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Full Description
This book provides comprehensive coverage of the major gyrator circuits, simulated inductors and related synthetic impedances. It offers a thorough review of research in this field to date, and includes an exceptionally wide range and number of circuit examples, along with their relevant design equations, limitations, performance features, advantages and shortcomings. The book provides useful information for academics wishing to keep up-to-date with developments in the design of gyrators and other related synthetic impedances, and can also be used as a reference guide by electronics engineers looking to select appropriate circuits for specific applications.
The book begins with an introduction to the key concepts of integrated and simulated inductors. Later chapters go on to cover the gyrators, simulated inductors and other related synthetic impedances realised with a wide variety of active devices ranging from bipolar and MOS transistors to the ubiquitous IC op-amps, operational transconductance amplifiers, current conveyors, current feedback op-amps and numerous other modern electronic circuit building blocks.
Contents
Chapter 1: Gyrators, integrated inductors and simulated inductors
Chapter 2: Gyrators and simulated inductors using op-amps
Chapter 3: The operational transconductance amplifier based gyrators and impedance simulators
Chapter 4: Synthetic impedances using current conveyors and their variants
Chapter 5: Current feedback-op-amp-based synthetic impedances
Chapter 6: Applications of FTFN/OFA and OMAs in impedance synthesis
Chapter 7: Realization of voltage-controlled impedances
Chapter 8: Impedance synthesis using modern active building blocks
Chapter 9: Transistor-level realization of electronically controllable grounded and floating resistors
Chapter 10: Bipolar and CMOS active inductors and transformers
Chapter 11: Recent developments and concluding remarks
