PCB Design for Today's High-Speed Protocols

PCB Design for Today's High-Speed Protocols

This presentation is targeted to engineers and layout designers who want to know more about how to deal with the challenges of modern high speed design. (April 2023)

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About this course

This presentation is targeted to engineers and layout designers who want to know more about how to deal with the challenges of modern high speed design. We also welcome anyone who want to better understand the more difficult challenges their teams face and solve each day. 

The class covers the following topics:

  • What does “High Speed” mean?
  • Issues with high speed protocols
  • Mechanisms that degrade high speed signaling
  • Implementing high speed protocols
  • Best practices
  • Solutions for protocol-specific issues

Curriculum71 min

  • Syllabus
  • Related Material
  • Introduction 1 min
  • Introductory
  • What is covered in this chapter 1 min
  • High Speed - Definition 2 min
  • Transmission Line 8 min
  • High Speed Concepts 2 min
  • High-Speed Signals and Effects
  • What is covered in this chapter 1 min
  • Transmission Line Reflections 2 min
  • Synchronizing Signals 4 min
  • Crosstalk 2 min
  • Signal Losses 9 min
  • EMI 3 min
  • The Practical Approach
  • What is covered in this chapter 1 min
  • Best Practices - Definition 1 min
  • PCB Construction 2 min
  • Best Practices 3 min
  • Eye Diagrams & Jitter 2 min
  • Summary 1 min
  • System-Wide Effects
  • No Signal is Alone 1 min
  • Crosstalk 1 min
  • GND Noise - Moats 2 min
  • Vias 1 min
  • Power Supply Noise 1 min
  • Stubs 2 min
  • Cables and Connectors 2 min
  • Traces, Spaces and Stack Ups
  • Traces 4 min
  • Space 2 min
  • Length & Phase Matching 1 min
  • PCB Fabrication 1 min
  • Systems Thinking
  • Other Influences 1 min
  • Bypass
  • Bypass Capacitors 4 min
  • Using Bypass Capacitors 1 min
  • Summary 2 min
  • Your Feedback
  • We need Your Feedback

About this course

This presentation is targeted to engineers and layout designers who want to know more about how to deal with the challenges of modern high speed design. We also welcome anyone who want to better understand the more difficult challenges their teams face and solve each day. 

The class covers the following topics:

  • What does “High Speed” mean?
  • Issues with high speed protocols
  • Mechanisms that degrade high speed signaling
  • Implementing high speed protocols
  • Best practices
  • Solutions for protocol-specific issues

Curriculum71 min

  • Syllabus
  • Related Material
  • Introduction 1 min
  • Introductory
  • What is covered in this chapter 1 min
  • High Speed - Definition 2 min
  • Transmission Line 8 min
  • High Speed Concepts 2 min
  • High-Speed Signals and Effects
  • What is covered in this chapter 1 min
  • Transmission Line Reflections 2 min
  • Synchronizing Signals 4 min
  • Crosstalk 2 min
  • Signal Losses 9 min
  • EMI 3 min
  • The Practical Approach
  • What is covered in this chapter 1 min
  • Best Practices - Definition 1 min
  • PCB Construction 2 min
  • Best Practices 3 min
  • Eye Diagrams & Jitter 2 min
  • Summary 1 min
  • System-Wide Effects
  • No Signal is Alone 1 min
  • Crosstalk 1 min
  • GND Noise - Moats 2 min
  • Vias 1 min
  • Power Supply Noise 1 min
  • Stubs 2 min
  • Cables and Connectors 2 min
  • Traces, Spaces and Stack Ups
  • Traces 4 min
  • Space 2 min
  • Length & Phase Matching 1 min
  • PCB Fabrication 1 min
  • Systems Thinking
  • Other Influences 1 min
  • Bypass
  • Bypass Capacitors 4 min
  • Using Bypass Capacitors 1 min
  • Summary 2 min
  • Your Feedback
  • We need Your Feedback