Stability problems in universal current-mode filters
Copyright policy )Stability problems in universal current-mode filters
Abstract Analog circuit designers have usually focused on the design of circuits employing a minimum number of components, occupying less area and dissipating less power. However, some important issues such as signal limitations and especially stability problems of the analog circuits have not received considerable attention in the literature. Hence, the work described in this paper deals with the stability problems of two new current-mode analog filters employing multiple output current controlled conveyors (MOCCCIIs). Toward that end, a single pole model is replaced for each non-ideal current gain of the MOCCCIIs. Both of the novel universal current-mode active-C filters can simultaneously realize low-pass, band-pass and high-pass/notch filter responses. SPICE and MATLAB simulation results are given to verify the theoretical analysis.
- Pamukkale University Turkey
- Boğaziçi University Turkey
- Doğuş University Turkey
SPICE, Mathematical models, MATLAB, 2 Current Conveyors, Filter, Energy dissipation, Current-mode, Current controlled conveyor, 620, Passive Elements, Employing Minimum Number, Current - Mode, Circuits, Analog circuits, Wave filters, stability; current controlled conveyor; current-mode; filter, Single - Input, Limitations, CCIIS, Current Controlled Conveyor, Stability
SPICE, Mathematical models, MATLAB, 2 Current Conveyors, Filter, Energy dissipation, Current-mode, Current controlled conveyor, 620, Passive Elements, Employing Minimum Number, Current - Mode, Circuits, Analog circuits, Wave filters, stability; current controlled conveyor; current-mode; filter, Single - Input, Limitations, CCIIS, Current Controlled Conveyor, Stability
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