- Provides textbook coverage of the theory and design of operational amplifiers;
- Discusses low-voltage rail-to-rail input and output stages for design of low-power OpAmps;
- Presents frequency compensation techniques for all nine OpAmp configurations and compensation techniques for amplifiers with high capacitive loads;
- Includes design of µV-offset operational amplifiers and precision instrumentation amplifiers by applying chopping, auto-zeroing, and dynamic element-matching techniques.
- Provides beyond the rails CM input voltage ranges to OpAmps and InstAmps by the design of capacitive-coupled chopper input stages.
Autorentext
Johan H. Huijsing received his M.Sc. in Electrical Engineering from Delft University of Technology, Delft, The Netherlands, in 1969, and his Ph.D. from the same University in 1981 for work on operational amplifiers. Since 1969 he has been a member of the Research and Teaching Staff of the Electronic Instrumentation Laboratory, Department of Electrical Engineering, Delft University of Technology, where he became a full Professor of Electronic Instrumentation since 1990, and professor-emeritus since 2003. He teaches courses on Electrical Measurement Techniques, Electronic Instrumentation, Operational Amplifiers and Analog-to-digital Converters. His field of research is Analog Circuit Design (operational amplifiers, analog multipliers, etc.) and Integrated Smart Sensors. He is author or co-author of some 250 scientific papers, 40 patents and 13 books, and co-editor of 13 books. He is fellow of IEEE. He received the title award of "Simon Stevin Meester" from the Dutch Technology Foundation.
Inhalt
Definition of Operational Amplifiers.- Macromodels.- Applications.- Input Stages.- Output Stages.- Overall Design.- Design Examples.- Fully Differential Operational Amplifiers.- Instrumentation Amplifiers and Operational Floating Amplifiers.- Low Noise and Low Offset Operational and Instrumentation Amplifiers.