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IDTechEx on Thermal Interface Materials: Markets to Dramatically Transform and Double by 2025?
[December 02, 2019]

IDTechEx on Thermal Interface Materials: Markets to Dramatically Transform and Double by 2025?


BOSTON, Dec. 2, 2019 /PRNewswire/ -- Thermal Interface Materials (TIM) are not glamorous but are often an essential component found in all manner of electronic and energy storage applications. Indeed, they are absolutely pervasive. They are truly a diverse technology in terms of suppliers, material options, deposition techniques, applications, market requirement and performance levels. This makes them difficult to analyze.

IDTechEx has recently studied TIM markets and technologies in detail: "Thermal Interface Materials 2020-2030: Forecasts, Technologies, Opportunities". In this report, IDTechEx has analyzed all the key established and emerging technology options. On the latter, they have examined the likes of carbon fibers, vertically aligned carbon nanotubes, graphene, boron nitrides, and stacked graphite with high z-direction thermal conductivity.

This report also carefully examines the applications, which are extremely diverse. IDTechEx covers base stations, consumer electronics, power electronics, LEDs, and energy storage. IDTechEx considers real-use cases and product teardowns in order to formulate their analysis and build their market models. IDTechEx takes a granular view of each market category. Indeed, their forecasts are broken into 51 specific sub-segments, as shown below, giving them unparalleled granularity. Finally, they provide their forecasts in area or sqm. IDTechEx believes that this is the most appropriate metric in analyzing the market since, in the absence of one-size-fits-all solutions, the solutions' thickness levels vary.

Changing application landscape

IDTechEx's granular forecasts enable them to develop a detailed view of the key market trends. Here they briefly discuss some top-level trends.

The consumer electronic market is, today, the largest market category. This is because the TIM content per unit is relatively high, but, more importantly, because the annual unit sales are high. Here, TIM is used with electronics and batteries. In a typical mobile phone, for example, there are multiple thermal pads connecting the EMI shield lid, which covers multiple ICs, to the framework. There is also typically a heat spreader below the battery, as well as behind the display. In some recent versions, a heat pipe is also introduced to act as a compact and efficient heatsink. In laptops, there are usually TIMs atop or below the CPU, GPU, SSD memory and batteries. In general, this is a large market, but it will not register significant growth, as the unit sales are already in the saturation phase.

The recent trend in mobile phones is increasingly using higher performance TIM materials. One notable example is the carbon fiber TIMs, which offer extremely high thermal conductivity values compared to their traditional alumina or boron-nitride-filled counterparts. These TIMs come at higher per sqm prices. The trend towards higher performance TIMs will continue as devices utilize more dense arrangements of ICs.

Telecoms is also another significant market. In traditional base stations, TIM is used in both the baseband and the remote radio head unit. The baseband unit itself is typically composed of various parts such as baseband processing board, control board, power supply, and so on. This had been a fast-growing market in recent years as LTE stations were globally rolled out. This trend will continue, as LTE is still being rolled out in various parts of the world, such as China. However, this trend will go into a fast decline from 2023 onwards. This is because 5G stations will start to be rolled out in more significant numbers. As such, the opportunity will shift towards 5G systems.

Here, the TIM requirements are likely to be different. The rise of 5G will change the relationship between the baseband unit and the remote radio head. Furthermore, the rise of active antenna arrays will require the integration of many front-end modules, which contain a power amplifier, right behind the antenna array substrate. The fact that air losses at higher frequencies are higher will imply that the power amplifier will need to output higher powers, even when the gain from the active antenna array itself becomes substantial. Finally, 5G will lead to a proliferation of smaller cells, the so-called micro or femtocells. These require even more compact designs. Indeed, a trend will be to use advanced packaging technologies to achieve as much functional integration as possible per packaged chip. All these trends point towards higher power density per unit area, thus more challenging TIM requirements. To learn more, please visit www.IDTechEx.com/TIM.

Data centers are likely to continue their growth rates thanks to both inceased new, as well as replacement, demand. These centers are very energy-intensive, and heat management is a critical task. TIMs are used in almost all components of a data center, including the serve boards, switches, supervisor modules, and power supplies. Here, the employed TIM technologies are not likely to significantly change.



Power electronics remain an important market for TIM. In classical power electronic modules, the baseplate is connected via a TIM to a heatsink. However, many designs in high-performance applications, including many in electric vehicle traction drivers, are seeking to eliminate the TIM. This is because the TIM is the most thermally resistive section of the thermal path from the semiconductor junction to the heatsink. Indeed, many designs, some of which are already in volume production, have direct cooling, e.g., air or liquid directly cooling the baseplate, and have, thus, eliminated the TIM. This trend suggests that the TIM consumption in electric vehicle power electronics will not grow as fast as the power electronics market itself. Note that phase change materials pre-applied by the module maker are popular in power electronic modules since the wetting and spreading property, together with the thinness at operating temperatures, give rise to high performance, which can be better guaranteed. The market remains substantial overall, registering a 6% average annual growth rate between 2020 and 2030 across all the categories, including home appliances, renewables, industrial, and EV, as well as non-EV, traction applications. To learn more, please visit www.IDTechEx.com/TIM.

The LED market is very substantial. TIMs are used in many LEDs. LED-packaging technology is diverse, including die-on-lead-frame, die-on-ceramic, die-on-metal-core-PCBS, and so on. In general lighting, TIM is often used in moderate- to high-power LED lights to connect the metal-insulator-substrate or board with the heatsink. The use of LEDs in automotive lighting is also substantially growing. In the exterior of car, there are many light sources including front light, rear right, signal lights, and so on. The use of TIM will grow nearly hand-in-hand with the penetration of LEDs in automotive lighting. In headlamps, traditional light sources will compose only 55% (75% today) of the total in 2023, with the rest using standard or Matrix LEDs. LEDs are also used in LCD displays. Here, too, often a heat spreader layer is used in both backlit and edge-lit LCD displays. This is a notable market given the huge aggregate surface area of annually produced screens. To learn more, please visit www.IDTechEx.com/TIM.


The explosive growth of energy storage in the electric vehicle market

The big driver of change, however, is the energy storage market, or more specifically the lithium-ion battery market in electric vehicles. This is because the rise of electric vehicles will translate into a growing demand for batteries. Furthermore, the growth in the range of electric vehicles will translate into large battery capacities. These are large batteries composed of many cells. Thermal management is a key issue, which underpins efficient performance and is also safety-critical in order to prevent thermal runaway. 

There are today many different ways in which thermal interface materials are used in battery modules. This is natural, as a dominant settled design has yet to emerge. In nearly all cases, there are potted thermal interface materials on the bottom plate of the battery pack, creating a thermal path between the cells and the heatsink. In some cases, there are head spreaders in-between the individual cells, further promoting heat conduction. In some designs, to prevent thermal failure spreading between cells, an insulating cushion foam, e.g. PU, is deployed. In pouch cells, there can also be layers of gap pads.

This market will register dramatic growth over the coming decade, thereby completely changing the market composition for TIMs. This growth is driven by (a) the rise in the addressable market, which is essentially the growth in all manners of electric vehicles and (b) the high thermal material content per battery pack and, indeed, per kWh deployed. As a consequence, IDTechEx forecast that this market segment will grow from nearly zero to more than half of the total market (in sqm terms) by 2025. This will indeed be a dramatic transformation.

To learn more, please visit www.IDTechEx.com/TIM. This report provides granular market forecasts. Indeed, as is befitting the fragmented TIM market, the IDTechEx report offers more than 50 forecast lines. Their forecasts are built using product teardowns and real-world implementation. Their estimates are validated via many interviews. The report also provides detailed technology assessments. It covers the established paste, pad, phase change and other technologies. It also covers material innovation, including carbon fiber, graphene, vertically-aligned carbon nanotubes, vertically stacked graphite platelets, and so on. It is the most detailed and comprehensive report on the topic worldwide.

To find out more about Advanced Materials research available from IDTechEx, visit www.IDTechEx.com/Research/Materials or to connect with others on this topic, join us at the IDTechEx Show! Europe 2020, May 13-14, Estrel Convention Center, Berlin, Germany, presenting the latest emerging technologies at one event, with seven concurrent conferences and a single exhibition covering Electric Vehicles, Energy Storage, Graphene, Internet of Things, Printed Electronics, Sensors and Wearable Technology. Please visit www.IDTechEx.com/Europe to find out more.

IDTechEx guides your strategic business decisions through its Research, Consultancy and Event products, helping you profit from emerging technologies. For more information on IDTechEx Research and Consultancy contact research@IDTechEx.com or visit www.IDTechEx.com.

Media Contact:

Jessica Abineri

Marketing Coordinator

press@IDTechEx.com

+44(0)1223 812300

Related Images

granular-market-forecasts.jpg
Granular Market Forecasts
Granular market forecasts (51 forecast lines) in sqm showing how the market will dramatically increase over the coming years. The main growth areas will be in energy storage, 5G networks, and data centres. To learn more please visit www.IDTechEx.com/TIM.

market-split-in-2019-and-in-2025.jpg
Market Split in 2019 and in 2025
Pie chart showing the market split in 2019 and in 2025. It is evident that the energy storage market will rise from nearly zero to more than half the market by 2025, representing an explosive growth opportunity. To learn more please visit www.IDTechEx.com/TIM.

Related Links

Further IDTechEx Research on Advanced Materials

IDTechEx Show! Europe 2020, 13 - 14 May, Estrel Convention Center, Berlin, Germany

 

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SOURCE IDTechEx


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