This book describes a new way to design and utilize Instrumentation Amplifiers (IAs) by taking advantages of the current-mode (CM) approach. For the first time, all different topologies of CMIAs are discussed and compared, providing a single-source reference for instrumentation and measurement experts who want to choose a topology for a specific application. The authors also explain major challenges in designing CMIAs, so the book can be useful for anyone studying instrumentation amplifiers, and even other analog circuits. Coverage also includes various CM signal processing techniques employed…mehr
This book describes a new way to design and utilize Instrumentation Amplifiers (IAs) by taking advantages of the current-mode (CM) approach. For the first time, all different topologies of CMIAs are discussed and compared, providing a single-source reference for instrumentation and measurement experts who want to choose a topology for a specific application. The authors also explain major challenges in designing CMIAs, so the book can be useful for anyone studying instrumentation amplifiers, and even other analog circuits. Coverage also includes various CM signal processing techniques employed in CMIAs, and applications of the CMIAs in biomedical and data acquisition are demonstrated.
Giuseppe Ferri is a Full Professor in the Department of Industrial and Information Engineering and Economics, at the University of L'Aquila, Italy. Shahram Minaei is a Full Professor in the Department of Electronics and Communications Engineering, at Dogus University in Istanbul, Turkey. Leila Safari is an Independent Researcher in Tehran, Iran. Vincenzo Stornelli is an Associate Professor in the Department of Industrial and Information Engineering and Economics, at the University of L'Aquila, Italy.
Inhaltsangabe
Introduction.- CMIA using Op-amp supply current sensing.- Current-mode Wheatstone bridge.- Current conveyor-based CMIA topologies.- CMIA based on different CM building blocks.- Electronically tunable CMIA.- Mismatch effect on CMIA.- CMIA for sensor applications.- CMIA for biomedical applications.- Low-voltage low-power CMIAs.- CMIA with Closed-loop configuration.- Conclusion.
Introduction.- CMIA using Op-amp supply current sensing.- Current-mode Wheatstone bridge.- Current conveyor-based CMIA topologies.- CMIA based on different CM building blocks.- Electronically tunable CMIA.- Mismatch effect on CMIA.- CMIA for sensor applications.- CMIA for biomedical applications.- Low-voltage low-power CMIAs.- CMIA with Closed-loop configuration.- Conclusion.
Introduction.- CMIA using Op-amp supply current sensing.- Current-mode Wheatstone bridge.- Current conveyor-based CMIA topologies.- CMIA based on different CM building blocks.- Electronically tunable CMIA.- Mismatch effect on CMIA.- CMIA for sensor applications.- CMIA for biomedical applications.- Low-voltage low-power CMIAs.- CMIA with Closed-loop configuration.- Conclusion.
Introduction.- CMIA using Op-amp supply current sensing.- Current-mode Wheatstone bridge.- Current conveyor-based CMIA topologies.- CMIA based on different CM building blocks.- Electronically tunable CMIA.- Mismatch effect on CMIA.- CMIA for sensor applications.- CMIA for biomedical applications.- Low-voltage low-power CMIAs.- CMIA with Closed-loop configuration.- Conclusion.
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