Spelling suggestions: "subject:"alectric circuits -- amathematical models"" "subject:"alectric circuits -- dmathematical models""
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Characterization and electrical circuit modeling of interconnections and packages using time domain network analysisHayden, Leonard 03 June 1993 (has links)
The improved accuracy of Time Domain Reflection and Transmission (TDR/T)
measurements made possible by the calibration process known as Time Domain
Network Analysis (TDNA) is applied to the problem of characterization and modeling
of electronic interconnect and packaging structures. TDNA uses measurements of
known and partially known calibration standards to characterize the measurement
system allowing for the correction of the raw measurements of an unknown network
to eliminate the effects of system non-idealities and resulting in a significant
improvement of the measurement quality. The correction process is shown to be
analogous to the well established Frequency Domain Vector Network Analyzer
calibrations and to have the same capabilities for high precision metrology
applications.
Methods are developed to extract electrical circuit models from time domain
measurements of lossless, nonuniform, multiconductor transmission lines for two
broad classes of structures. Although unique solutions are not feasible for general
structures that scatter the propagating wave-front, approximate solutions have been
identified using the assumption of a single velocity wave-front, the case for homogeneous media. For structures with identical lines, such as a parallel line bus structure, the propagation behavior (eigenvector matrix) is determined only by the number of conductors, N, and is therefore known a priori for the entire structure allowing decoupling of the system into N orthogonal nonuniform transmission lines. Circuit models have been developed for these decoupled nonuniform lines as well as for the equal modal velocity assumption which relies on a matrix impedance profile to fully describe the system.
The implications of non-ideal grounding of interconnection circuits is explored. Traditional lumped element methods for modeling these effects are examined and typical examples where distributed circuit models are necessary to adequately describe the system are identified. Techniques for examining power-planes and substrate connections in integrated circuits and integrated circuit packages using the distributed ground model are presented. Novel circuit design methods to circumvent the limitations imposed by non-ideal grounds and nonzero length transmission structures are also proposed. / Graduation date: 1994
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Circuit models and parameter identification for standard and pole amplitude modulated polyphase induction machines.Lindsay, James F. January 1973 (has links)
No description available.
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Circuit models and parameter identification for standard and pole amplitude modulated polyphase induction machines.Lindsay, James F. January 1973 (has links)
No description available.
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Macromodeling, passivity enforcement and fast simulation/verification for interconnects, power grids and large circuitsWang, Yuanzhe, 王远哲 January 2011 (has links)
published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy
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