Title :
Passive Closed-Form Transmission Line Macromodel Using Method of Characteristics
Author :
Dounavis, Anestis ; Pothiwala, Vrajesh A.
Author_Institution :
Western Ontario Univ., London
Abstract :
This paper presents an efficient passive time-domain macromodeling algorithm for distributed lossy transmission lines based on the generalized method of characteristics (MoC). A new theorem is described that specifies sufficient conditions to guarantee the passivity of the MoC by construction. A key feature of the proposed methodology is that the curve fitting to realize the MoC depends only on the per-unit-length (p.u.l.) parameters and not on the discretization of the macromodel. Thus, with the knowledge of the rational functions derived from the p.u.l. parameters, the MoC can be formulated in a closed-form manner for any line length while ensuring passivity.
Keywords :
curve fitting; rational functions; time-domain analysis; transmission line theory; curve fitting; distributed lossy transmission lines; passive closed-form transmission line macromodel; passive time-domain macromodeling algorithm; rational functions; sufficient conditions; Circuit simulation; delay systems; high-speed interconnects; method of characteristics; passivity; positive real functions; transient analysis; transmission lines;
Journal_Title :
Advanced Packaging, IEEE Transactions on
DOI :
10.1109/TADVP.2007.909449
