Intel Atom Processor N270 AU80586GE025D データシート

Datasheet  

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The Intel Thermal Monitor helps control the processor temperature by activating the 

TCC (Thermal Control Circuit) when the processor silicon reaches its maximum 

operating temperature. The temperature at which the Intel Thermal Monitor activates 

the TCC is not user configurable. Bus traffic is snooped in the normal manner and 

interrupt requests are latched (and serviced during the time that the clocks are on) 

while the TCC is active. 

With a properly designed and characterized thermal solution, it is anticipated that the 

TCC would only be activated for very short periods of time when running the most 

power intensive applications. The processor performance impact due to these brief 

periods of TCC activation is expected to be minor and hence not detectable. An under- 

designed thermal solution that is not able to prevent excessive activation of the TCC 

in the anticipated ambient environment may cause a noticeable performance loss and 

may affect the long-term reliability of the processor. In addition, a thermal solution 

that is significantly under designed may not be capable of cooling the processor even 

when the TCC is active continuously. 

The Intel Thermal Monitor controls the processor temperature by modulating (starting 

and stopping) the processor core clocks or by initiating an Enhanced Intel SpeedStep 

Technology transition when the processor silicon reaches its maximum operating 

temperature. The Intel Thermal Monitor uses two modes to activate the TCC: 

automatic mode and on-demand mode. If both modes are activated, automatic mode 

takes precedence.  

There are two automatic modes called Intel Thermal Monitor-1 and Intel Thermal 

Monitor-2. These modes are selected by writing values to the MSRs of the processor. 

After automatic mode is enabled, the TCC will activate only when the internal die 

temperature reaches the maximum allowed value for operation.  

The Intel Thermal Monitor automatic mode must be enabled through BIOS for the 

processor to be operating within specifications. Intel recommends Intel Thermal 

Monitor-1 and Intel Thermal Monitor-2 be enabled on the processor. 

When Intel Thermal Monitor-1 is enabled and a high temperature situation exists, the 

clocks will be modulated by alternately turning the clocks off and on at a 50% duty 

cycle. Cycle times are processor speed dependent and will decrease linearly as 

processor core frequencies increase. Once the temperature has returned to a non-

critical level, modulation ceases and TCC goes inactive. A small amount of hysteresis 

has been included to prevent rapid active/inactive transitions of the TCC when the 

processor temperature is near the trip point. The duty cycle is factory configured and 

cannot be modified. Also, automatic mode does not require any additional hardware, 

software drivers, or interrupt handling routines. Processor performance will be 

decreased by the same amount as the duty cycle when the TCC is active.  

When Intel Thermal Monitor-2 is enabled and a high temperature situation exists, the 

processor will perform an Enhanced Intel SpeedStep Technology transition to the LFM. 

When the processor temperature drops below the critical level, the processor will 

make an Enhanced Intel SpeedStep Technology transition to the last requested 

operating point. The processor also supports Enhanced Multi Threaded Thermal 

Monitoring (EMTTM). EMTTM is a processor feature that enhances Intel Thermal 

Monitor-2 with a processor throttling algorithm known as Adaptive Intel Thermal 

Monitor-2. Adaptive Intel Thermal Monitor-2 transitions to intermediate operating 

points, rather than directly to the LFM, once the processor has reached its thermal