DocumentCode
1183405
Title
On the canonic cascade synthesis for lossless one-ports
Author
Cuong, Dao Manh ; Hasler, Martin
Volume
27
Issue
2
fYear
1980
fDate
2/1/1980 12:00:00 AM
Firstpage
124
Lastpage
136
Abstract
The problem of finding all possible canonic cascade syntheses for lossless one-ports Is considered. Without being able to solve it in general, the following steps in this direction are presented. For the purpose of a systematic search for canonic
-cells a topological criterion is given which eliminates all nonminimal
-cells, i.e. those with more elements than is their degree. Another topological criterion serves to detect a large number of minimal
-cells that are not canonic. On the other hand, in order to prove an
-cell to be canonic the synthesis problem is divided into a linear and a nonlinear part. A bridged
of degree 4 serves as an example to show how to prove the existence of a solution for the nonlinear equations and how to generate from it a canonic synthesis, using theorems about the linear part. Some of the material is new, some can be found piecewise elsewhere but is reproduced and adapted here for the sake of a unified and coherent presentation. In particular, apart from the bridged
already mentioned, seven different new nontrivial canonic
-cells are listed.
-cells a topological criterion is given which eliminates all nonminimal
-cells, i.e. those with more elements than is their degree. Another topological criterion serves to detect a large number of minimal
-cells that are not canonic. On the other hand, in order to prove an
-cell to be canonic the synthesis problem is divided into a linear and a nonlinear part. A bridged
of degree 4 serves as an example to show how to prove the existence of a solution for the nonlinear equations and how to generate from it a canonic synthesis, using theorems about the linear part. Some of the material is new, some can be found piecewise elsewhere but is reproduced and adapted here for the sake of a unified and coherent presentation. In particular, apart from the bridged
already mentioned, seven different new nontrivial canonic
-cells are listed.Keywords
Cascade networks; Graph theory; LC networks; Network synthesis; One-port networks; Circuit synthesis; Concrete; Feature extraction; Filtering theory; Nonlinear equations; Terminology;
fLanguage
English
Journal_Title
Circuits and Systems, IEEE Transactions on
Publisher
ieee
ISSN
0098-4094
Type
jour
DOI
10.1109/TCS.1980.1084785
Filename
1084785
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