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Synthesis of low‐complexity mechanical networks with constrained element values
Author(s) -
Wang Kai,
Ji Xiaofu,
Hu Yinlong
Publication year - 2019
Publication title -
international journal of circuit theory and applications
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.364
H-Index - 52
eISSN - 1097-007X
pISSN - 0098-9886
DOI - 10.1002/cta.2674
Subject(s) - inertance , admittance , damper , control theory (sociology) , finite element method , port (circuit theory) , network element , admittance parameters , mathematics , element (criminal law) , engineering , computer science , structural engineering , control (management) , electrical impedance , voltage , mechanical engineering , tube (container) , law , political science , electrical engineering , telecommunications , artificial intelligence
Summary This paper investigates the synthesis problem of one‐port mechanical networks consisting of one damper, one inerter, and a finite number of springs, where the damping coefficient and inertance are some values in given intervals. Due to the construction limitation, the element values of dampers and inerters are usually required to be constrained in certain ranges instead of any positive values. A necessary and sufficient condition is derived for any positive‐real admittance to be realizable as such class of networks, which is in terms of the coefficients of the admittance and the upper and lower bounds of element value constraints. Moreover, the corresponding synthesis procedure is presented based on the derivation process and realizations of three‐port spring networks. Finally, numerical examples are given for illustration. The results of this paper can be utilized in the design of inerter‐based mechanical control systems.