Thermal Specifications And Design Considerations; Processor Thermal Specifications; Thermal Specifications - Intel E6300 - Core 2 Duo Dual-Core Processor Datasheet

Thermal Specifications and Design Considerations

5 Thermal Specifications and
Design Considerations
5.1

Processor Thermal Specifications

The processor requires a thermal solution to maintain temperatures within the
operating limits as set forth in
outside these operating limits may result in permanent damage to the processor and
potentially other components within the system. As processor technology changes,
thermal management becomes increasingly crucial when building computer systems.
Maintaining the proper thermal environment is key to reliable, long-term system
operation.
A complete thermal solution includes both component and system level thermal
management features. Component level thermal solutions can include active or passive
heatsinks attached to the processor Integrated Heat Spreader (IHS). Typical system
level thermal solutions may consist of system fans combined with ducting and venting.
For more information on designing a component level thermal solution, see the
appropriate Thermal and Mechanical Design Guidelines (see
Note: The boxed processor will ship with a component thermal solution. See
details on the boxed processor.
5.1.1

Thermal Specifications

To allow for the optimal operation and long-term reliability of Intel processor-based
systems, the system/processor thermal solution should be designed such that the
processor remains within the minimum and maximum case temperature (T
specifications when operating at or below the Thermal Design Power (TDP) value listed
per frequency in
thermal capability may affect the long-term reliability of the processor and system. For
more details on thermal solution design, see the appropriate Thermal and Mechanical
Design Guidelines (see
The processor uses a methodology for managing processor temperatures which is
intended to support acoustic noise reduction through fan speed control. Selection of the
appropriate fan speed is based on the relative temperature data reported by the
processor's Platform Environment Control Interface (PECI) bus as described in
Section 5.3. If the value reported using PECI is less than T
temperature is permitted to exceed the Thermal Profile. If the value reported using
PECI is greater than or equal to T
remain at or below the temperature as specified by the thermal profile. The
temperature reported over PECI is always a negative value and represents a delta
below the onset of thermal control circuit (TCC) activation, as indicated by PROCHOT#
(see Section
these conditions in to account. Systems that do not alter the fan speed only need to
ensure the case temperature meets the thermal profile specifications.
To determine a processor's case temperature specification based on the thermal profile,
it is necessary to accurately measure processor power dissipation. Intel has developed
a methodology for accurate power measurement that correlates to Intel test
temperature and voltage conditions. See the appropriate Thermal and Mechanical
Design Guidelines (see
Datasheet
Section
Table 26. Thermal solutions not designed to provide this level of
Section 1.2).
CONTROL
5.2). Systems that implement fan speed control must be designed to take
Section 1.2) for the details of this methodology.
5.1.1. Any attempt to operate the processor
Section
CONTROL
, then the processor case temperature must
1.2).
Chapter 7 for
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C
, then the case
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