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Beat the Heat: How (and When) to Factor Thermal Management Into Product Design

In the race to create more powerful industrial products, many overlook a critical factor: thermal management. Learn why it is crucial for new product success.

Lauren West
Lauren Hernley

November 7 th 2024 | 7 min read

Industrial, computing, and tech products continue to become increasingly complex and sophisticated. But as you look for ways to make your innovations faster, smaller, and more powerful, it’s easy to overlook one crucial element of each product’s ongoing performance and reliability: thermal management.

Pushing the boundaries of Industry 4.0 comes with a cost. That cost is energy — released in the form of heat. When not properly managed, excessive heat can cause performance issues, reduce a product’s lifespan, and contribute to unsafe conditions for workers and users alike.

Given the high stakes, why do so many product development teams find themselves scrambling to retrofit cooling solutions into nearly finished designs, leading to compromises, delays, and higher costs?

Simple. They don’t consider their product’s thermal management requirements early enough in the product development process and test prototypes with this factor in mind. Here’s what to consider — and how to get ahead of this challenge when developing your next “hot” product.

The Risks of Overlooking Thermal Management in Product Development

Thermal management issues are a huge concern for massive data centers and continuous-use industrial equipment. But these products aren’t the only ones turning up the heat. From smartphones to laptops, from IoT devices to electric vehicles, and from blenders to medical devices — managing heat is a universal concern in modern product development.

Failing to address thermal issues can have serious consequences, such as:

  • Performance degradation. When a device overheats, it will often reduce its output to protect itself from damage. This results in subpar functionality, which can negate the benefits of incorporating sophisticated performance components into the design.
  • Reduced Lifespan. Prolonged exposure to high temperatures can significantly shorten the lifespan of electronic components, leading to premature product failure and unhappy users/stakeholders.
  • Safety Concerns. In extreme cases, poor thermal management can lead to safety hazards like fires and burns.
  • Costly Redesigns. Addressing thermal issues late in the development process often requires designers to go back to the drawing board and rethink some elements of the design from the ground up. This, of course, leads to costly delays and rework.
  • Missed Opportunities. In the worst-case scenario, getting thermal management wrong could mean you don’t have an opportunity to fix the mistake and instead are required to de-rate the product. Optimal output will be less than anticipated, which could give your competitors a much-coveted edge.

On the other hand, when done well, effective thermal management is a competitive advantage. By getting it right from the get-go, you can drive down your product’s development costs, speed up your time to market, and ensure your product outperforms your competitor’s offerings.

5 Ways to Bake Thermal Management Into Your Product Design

So how can you get thermal management right? Especially when you don’t have the luxury of knowing everything about how your device will ultimately be engineered at the outset?

Incorporate the following strategies into your design work as early in the process as possible.

1. Get Real About Your Product’s Actual Requirements

One of the first steps in effective thermal management is gaining a clear understanding of your product’s requirements. This goes beyond simply reading PRDs and spec sheets, since these often assume ideal conditions rather than real-world scenarios.

To get a sense of the environments and conditions in which your product will be used, do your research as part of a thorough strategy phase. Explore questions like:

  • Where will this product live? Will it be operated in a climate-controlled setting or exposed to harsh environmental elements?
  • What’s the average length of use? Will it run continuously for hours or days? Or will it only be used in short bursts?
  • How will this product be used by key stakeholders? What are their actual functional requirements for using the product without it overheating? Which parts of the product will they touch and interact with — and how will various materials impact the user interface?

Considering the full range of probable use cases is essential to arriving at a right-fit cooling solution. At the same time, be cautious about swinging too far into plan-for-every-scenario mode.

One of the biggest mistakes you can make is over-specifying the amount of power the system will require, which in turn creates a design problem that can’t be solved. While it’s important to consider realistic use cases and settings — including worst-case scenarios — designing for these can lead to over-engineering an overly complex and costly solution.

Be mindful of striking a balance between preparedness and practicality to design the right product for your users’ and stakeholders’ needs.

2. Consider Your Product’s Competing Requirements

Thermal management doesn’t exist in a vacuum, and it may not even be the most important factor that contributes to your product’s ultimate success. Your cooling solutions will need to coexist with other product requirements, such as electromagnetic interference (EMI) shielding, noise reduction, and physical size constraints.

Be aware of these competing needs early on and develop a plan to address them holistically.

To make hard decisions about which requirements to prioritize, and arrive at the right big-picture design solution, use pre-determined success drivers as your guide.

3. Integrate Thermal Management Into Early Architecture Studies

An architecture study is to engineering what a strategy phase is to designers. Early on, engineers need to understand the basic components of the product and begin imagining how they’ll interface with each other within the context of various design options.

Even a basic architecture study can help identify potential hotspots, airflow issues, and thermal challenges before you’ve committed to a specific design. This early exploration allows you to make informed decisions about component placement, cooling methods, and overall product layout.

Early architectural studies can also help you plan for future thermal margin. If you discover during development that you’ll need additional cooling capacity down the road, you’ll have a roadmap for where and how to implement it without starting from scratch.

Again, looking at all of this early is key. This is why we advocate so strongly for design and engineering to work on product solutions collaboratively — in lockstep and under the same roof.

4. Leverage Prototyping and Analysis Early in the Design Process

Design theory is important, but there’s no substitute for real-world testing and validation. So even before you’ve got your design totally worked out, build physical prototypes and put your hypothetical thermal management strategies to the test.

Your prototypes don’t have to be fancy, expensive, or 100% to spec to be informative. Even crude mock-ups can give you an idea of how your product will withstand the effects of various heat-generating components.

Complement physical testing with thermal simulations and analysis. Modern simulation tools can provide detailed insights into heat generation, dissipation, and airflow within your product. Use these simulations to evaluate different cooling concepts, identify the most sensitive areas for improvement, and optimize your design before committing to high-def physical prototypes.

Remember, the goal is to balance both physical and theoretical evaluation. Relying solely on one approach might lead you to miss critical issues that the other method would have caught.

5. Expand Your Thermal Toolkit

Thermal management is a rich field with a wide array of solutions. Familiarize yourself with different materials, components, and techniques for managing heat. This might include:

  • Heat sinks and spreaders
  • Thermal interface materials
  • Active cooling solutions like fans or liquid cooling
  • Phase-change materials
  • Thermoelectric coolers
  • Advanced materials with high thermal conductivity

The more options you’re aware of, the better equipped you’ll be to choose the right solution for your specific product challenges.

Don’t Let Your Product Design Go Up In Flames

Effective thermal management isn’t just about preventing problems. It’s about enabling possibilities. When you have a solid thermal strategy, you can push the boundaries of performance, create more compact designs, and deliver products that excel in challenging environments.

For many products, thermal management can become the make-or-break difference between a market-leading innovation and a costly failure. That’s why it’s so important to consider thermal challenges early — and keep them top of mind throughout the product development process.

M3 Design can help you think through all the possibilities and ramifications of your next innovative product idea. So let’s talk.