Solving IR Drop Challenges for Effective Power Delivery

Solving IR Drop Challenges for Effective Power Delivery

ON-DEMAND WEB SEMINAR

 

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With the growing number of different voltage rails on modern PCBs, the ever-increasing current requirements, and the need to reduce cost and use fewer layers, power planes are being partitioned into a maze of different voltage islands. This can lead to narrow paths for power delivery - neckdowns that lead to significant voltage drop across the planes and high current densities. In this webinar, we will discuss this issue in detail, and illustrate how analysis of the problem can lead to a more robust power system, allowing you to get to market faster and have confidence in your PCB design.

 

Duration: 16:44 

 

Overview

This session - Solving IR Drop Challenges for Effective Power Delivery - will discuss how power planes are being partitioned into a maze of different voltage islands due to the growing number of voltage rails on modern PCBs, the ever-increasing current requirements, and the need to reduce cost and use fewer layers. This can lead to narrow paths for power delivery - neckdowns that lead to significant voltage drop across the planes and high current densities.

 

We will also illustrate how analysis of the problem can lead to a more robust power system, allowing you to get to market faster and have confidence in your PCB design.

 

What You Will Learn

  • How DC Drop issues can affect your PCB design
  • How to analyze your PCB to quickly pinpoint power delivery issues and explore solutions
  • How HyperLynx PI can help solidify your PCB power distribution network


Who Should View

  • Power Integrity Specialists
  • Electrical Engineers
  • Layout Designers
  • Engineering Managers