Design and Layout High-Speed PCB
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       Video Length : 5h54m26s
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       Tasks Number : 31
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       Students Enrolled : 328
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       Medium Level
Authors

Kevin Gautama is a systems design and programming engineer with 16 years of expertise in the fields of electrical and electronics and information technology.

He teaches at the Hanoi University of Industry in the period 2003-2011 and he has a certificate of vocational training by the Ministry of Industry and Commerce and the Hanoi University of Industry.

From extensive design experience through numerous engineering projects, the author founded the Enziin Academy.

The Enziin Academy is a startup in the field of educational, it's core goal is to training design engineers in the fields technology related.

The Enziin Academy is headquartered in Stockholm-Sweden with an orientation operating multi-lingual and global.

The author's skills in IT:

  • Implementing the application infrastructure on Amazon's cloud computing platform.
  • Linux server system administration (Sysadmin).
  • Design load balancing and content distribution system.
  • MySQL database administration.
  • C/C++/C# Programming
  • Ruby and Ruby on Rails Programming
  • Python and Django Programming
  • The WPF/C# on the .NET Framework Programming
  • The PHP/JAVA Programming
  • Machine Learning and Expert System.
  • Internet of Things.

The author's skills in the fields of electric and electronic:

  • The design of popular CPU / MCU systems.
  • Design FPGA / CPLD system (Xilinx - Altera).
  • Design and programming of DSP systems (Texas Instruments).
  • Embedded ARM system design.
  • The RTOS Programming
  • Design and programming electronic power systems.
  • PLC - inverter - sensor - electric control cabinet industrial.
  • Control systems distributed connection with Server.

Read more...

  • Curriculum
  • 1. Introduction
    • videocam
      The tasks to do in this course

      11m26s
    • videocam
      Overview of High-Speed PCB

      11m26s
  • 2. Materials for High-Speed PCB
    • videocam
      Select the appropriate material

      11m26s
    • videocam
      Parameters of high-speed materials

      11m26s
    • videocam
      Structure of multilayer PCB

      11m26s
  • 3. Transmission Line Model
    • videocam
      Parameters of transmission line

      11m26s
    • videocam
      Calculating the impedance

      11m26s
    • videocam
      Impedance in Microstrip model

      11m26s
    • videocam
      Impedance in Stripline model

      11m26s
    • videocam
      Calculating the Propagation Delay

      11m26s
    • videocam
      Equivalent Circuit Models for SPICE Simulation

      11m26s
    • videocam
      Signal reflection phenomenon

      11m26s
    • videocam
      Termination Schemes

      11m26s
    • videocam
      Impedance matching

      11m26s
    • videocam
      Design for signal integrity

      11m26s
  • 4. Anti-interference and Electromagnetic Compatibility
    • videocam
      Crosstalk on the PCB

      11m26s
    • videocam
      Electromagnetic compatibility concept

      11m26s
    • videocam
      Split power planes on PCB

      11m26s
    • videocam
      Arrange components

      11m26s
    • videocam
      Shielding techniques

      11m26s
  • 5. High-Speed Layout with Altium
    • videocam
      Stack-up of multilayer PCB

      11m26s
    • videocam
      Arrange components

      11m26s
    • videocam
      Design rules for high-speed

      11m26s
    • videocam
      Length matching

      11m26s
    • videocam
      Length tuning

      11m26s
    • videocam
      Split power planes

      11m26s
    • videocam
      Fill Polygons

      11m26s
  • 6. Design Rules Check
    • videocam
      Introduction to CST PCB Studio

      11m26s
    • videocam
      Check Signal Integrity

      11m26s
    • videocam
      Check Power Integrity

      11m26s
    • videocam
      Simulation of Electromagnetic Compatibility

      11m26s
Highspeedpcb
Design and Layout High-Speed PCB


What Is High Speed PCB Design?

High speed PCB design is any design where the integrity of your signals starts to be affected by the physical characteristics of your circuit board, like your layout, packaging, layer stackup, interconnections, etc… If you start designing boards and run into problems like delays, attenuation, crosstalk, reflections, or emissions, then congratulations! You’ve found yourself in the world of high speed PCB design.

What makes high speed design so unique is the amount of attention paid to these issues. You might be used to designing a simple board where most of your focused time is on component placement and routing.

But with a high speed design, it becomes more important to consider exactly where you are placing your traces, what width they’re going to be, how close they are to other signals, and what kind of components they are connected. And when you have to make considerations of this sort, then your PCB design process will take on a whole new level.

We know that a good indication of a high speed design is when you’re dealing with signal integrity issues.

Table of Content

1. Introduction

  • The tasks to do in this course
  • Overview of High-Speed PCB

2. Materials for High-Speed PCB

  • Select the appropriate material
  • Parameters of high-speed materials
  • Structure of multilayer PCB

3. Transmission Line Model

  • Parameters of transmission line
  • Calculating the impedance
  • Impedance in Microstrip model
  • Impedance in Stripline model
  • Calculating the Propagation Delay
  • Equivalent Circuit Models for SPICE Simulation
  • Signal reflection phenomenon
  • Termination Schemes
  • Impedance matching
  • Design for signal integrity

4. Anti-interference and Electromagnetic Compatibility

  • Crosstalk on the PCB
  • Electromagnetic compatibility concept
  • Split power planes on PCB
  • Arrange components
  • Shielding techniques

5. High-Speed Layout with Altium

  • Stack-up of multilayer PCB
  • Arrange components
  • Design rules for high-speed
  • Length matching
  • Length tuning
  • Split power planes
  • Fill Polygons

6. Design Rules Check

  • Introduction to CST PCB Studio
  • Check Signal Integrity
  • Check Power Integrity
  • Simulation of Electromagnetic Compatibility