Synopses & Reviews
Dynamic Offset-Compensated CMOS Amplifiers describes the theory, design and realization of dynamic offset compensated CMOS amplifiers. It focuses on the design of general-purpose wide-band operational amplifiers and instrumentation amplifiers. Two offset compensation techniques are described: auto-zeroing and chopping. Several topologies are discussed, with which these techniques can be used in the design of wide-band dynamic offset-compensated amplifiers. Four implementations are discussed in detail: two low-offset wide-band operational amplifiers, a low-offset instrumentation amplifier, and a low-offset current-sense amplifier, which can sense the current drawn from supply voltages up to 28V .
Synopsis
This book describes the theory, design and realization of dynamic offset compensated CMOS amplifiers. It focuses on the design of general-purpose broadband operational amplifiers and instrumentation amplifiers. It also introduces chopper offset stabilization.
About the Author
Co-author Emeritus Prof. J.H. Huijsing has (co-)authored numerous books for Springer, including the best-selling Operational Amplifiers (2000)
Table of Contents
Preface. Acknowledgements. 1. Introduction. 1.1 Motivation. 1.2 Offset. 1.3 Challenges. 1.4 Organisation of the book. 1.5 References. 2. Dynamic Offset Compensation Techniques. 2.1 Introduction. 2.2 Auto-zero amplifiers. 2.3 Chopper amplifiers. 2.4 Chopped auto-zeroed amplifier. 2.5 Switching Non-Idealities. 2.6 Conclusions. 2.7 References. 3. Dynamic Offset Compensated Operational Amplifiers. 3.1 Introduction. 3.2 Ping-Pong operational amplifier. 3.3 Offset-stabilized amplifiers. 3.4 Chopper offset-stabilized chopper amplifiers. 3.5 Conclusions. 3.6 References. 4. Dynamic Offset Compensated Instrumentation Amplifiers. 4.1 Introduction. 4.2 Dynamic offset compensated instrumentation amplifiers. 4.3 Conclusions. 4.4 References. 5. Realizations of Operational Amplifiers. 5.1 Introduction. 5.2 Chopper offset-stabilized operational amplifier. 5.3 Chopper and auto-zero offset-stabilized operational amplifier. 5.4 Conclusions. 5.5 References. 6. Realizations of Instrumentation Amplifiers. 6.1 Introduction. 6.2 Low-offset indirect current-feedback instrumentation amplifier. 6.3 High-side current-sense amplifier. 6.4 Conclusions. 6.5 References. 7. Conclusions and Future Directions. 7.1 Conclusions. 7.2 Future directions. 7.3 References. A. Layout Issues. A.1 Introduction. A.2 Chopper layout. A.3 Clock shielding. A.4 Conclusion. A.5 References. About the authors. Index.