13 thermal diode characteristics, Thermal diode electrical characteristics, Thermal diode characteristics – AMD ATHLON 8 User Manual

42

Electrical Data

Chapter 8

AMD Athlon™ XP Processor Model 8 Data Sheet

25175H—March 2003

Preliminary Information

8.13

Thermal Diode Characteristics

The AMD Athlon XP processor model 8 provides a diode that
can be used in conjunction with an external temperature sensor
to determine the die temperature of the processor. The diode
anode (THERMDA) and cathode (THERMDC) are available as
pins on the processor, as described in “THERMDA and
THERMDC Pins” on page 78.

For information about thermal design for the AMD Athlon XP
processor model 8, including layout and airflow considerations,
see the AMD Processor Thermal, Mechanical, and Chassis Cooling
Design Guide, order# 23794, and the cooling guidelines on
http://www.amd.com.

Thermal Diode
Electrical
Characteristics

Table 17 shows the AMD Athlon XP processor model 8
characteristics of the on-die thermal diode. For information
about calculations for the ideal diode equation and
temperature offset correction, see Appendix A, "Thermal
Diode Calculations," on page 77.

Table 17. Thermal Diode Electrical Characteristics

Symbol

Parameter

Description

Min

Nom

Max

Units

Notes

I

Sourcing current

5

300

µA

1

n

f, lumped

Lumped ideality
factor

1.00000

1.00374

1.00900

2, 3, 4

n

f, actual

Actual ideality factor

1.00261

3, 4

R

T

Series Resistance

0.93

Ω

3, 4

Notes:

1. The sourcing current should always be used in forward bias only.
2. Characterized at 95°C with a forward bias current pair of 10

µA and 100 µA. AMD

recommends using a minimum of two sourcing currents to accurately measure the
temperature of the thermal diode.

3. Not 100% tested. Specified by design and limited characterization.
4. The lumped ideality factor adds the effect of the series resistance term to the actual ideality

factor. The series resistance term indicates the resistance from the pins of the processor to the
on-die thermal diode. The value of the lumped ideality factor depends on the sourcing current
pair used.