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Electronics Thermal Management Basics (Self-paced Learning Available)

Course Overview

A successful electronic product requires good marketing that is nourished by a foundation of reliability. The marketability is generally addressed by richness in features and user interface aspects, whereas reliability demands that the product operates as intended under all the targeted loading and environmental conditions without any kind of failures throughout the intended lifetime of the product. Although the electrical design determines a product's core operations, features and functionalities, the primary cause of failures in electronics is rooted in adverse temperatures in and around individual components. Adverse temperatures can not only cause mechanical fatigue, but also affect electrical performance through temperature dependent material properties. Hence an appropriate thermal design and management is necessary to ensure robustness and reliability. In a traditional setup, Electrical engineers are involved in the engineering design from concept to manufacturing sign-off. Whereas Thermal Engineers typically come in when temperature related failures are obvious, by which time the existing design may have already matured and therefore expensive to modify. An effective mechanism to ensure thermal reliability is to conduct thermal health checks of the electrical design as and when it is conceptualized or modified, while leaving detailed thermal design and integration to Thermal Engineers. Such a rudimentary thermal assessment can easily be performed by Electrical Engineers with a good exposure to basic heat transfer concepts. This Electronics Thermal Management Basics course addresses this need for all non-thermal designers, including Electrical Engineer.

Prerequisites

  • Basic engineering mathematics (Algebra, Trigonometry and Calculus).

Target Audience

Thermal Engineers, Mechanical Engineers, Electrical Engineers

Teaching Method

Lectures and computer practical sessions to validate acquired knowledge. 

   

Learning Outcome

Following completion of this course will be familiar with:

  • Appreciate the fundamentals of conduction heat transfer.
  • Have confidence with practical application of conduction in electronics systems.
  • Perform simple heat transfer calculations using electric circuit elements.
  • Understand the basics of common conduction boundary conditions (BCs).
  • Understand the application of heat transfer coefficients (HTC) from Convection correlations.
  • Understand basic engineering mathematics (Algebra, Trigonometry and Calculus).

 Available Dates

Date / Time Duration Event Type Location Language Course Cost Registration

Learning Options

Training materials for this course are available with a Ansys Learning Hub Subscription. If there is no active public schedule available, private training can be arranged. Please contact us.

Self-paced Learning 

Complete a class on your own schedule at your own pace. Scope is equivalent to Instructor led classes. Includes video lecture, workshops and input files. All our Self-Paced video courses are only available with an Ansys Learning Hub subscription.

Agenda

This is a self-paced course covering 3 modules. Duration 5-hours.

  • Module 01: Introduction
  • Module 02: Conservation Laws in Heat Transfer
  • Module 03: Conduction Heat Transfer
  • Module 04: Convection Heat Transfer
  • Module 05: Heat Transfer Applications