As the speed, density, and capabilities of electronics have all increased, power has become a first order driver in almost all electronic systems. For instance, it’s well recognized that heat is often ...

Power electronics underpin modern energy systems and transportation, making the reliability and thermal management of semiconductor modules a matter of global significance. The field is marked by ...

Enhancing thermal management in electric vehicle propulsion systems: A focus on optimizing irregular pinfin structures and collaborative design with dc bus capacitors and motors The paper investigates ...

Power modules are the foundation of modern electrical systems, especially within electric vehicles (xEVs), industrial motor applications, and renewable energy solutions such as wind and solar power.

The benefits of thermal interface materials. Comparing FR-4 laminate with insulated metal substrate (IMS) PCB. How phase-change TIMs may prove to be the best solution. One of the most important—and ...

Thermal management has long been a key challenge facing design engineers. For decades, engineers have faced trying to dissipate heat from densely packed electronics that have continued to shrink in ...

Thermal management deals with problems arising from heat dissipation, thermal stresses and warping. It is critical in the packaging of power semiconductors and other microelectronic and optoelectronic ...

Thermal management is controlling and manipulating heat to optimize the performance, safety, and longevity of various systems and processes. One of the primary concerns in the energy sector is the ...