TIMs have emerged as essential components in the electronics industry, addressing the ever-increasing demand for efficient heat management solutions. As electronic devices become more powerful and compact, the need to dissipate heat effectively has become more critical. TIMs are instrumental in enhancing the performance and longevity of various electronic systems, ranging from electric vehicle batteries to power electronics and data centres.
They significantly improve battery performance in electric vehicles by ensuring optimal thermal conductivity and heat dissipation, which are crucial for maintaining battery efficiency and safety. In power electronics, TIMs enhance the reliability and operational stability of components, such as transistors and diodes, which are prone to overheating due to high power densities. Data centres, housing numerous servers and electronic equipment, also benefit from TIMs by maintaining optimal operating temperatures and preventing thermal-related failures, ensuring continuous data processing and storage.
The composition of TIMs is a critical factor in their effectiveness. They are typically made from materials such as thermal greases, phase-change materials, thermal pads, and conductive adhesives. Each type of TIM is designed to meet specific thermal management needs, offering varying degrees of thermal conductivity, mechanical compliance, and ease of application. The market for TIMs is experiencing significant growth, driven by the expanding applications in sectors such as automotive, aerospace, telecommunications, and consumer electronics. Advancements in electronics and growing system complexity are fuelling demand for high-performance TIMs.
TIM in EV power electronics
This story is from the October 2024 edition of Electronics For You.
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This story is from the October 2024 edition of Electronics For You.
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