DocumentCode
1188914
Title
Canonical piecewise-linear analysis
Author
Chua, Leon O. ; Ying, Robin L P
Volume
30
Issue
3
fYear
1983
fDate
3/1/1983 12:00:00 AM
Firstpage
125
Lastpage
140
Abstract
Any continuous resistive nonlinear circuit can be approximated to any desired accuracy by a global piecewise-linear equation in the canonical form
. All conventional circuit analysis methods (nodal, mesh, cut set, loop, hybrid, modified nodal, tableau) are shown to always yield an equation of this form, provided the only nonlinear elements are two-terminal resistors and controlled sources, each modeled by a one-dimensional piecewise-linear function. The well-known Katzenelson algorithm when applied to this equation yields an efficient algorithm which requires only a minimal computer storage. In the important special case when the canonical equation has a lattice structure (which always occur in the hybrid analysis), the algorithm is further refined to achieve a dramatic reduction in computation time.
. All conventional circuit analysis methods (nodal, mesh, cut set, loop, hybrid, modified nodal, tableau) are shown to always yield an equation of this form, provided the only nonlinear elements are two-terminal resistors and controlled sources, each modeled by a one-dimensional piecewise-linear function. The well-known Katzenelson algorithm when applied to this equation yields an efficient algorithm which requires only a minimal computer storage. In the important special case when the canonical equation has a lattice structure (which always occur in the hybrid analysis), the algorithm is further refined to achieve a dramatic reduction in computation time.Keywords
Nonlinear circuits; Nonlinear networks and systems; Piecewise-linear approximation; Algorithm design and analysis; Circuit analysis; Ear; Helium; Laboratories; Lattices; Nonlinear circuits; Nonlinear equations; Piecewise linear techniques; Resistors;
fLanguage
English
Journal_Title
Circuits and Systems, IEEE Transactions on
Publisher
ieee
ISSN
0098-4094
Type
jour
DOI
10.1109/TCS.1983.1085342
Filename
1085342
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