2 heatsink mass, 3 thermal interface material, Heatsink mass – Intel CELERON 200 User Manual

Processor Thermal/Mechanical Information

Thermal and Mechanical Design Guidelines

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2.3.2

Heatsink Mass

With the need to push air cooling to better performance, heatsink solutions tend to

grow larger (increase in fin surface) resulting in increased mass. The insertion of

highly thermally conductive materials like copper to increase heatsink thermal

conduction performance results in even heavier solutions. As mentioned in

Section 2.1.2, the heatsink mass must take into consideration the package load limits,

the heatsink attach mechanical capabilities, and the mechanical shock and vibration

profile targets. Beyond a certain heatsink mass, the cost of developing and

implementing a heatsink attach mechanism that can ensure the system integrity

under the mechanical shock and vibration profile targets may become prohibitive.

The recommended maximum heatsink mass for the Intel Celeron processor 200

sequence reference thermal solution is 62 g. This mass includes the fan and the

heatsink only. The attach mechanism (clip, fasteners, etc.) are not included.

Note: The 62 g mass limit for current solution is based on the capabilities of reference

design components that retain the heatsink to the board and apply the necessary
preload. Any reuse of the clip and fastener in alternate or derivative designs should
not exceed 62 g. Designs that have a mass of greater than 62 g should analyze the
preload and retention limits of the fastener.

Note: The chipset components on the board are affected by processor heatsink mass.

Exceeding these limits may require the evaluation of the chipset for shock and
vibration.

2.3.3

Thermal Interface Material

Thermal interface material application between the processor die and the heatsink

base is generally required to improve thermal conduction from the die to the heatsink.

Many thermal interface materials can be pre-applied to the heatsink base prior to

shipment from the heatsink supplier and allow direct heatsink attach, without the

need for a separate thermal interface material dispense or attach process in the final

assembly factory.

All thermal interface materials should be sized and positioned on the heatsink base in

a way that ensures the entire processor die area is covered. It is important to

compensate for heatsink-to-processor attach positional alignment when selecting the

proper thermal interface material size.

When pre-applied material is used, it is recommended to have a protective film

applied. This film must be removed prior to heatsink installation.

The recommended TIM for the Intel Celeron processor 200 sequence reference

thermal solution is Honeywell PCM45F (pad version). It is not recommended to use

TIMs such as thermal greases onto small bare die package as specified in

Section 2.1.2.1.