Intel Pentium M RH80535GC0211M Datenbogen
Produktcode
RH80535GC0211M
Datasheet
63
Thermal Specifications and Design Considerations
5
Thermal Specifications and
Design Considerations
The processor requires a thermal solution to maintain temperatures within operating
limits.
For optimal operation and long-term reliability of Intel processor-based systems, the
system/processor thermal solution should be designed so that the processor remains
within the minimum and maximum junction temperature (Tj) specifications at the
corresponding thermal design power (TDP) value listed in
.
Warning:
Any attempt to operate that processor outside these operating limits may result in
permanent damage to the processor and potentially other components in the system.
NOTES:
1.
1.
The TDP specification should be used to design the processor thermal solution. The TDP is
not the maximum theoretical power the processor can generate.
not the maximum theoretical power the processor can generate.
2.
Not 100% tested. These power specifications are determined by characterization of the
processor currents at higher temperatures and extrapolating the values for the
temperature indicated.
processor currents at higher temperatures and extrapolating the values for the
temperature indicated.
3.
As measured by the activation of the on-die Intel Thermal Monitor. The Intel Thermal
Monitor’s automatic mode is used to indicate that the maximum T
Monitor’s automatic mode is used to indicate that the maximum T
J
has been reached.
Refer to
4.
The Intel Thermal Monitor automatic mode must be enabled for the processor to operate
within specifications.
within specifications.
Table 17.
Power Specifications
Symbol
Processor
Number
Core Frequency
& Voltage
Thermal Design
Power
Unit
Notes
TDP
T2060
1.60 GHz & HFM Vcc
31
W
At 100°C
Notes 1, 4, 5
TDP
T2080
1.73 GHz & HFM Vcc
31
W
At 100°C
Notes 1, 4, 5
TDP
T2130
1.86 GHz & HFM Vcc
31
W
At 100°C
Notes 1, 4, 5
Symbol
Parameter
Min Typ
Max
Unit
Notes
P
AH,
P
SGNT
Auto Halt, Stop Grant Power
at HFM V
at HFM V
CC
at LFM V
CC
15.8
4.8
W
At 50°C
Note 2
P
SLP
Sleep Power
at HFM V
at HFM V
CC
at LFM V
CC
15.5
4.7
W
At 50°C
Note 2
P
DSLP
Deep Sleep Power
at HFM V
at HFM V
CC
at LFM V
CC
10.5
3.4
W
At 35°C
Note 2
T
J
Junction Temperature
0
100
°C
Notes 3, 4