Open AccessSystematic synthesis approach for floating gyrators employing single z ‐copy CCCCTA
Author(s) -
Li Yong An,
Xi Yan Hua,
Fan Zhan Ting,
Zhang Yu Ye,
Wu Ji Xia
Publication year - 2017
Publication title -
iet circuits, devices and systems
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.251
H-Index - 49
eISSN - 1751-8598
pISSN - 1751-858X
DOI - 10.1049/iet-cds.2016.0153
Subject(s) - gyrator , admittance , computer science , admittance parameters , current conveyor , topology (electrical circuits) , electronic engineering , voltage , control theory (sociology) , electrical impedance , electrical engineering , engineering , capacitor , control (management) , artificial intelligence
A systematic synthesis approach for floating gyrators employing single z ‐copy current‐controlled current conveyor trans‐conductance amplifier (CCCCTA) is presented in this work. Initially, the pathological models of two types of the CCCCTA, namely z ‐copy z + ‐output CCCCTA (CCCCTA+) and z ‐copy z − ‐output CCCCTA ( z ‐copy CCCCTA−), are derived by virtue of the nodal admittance matrix (NAM) expansion method. Moreover, these models are then used in the synthesis of floating gyrator using single z ‐copy CCCCTA. Two floating gyrators are acquired by expanding the NAM of floating gyrator. The synthesised gyrators employ one z ‐copy CCCCTA and a grounded admittance. Adjusting bias currents of the CCCCTA can tune the parameter of the gyrators. The hand analysis and PSPICE simulation show that the used synthesis method is simple, systematic and valid.