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Designing Electronics for High Thermal Loads
April 16, 2024 | Akber Roy, Rush PCB Inc.Estimated reading time: 2 minutes

Developing proactive thermal management strategies is important in the early stages of the PCB design cycle to minimize costly redesign iterations. Here, I delve into key aspects of electronic design that hold particular relevance for managing heat in electronic systems. Each of these considerations plays a pivotal role in enhancing the reliability and performance of the overall system.
Thermal Management: A Pinnacle Challenge to Reliability
All electronics generate heat due to energy conduction inefficiencies. This phenomenon arises from inherent electrical resistance in all metals and semiconductors, leading to some energy in the circuit converting to heat. Over time, that heat, if not properly managed, can accumulate and cause damage to sensitive components.
In my capacity, I’ve witnessed an increase in thermal management issues as electronics trend toward higher functionality in smaller packages. Although many thermal management methods and copious amounts of component thermal data are available to assist engineers in understanding thermal loads, thermal issues continue to be difficult to predict, creating unwanted surprises. Unfortunately, these surprises often arise during functional testing, not during the front-end design process. I firmly believe that today’s compact, high-performance electronics must be developed with robust thermal management strategies early in the design cycle. This proactive approach not only reduces development time and costs but also helps product designers ensure that crucial electronic components operate in their optimal temperature range, ultimately enabling long-term product safety and reliably.
To help designers achieve these goals, I’ve developed the following overview of best practices and key considerations for managing heat in electronic systems.
Understand the Factors Affecting Thermal Load
Many factors contribute to the overall thermal load in electronic systems, from power consumption and I/O speeds to component package designs, features, and functions. Drawing on decades of experience supporting PCB fabrication and assembly, it becomes apparent that advanced and simple systems alike can grapple with thermal issues, and there is no one-size-fits-all thermal solution.
I strongly recommend using thermal modeling and simulation tools at the beginning of the design process to aid in understanding the many factors that affect thermal load, identify potential hot spots, and assess the potential effects of different thermal management strategies. This approach makes it possible to accurately predict thermal behavior in complex electronic systems prior to building physical prototypes. With thermal modeling, designers can efficiently optimize their designs, simulating and analyzing multiple design iterations, while experimenting with different components and materials.
To read this entire article, which appeared in the March 2024 issue of Design007 Magazine, click here.
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