the optimization algorithm to extract the equivalent circuits, whose component values are the parameters optimized. The good agreement between different approaches demonstrates that the proposed approach can be a powerful tool for deriving the equivalent circuits of signal via transitions.