A synthetic network using current conveyors of the open-circuit impedance matrix of a linear time-invariant multiport
Authors: Chun-Li Hou1; Sheng-Nian Yeh2; Chen-Chuan Huang1
Source: International Journal of Electronics, Volume 91, Number 3, March 2004 , pp. 165-174(10)
Publisher: Taylor and Francis Ltd
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Abstract:
Previous research appearing in the literature required that all the realizable z parameters of the open-circuit impedance matrix of a linear time-invariant multiport network must be real, rational, stable functions. Although different z parameters could be selected independently without necessarily to having common poles, this also required that all the z parameters be minimum phase. A synthetic network using second-generation current conveyors (CCIIs), third-generation current conveyors (CCIIIs) and differential difference current conveyors (DDCCs) is proposed here, with each transfer impedance parameter being either minimum or nonminimum phase. Additionally, it can be designed automatically by computers since the current conveyor circuits, the transfer functions and numerical methods are available.Document Type: Research article
DOI: 10.1080/00207210410001673457
Affiliations: 1: Department of Electronic Engineering Chung-Yuan Christian University 22, Pu-jen Pu-chung Li Chung-Li Taiwan 320 ROC 2: Department of Electrical Engineering National Taiwan University of Science and Technology 43 Keelung Rd Sec.4 Taipei 106 Taiwan ROC
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