Publisher: Prentice Hall PTR Pub Date: September 15, 2003 ISBN: 0-13-066946-6 Pages: 608 Section 2.7. The Spectrum of an Ideal Square Wave Section 2.8. From the Frequency Domain to the Time Domain Section 2.9. Effect of Bandwidth on Rise Time Section 2.10. Bandwidth and Rise Time Section 2.11. What Does "Significant" Mean? Section 2.12. Bandwidth of Real Signals Section 2.13. Bandwidth and Clock Frequency Section 2.14. Bandwidth of a Measurement Section 2.15. Bandwidth of a Model Section 2.16. Bandwidth of an Interconnect Section 2.17. Bottom Line Chapter 3. Impedance and Electrical Models Section 3.1. Describing Signal-Integrity Solutions in Terms of Impedance Section 3.2. What Is Impedance? Section 3.3. Real vs. Ideal Circuit Elements Section 3.4. Impedance of an Ideal Resistor in the Time Domain Section 3.5. Impedance of an Ideal Capacitor in the Time Domain Section 3.6. Impedance of an Ideal Inductor in the Time Domain Section 3.7. Impedance in the Frequency Domain Section 3.8. Equivalent Electrical Circuit Models Section 3.9. Circuit Theory and SPICE Section 3.10. Introduction to Modeling Section 3.11. The Bottom Line Chapter 4. The Physical Basis of Resistance Section 4.1. Translating Physical Design into Electrical Performance Section 4.2. The Only Good Approximation for the Resistance of Interconnects Section 4.3. Bulk Resistivity Section 4.4. Resistance per Length Section 4.5. Sheet Resistance Section 4.6. The Bottom Line Chapter 5. The Physical Basis of Capacitance Section 5.1. Current Flow in Capacitors Section 5.2. The Capacitance of a Sphere Section 5.3. Parallel Plate Approximation Section 5.4. Dielectric Constant Section 5.5. Power and Ground Planes and Decoupling Capacitance Section 5.6. Capacitance per Length Section 5.7. 2D Field Solvers Section 5.8. Effective Dielectric Constant Section 5.9. The Bottom Line Chapter 6. The Physical Basis of Inductance Section 6.1. What Is Inductance? Section 6.2. Inductance Principle #1: There Are Circular Magneti

signal integrity；本书全面论述了信号完整性问题，它以入门式的切入方式，使得读者很容易认识到物理互连影响电气性能的实质，从而可以尽快掌握信号完整性设计技术。本书作者从实践的角度指出了造成信号完整性问题的根源，特别给出了在设计前期阶段的问题解决方案。

《信号完整性分析》是2005年04月电子工业出版社出版的图书，作者伯格丁。 《信号完整性分析》作者以实践专家的视角提出了造成信号完整性问题的根源，特别给出了在设计前期阶段的问题解决方案。这是面向电子工业界的设计工程师和产品负责人的一本具有实用价值的参考书，其目的在于帮助他们在信号完整性问题出现之前能提前发现并及早加以解决，同时也可作为相关专业本科生及研究生的教学指导用书。 《信号完整性分析》全面论述了信号完整性问题。主要讲述了信号完整性和物理设计概论，带宽、电感和特性阻抗的实质含义，电阻、电容、电感和阻抗的相关分析，解决信号完整性问题的四个实用技术手段，物理互连设计对信号完整性的影响，数学推导背后隐藏的解决方案，以及改进信号完整性推荐的设计准则等。该书与其他大多数同类书籍相比更强调直观理解、实用工具和工程实践。它以入门式的切入方式，使得读者很容易认识到物理互连影响电气性能的实质，从而可以尽快掌握信号完整性设计技术。

本书是Eric Evans对他自己写的《领域驱动设计-软件核心复杂性应对之道》的一本字典式的参考书，可用于快速查找《领域驱动设计》中的诸多概念及其简明解释。书是英文版的，2015年3月修订版，我已经加了目录，方便大家参阅。 Acknowledgements Definitions Pattern Language Overview I. Putting the Model to Work Bounded Context Ubiquitous Language Continuous Integration Model-Driven Design Hands-on Modelers Refactoring Toward Deeper Insight II. Building Blocks of a Model-Driven Design Layered Architecture Entities Value Objects Domain Events * Services Modules Aggregates Repositories Factories III. Supple Design Intention-Revealing Interfaces Side-Effect-Free Functions Assertions Standalone Classes Closure of Operations Declarative Design iii Drawing on Established Formalisms Conceptual Contours IV. Context Mapping for Strategic Design Context Map Partnership * Shared Kernel Customer/Supplier Development Conformist Anticorruption Layer Open-host Service Published Language Separate Ways Big Ball of Mud * V. Distillation for Strategic Design Core Domain Generic Subdomains Domain Vision Statement Highlighted Core Cohesive Mechanisms Segregated Core Abstract Core VI. Large-scale Structure for Strategic Design Evolving Order System Metaphor Responsibility Layers Knowledge Level Pluggable Component Framework