This paper presents novel CCII-based circuit solutions for the implementation of grounded and floating inductance simulators for integrable low frequency applications. The circuits, implementing a minimum number of active components, allow the reduction and, in theory, the zeroing of the undesired inductance series resistance, with consequent increase of operating range towards the low frequencies. A novel idea to increase the value of the equivalent inductance achievable with CCII based topologies is presented. Simulation results, confirming the theoretical expectations, are also included.
CCII-Based High-Valued Inductance Simulators with minumum Number of Active Elements / G., Ferri; N., Guerrini; R., Romanato; Scotti, Giuseppe; Trifiletti, Alessandro. - (2007). (Intervento presentato al convegno 2007 18th European Conference on Circuit Theory and Design tenutosi a Seville, Spain).
CCII-Based High-Valued Inductance Simulators with minumum Number of Active Elements
SCOTTI, Giuseppe;TRIFILETTI, Alessandro
2007
Abstract
This paper presents novel CCII-based circuit solutions for the implementation of grounded and floating inductance simulators for integrable low frequency applications. The circuits, implementing a minimum number of active components, allow the reduction and, in theory, the zeroing of the undesired inductance series resistance, with consequent increase of operating range towards the low frequencies. A novel idea to increase the value of the equivalent inductance achievable with CCII based topologies is presented. Simulation results, confirming the theoretical expectations, are also included.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
