Voltage Reference From Diode To High Precision High Order BandGap 1st Edition by Gabriel Alfonso Rincon-Mora ISBN 978-0471143369 0471143367
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Product details:
ISBN 10: 0471143367
ISBN 13: 978-0471143369
Author: Gabriel Alfonso Rincon-Mora
The foremost tutorial resource on the design of integrated voltage references, from theory to real-life practice.
Voltage References covers the conceptual history and scope of practical design issues behind marketable and precision integrated voltage references. Effectual for professionals and understandable to novice designers, this book provides a familiarity with simple rudimentary design as well as precision state-of-the-art ones. Also covered are the design implications on SOC solutions, and low-voltage, low-power, and noisy mixed-signal environments. Enhanced with design examples, this volume will increase the reader’s understanding of analog integrated circuits and the issues involved in producing commercially marketable and reliable devices.
Primary topics include:
The complete design of integrated voltage references
Basics of voltage references, from diodes and current mirrors to temperature-dependent current references
Design of zero-order, first-order, second-order, and higher-order reference circuits
State-of-the-art curvature-correction techniques
Practical design issues of integrated references, from error sources and circuit topologies to trimming circuits, package-shift effects, and characterization
Voltage References is an essential book for IC designers, product engineers, test engineers, researchers, and professors, as well as undergraduate and graduate students.
Table of contents:
1 THE BASICS
1.1 The Diode
1.1.1 Breakdown Region
1.1.2 Forward-Biased Region
1.2 Current Mirrors
1.2.1 The Simple Mirror
1.2.2 Cascode Mirrors
1.2.3 Regulated Cascode Mirrors
1.3 Summary
Appendix A.I Temperature Dependence of the Diode Voltage
Bibliography
2 CURRENT REFERENCES
2.1 PTAT Current References
2.1.1 Bipolar Implementations
2.1.2 CMOS Implementations
2.2 Startup Circuits and Frequency Compensation
2.2.1 Continuous-Conduction Startup Circuits
2.2.2 State-Dependent Startup Circuits
2.2.3 Frequency Compensation
2.3 CTAT Current References
2.4 Temperature-Independent Current References
2.5 PTAT2 Current Generators
2.5.1 Bipolar Implementations
2.5.2 CMOS Implementations
2.6 Summary
Bibliography
3 VOLTAGE REFERENCES
3.1 Zero-Order References
3.1.1 Forward-Biased Diode References
3.1.2 Zener References
3.2 First-Order References
3.2.1 Forward-Biased Diode References
3.2.2 Zener References
3.3 Second-Order References (Curvature Correction)
3.4 State-of-the-Art Curvature-Correction Techniques
3.4.1 Temperature-Dependent Resistor Ratio
3.4.2 Diode Loop
3.4.3 j8 Compensation
3.4.4 Piecewise-Linear Current-Mode Technique
3.4.5 Matched-Nonlinear Correction
3.4.6 Exact Method
3.5 Summary
Bibliography
4 DESIGNING PRECISION REFERENCE CIRCUITS
4.1 Error Sources
4.1.1 Qualitative Effects
4.2 The Output Stage
4.2.1 Voltage-Mode
4.2.2 Current-Mode
4.2.3 Mixed-Mode
4.2.4 Regulated versus Unregulated References
4.3 Designing for Power Supply Rejection and Line Regulation
4.3.1 Cascodes
4.3.2 Pseudo-Power Supply
4.4 Summary
Appendix A.4 Error Sources in a Typical First-Order Bandgap
Appendix B.4 Effect of the Resistors’ Temperature Coefficient on a Reference with a Current-Mode Output Stage
Bibliography
5 CONSIDERING THE SYSTEM AND THE WORKING ENVIRONMENT
5.1 Design of the Trim Network
5.1.1 Trim Range
5.1.2 Trimming Techniques
5.2 Package-Shift Effects
5.3 System-Related Issues
5.3.1 Circuit Implications
5.3.2 Layout Implications
5.4 Characterization
5.5 Summary
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Tags: Gabriel Alfonso Rincon-Mora, Voltage Reference, High Precision, High Order BandGap