Intel Core 2 Duo Desktop Processor E6550 SLA9X Manuel D’Utilisation
Codes de produits
SLA9X
Boxed Processor Specifications
106
Datasheet
NOTES:
1.
1.
Set point variance is approximately ± 1 °C from fan heatsink to fan heatsink.
If the boxed processor fan heatsink 4-pin connector is connected to a 4-pin
motherboard header and the motherboard is designed with a fan speed controller with
PWM output (CONTROL see
capability the boxed processor will operate as follows:
As processor power has increased the required thermal solutions have generated
increasingly more noise. Intel has added an option to the boxed processor that allows
system integrators to have a quieter system in the most common usage.
The 4th wire PWM solution provides better control over chassis acoustics. This is
The 4th wire PWM solution provides better control over chassis acoustics. This is
achieved by more accurate measurement of processor die temperature through the
processor's temperature diode (T-diode). Fan RPM is modulated through the use of an
ASIC located on the motherboard that sends out a PWM control signal to the 4th pin
of the connector labeled as CONTROL. The fan speed is based on actual processor
temperature instead of internal ambient chassis temperatures.
If the new 4-pin active fan heat sink solution is connected to an older 3-pin
If the new 4-pin active fan heat sink solution is connected to an older 3-pin
baseboard processor fan header it will default back to a thermistor controlled mode,
allowing compatibility with existing 3-pin baseboard designs. Under thermistor
controlled mode, the fan RPM is automatically varied based on the Tinlet temperature
measured by a thermistor located at the fan inlet.
For more details on specific motherboard requirements for 4-wire based fan speed
control, refer to the appropriate Thermal and Mechanical Design Guidelines (see
§ §
Table 38.
Fan Heatsink Power and Signal Specifications
Boxed Processor Fan
Heatsink Set Point (°C)
Boxed Processor Fan Speed
Notes
X ≤ 30
When the internal chassis temperature is below or equal to
this set point, the fan operates at its lowest speed.
Recommended maximum internal chassis temperature for
nominal operating environment.
this set point, the fan operates at its lowest speed.
Recommended maximum internal chassis temperature for
nominal operating environment.
1
Y = 35
When the internal chassis temperature is at this point, the
fan operates between its lowest and highest speeds.
Recommended maximum internal chassis temperature for
worst-case operating environment.
fan operates between its lowest and highest speeds.
Recommended maximum internal chassis temperature for
worst-case operating environment.
-
Z ≥ 38
When the internal chassis temperature is above or equal to
this set point, the fan operates at its highest speed.
this set point, the fan operates at its highest speed.
-