- New questions and problems designed for both students and professional engineers
- How design and technology selection can make or break power distribution network performance
- Exploration of key concepts, such as plane impedance, spreading inductance, decoupling capacitors, and capacitor loop inductance
- Practical techniques for analyzing resistance, capacitance, inductance, and impedance
- Using QUCS to predict waveforms as voltage sources are affected by interconnect impedances
- Identifying reflections and crosstalk with free animation tools
- Solving signal integrity problems via rules of thumb, analytic approximation, numerical simulation, and measurement
- Understanding how interconnect physical design impacts signal integrity
- Managing differential pairs and losses
- Harnessing the full power of S-parameters in high-speed serial link applications
- Designing high-speed serial links associated with differential pairs and lossy lines--including new coverage of eye diagrams
- Ensuring power integrity throughout the entire power distribution path
- Realistic design guidelines for improving signal integrity, and much more For professionals and students at all levels of experience, this book emphasizes intuitive understanding, practical tools, and engineering discipline, rather than theoretical derivation or mathematical rigor. It has earned a well-deserved reputation as the #1 resource for getting signal integrity designs right--first time, every time.
- New questions and problems designed for both students and professional engineers
- How design and technology selection can make or break power distribution network performance
- Exploration of key concepts, such as plane impedance, spreading inductance, decoupling capacitors, and capacitor loop inductance
- Practical techniques for analyzing resistance, capacitance, inductance, and impedance
- Using QUCS to predict waveforms as voltage sources are affected by interconnect impedances
- Identifying reflections and crosstalk with free animation tools
- Solving signal integrity problems via rules of thumb, analytic approximation, numerical simulation, and measurement
- Understanding how interconnect physical design impacts signal integrity
- Managing differential pairs and losses
- Harnessing the full power of S-parameters in high-speed serial link applications
- Designing high-speed serial links associated with differential pairs and lossy lines--including new coverage of eye diagrams
- Ensuring power integrity throughout the entire power distribution path
- Realistic design guidelines for improving signal integrity, and much more For professionals and students at all levels of experience, this book emphasizes intuitive understanding, practical tools, and engineering discipline, rather than theoretical derivation or mathematical rigor. It has earned a well-deserved reputation as the #1 resource for getting signal integrity designs right--first time, every time.
Hardcover
$137.50