DocumentCode
1174726
Title
Decomposition and synthesis of nonlinear n-ports
Author
Chua, Leon O. ; Lam, Ying-fai
Volume
21
Issue
5
fYear
1974
fDate
9/1/1974 12:00:00 AM
Firstpage
661
Lastpage
666
Abstract
This paper represents a sequel to the recent work on algebraic n-ports [1]. The problem of synthesis leads naturally to a consideration of canonic decomposition of nonlinear
-ports into basic building blocks. In particular, every current-controlled {voltage-controlled} resistive 2-port is shown to be realizable in a canonic form consisting of a series {parallel} connection between a reciprocal nonlinear 2-port and an element of a new class of nonlinear 2-ports called quasiantireciprocal 2-ports. This basic result is then generalized to allow the synthesis of a very large class of nonlinear
-ports in terms of only two building blocks; namely, reciprocal
-ports and quasi-antireciprocal
-ports. Moreover, the class of quasi-antireciprocal
-ports is shown to be realizable in terms of only nonlinear resistive 1-ports, reciprocal 2-ports, and gyrators.
-ports into basic building blocks. In particular, every current-controlled {voltage-controlled} resistive 2-port is shown to be realizable in a canonic form consisting of a series {parallel} connection between a reciprocal nonlinear 2-port and an element of a new class of nonlinear 2-ports called quasiantireciprocal 2-ports. This basic result is then generalized to allow the synthesis of a very large class of nonlinear
-ports in terms of only two building blocks; namely, reciprocal
-ports and quasi-antireciprocal
-ports. Moreover, the class of quasi-antireciprocal
-ports is shown to be realizable in terms of only nonlinear resistive 1-ports, reciprocal 2-ports, and gyrators.Keywords
Interconnected networks; N-path filters; Nonlinear networks; Nonlinear networks and systems; Circuits and systems; Councils; Gyrators; Integrated circuit interconnections; Laboratories; Matrix decomposition; Network synthesis; Transformers; Voltage;
fLanguage
English
Journal_Title
Circuits and Systems, IEEE Transactions on
Publisher
ieee
ISSN
0098-4094
Type
jour
DOI
10.1109/TCS.1974.1083925
Filename
1083925
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