Environmental control for electronic packages and enclosures often involves understanding and managing moisture concentration. Excessive moisture combined with processing temperatures can cause damage. High humidity levels have other potentially harmful effects such as corrosion. Since the movement of heat and moisture are similar (i.e., diffusive), thermal engineers may be … [Read more...]
Adhesion of Thermal Interface Materials for CPU Heatsinks, an Overlooked Issue
High performance thermal interface materials (TIMs) inserted between the CPU lid and heatsink - generally referred to as the "TIM2" - provide a reworkable low resistance thermal path in the package stack-up. It is well-recognized that users need to monitor the thermal performance of the TIMs to verify vendor data [1, 2]. Less well-known is that the TIM2 can also mechanically … [Read more...]
Effect Of Improved Thermoelectric Zts On Electronic Module Coolability
In recent years there has been a growing interest in the application of thermoelectrics to electronics cooling. Attention has been focused on thermoelectric cooling both as a possible means to enhance module cooling and to address the chip hot spot problem. Effort has been directed towards the development of new bulk materials and thin film micro-coolers. The usefulness of … [Read more...]
Comparing Liquid Coolants From Both A Thermal And Hydraulic Perspective
In the May 2006 issue the Calculation Corner focused on the comparison of liquid coolants using the Mouromtseff number [1]. For single phase forced convection, Mouromtseff found this figure of merit, Mo, to follow the form where ρ, k, cp, and � represent the density, thermal conductivity, specific heat (at constant pressure) and dynamic viscosity of the fluid. The … [Read more...]
Direct Die Attach Using a Room Temperature Soldering Process
As the power and power density of IC components continue to rise [1], the need to effectively dissipate the heat to ensure long-term reliability has increased [2]. The largest contributor to the total thermal resistance along the heat conduction path comes from the thermal interface material (TIM) used between the surfaces of the silicon die and the heat spreader or heat sink. … [Read more...]
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