Electronically tunable simulated transformer and its application to stagger-tuned filter
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Abstract
In this paper, an active network simulating mutually coupled inductors employing four second-generation current controlled conveyors, five resistors, and only two grounded capacitors is presented. The primary, secondary, and mutual simulated inductances of the circuit are independent and can be electronically tuned. The proposed circuit represents a synthetic transformer and has a positive mutual inductance. As an application, the proposed transformer is used to construct a stagger-tuned filter. Simulation Program with Integrated Circuit Emphasis (SPICE) simulation and experimental results are given to verify the theoretical analysis. © 2008 IEEE.
Description
Keywords
Active network, Current conveyor, Stagger-tuned filter, Synthetic transformer, Computer simulation, Electric currents, Electric network analysis, Electromagnetism, Electronics industry, Inductance, Integrated circuits, Magnetism, Paper capacitors, Wave filters, Coupled inductors, Electronically tunable, Generation current, Grounded capacitors, Mutual inductances, Simulation programs, Theoretical analysis, Tuned filters, SPICE, Grounded Capacitor, Universal Filter, Coupled inductors, Synthetic transformer, Active network, Integrated circuits, Synthetic Transformer, Floating Inductance Simulation, Electromagnetism, Paper capacitors, Electric currents, Wave filters, Circuit, Resistor, Current conveyor, Converter, Inductance, Electronics industry, Grounded capacitors, SPICE, Generation current, Tuned filters, Stagger - Tuned Filter, Current Conveyor, Magnetism, Theoretical analysis, 600, Computer simulation, Electronically tunable, Active Network, 620, Current - Controlled Conveyors, Mutual inductances, Limitations, Stagger-tuned filter, Electric network analysis, Simulation programs
Fields of Science
02 engineering and technology, 0202 electrical engineering, electronic engineering, information engineering
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Scopus Q
OpenCitations Citation Count
23
Volume
57
Issue
9
Start Page
2083
End Page
2088
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CrossRef : 15
Scopus : 24
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25
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21
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45
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