Analog Design Essentials (Hardcover)

Willy M Sansen




This book is entitled Analog Design Essentials because it contains all topics of importance to the analog designer which are essential to obtain sufficient insights to do a thorough job.

The book starts with elementary stages in building up operational amplifiers. The synthesis of opamps is covered in great detail, such that lowest power consumption is always guaranteed. Many examples are included, operating at low supply voltages. Chapters on noise, distortion, filters, ADC/DACs and oscillators follow. These are all based on the extensive amount of teaching that the author has carried out both at universities and companies world-wide. All chapters have been drawn up specifically for self-study. They aim, however, at different levels of understanding. All start with elementary material. Most chapters also contain advanced material, especially from Chapter 9 onwards.

A new format is used for this book. All slides are included on a CD-ROM, as PDF files, and are reproduced in the book, followed by the comments normally given by the teacher. This has the advantages that the material used for teaching is also the material used by the student, and that only one additional aspect is explained per slide. The student can thus easily monitor their progress in understanding.

It is hoped that this new format provides a better structure in both teaching and studying these essential topics in analog design.

Written for:
Both analog and digital designers, device physicists, aimed for teachers, research assistants, students, designers in industry and expersts in industry
Analog Circuit Design
Table of contents

1. Comparison of MOST and bipolar-transistor models. 2. Amplifiers, source followers and cascodes. 3. Differential voltage and current amplifiers. 4. Noise performance of elementary transistor stages. 5. Stability of operational amplifiers. 6. Systematic design of operational amplifiers. 7. Important opamp configurations. 8. Fully-differential and current-mode operational amplifiers. 9. Design on multistage operational amplifiers. 10. Current-input operational amplifiers. 11. Rail-to-rail amplifiers. 12. Class AB and driver amplifiers. 13. Feedback transconductance and voltage amplifiers. 14. Feedback transimpedance and current amplifiers. 15. Offset and CMRR; random and systematic. 16. Bandgap and current reference circuits. 17. Switched-capacitor filters. 18. Distortion in elementary transistor circuits. 19. Continuous-Time Filters. 20. ADC and DACs principles. 21. Low-power Sigma-Delta AD converters. 22. Design of crystal oscillators and VCO’s. 23. Design of LNA’s. 24. Coupling in mixed-signal circuits.












1. MOST和雙極晶體管模型的比較。2. 放大器、源跟隨器和串聯放大器。3. 差動電壓和電流放大器。4. 基本晶體管階段的噪聲性能。5. 運算放大器的穩定性。6. 運算放大器的系統設計。7. 重要的運算放大器配置。8. 完全差動和電流模式運算放大器。9. 多級運算放大器的設計。10. 電流輸入運算放大器。11. 電壓全範圍放大器。12. AB類和驅動放大器。13. 反饋跨導和電壓放大器。14. 反饋跨阻和電流放大器。15. 偏移和CMRR;隨機和系統性。16. 帶隙和電流參考電路。17. 電容開關濾波器。18. 晶體管電路的失真。19. 連續時間濾波器。20. ADC和DAC的原理。21. 低功耗ADC和DAC。