ASC7621 Datasheet, PDF(45/50 Page) List of Unclassifed Manufacturers – HARDWARE MONITOR WITH INTEGRATED FAN CONTROL

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ASC7621 Datasheet, PDF (45/50 Pages) List of Unclassifed Manufacturers – HARDWARE MONITOR WITH INTEGRATED FAN CONTROL

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aSC7621

Applications Information

Remote Diodes

The aSC7621 is designed to work with a variety of

remote sensors in the form of the substrate thermal diode

of a CPU or graphics controller or a diode-connected

transistor. Actual diodes are not suited for these

measurements.

There is some variation in the performance of these

diodes, described in terms of its departure from the ideal

diode equation. This factor is called diode non-

ideality, nf .

The equation relating diode temperature to a change in

thermal diode voltage with two driving currents is:

ÎVBE

(nf ) KT ln( N )

where:

nf = diode non-ideality factor, (nominal 1.009).

K = Boltzmanâs constant, (1.38 x 10-23).

T = diode junction temperature in Kelvins.

q = electron charge (1.6 x 10-19 Coulombs).

N = ratio of the two driving currents (16).

The aSC7621 is designed and trimmed for an expected

nf value of 1.009, based on the typical value for the Intel

Pentiumâ¢ III and AMD Athlonâ¢. There is also a

tolerance on the value provided. The values for other

CPUs and the 2N3904 may have different nominal values

and tolerances. Consult the CPU or GPU manufacturerâs

data sheet for the nf factor. Table 31 gives a

representative sample of what one may expect in the

range of non-ideality. The trend with CPUs is for a lower

value with a larger spread.

When thermal diode has a non-ideality factor other than

1.009 the difference in temperature reading at a particular

temperature may be interpreted with the following

equation:

where:

Tactual

= Treported

ââââ1n.a0ct0ua9l

â ââ

Treported = reported temperature in temperature register.

Tactual = actual remote diode temperature.

nactual = selected diodeâs non-ideality factor, nf .

Temperatures are in Kelvins or Â°C + 273.15.

This equation assumes that the series resistance of the

remote diode is the same for each. This resistance is

given in the data sheet for the CPU and may vary from

2.5â¦ to 4.5â¦.

Although the temperature error caused by non-ideality

difference is directly proportional to the difference from

1.008, but a small difference in non-ideality results in a

relatively large difference in temperature reading. For

example, if there were a Â±1% tolerance in the non-Ideality

of a diode it would result in a Â±2.7 degree difference (at

0Â°C) in the result (0.01 x 273.15).

This difference varies with temperature such that a fixed

offset value may only be used over a very narrow range.

Typical correction method required when measuring a

wide range of temperature values is to scale the

temperature reading in the host firmware.

Part

nf Min nf Nom nf Max Series

Res

Pentiumâ¢ III

(CPUID 68h)

1.0057 1.008 1.0125

Pentium 4,

130nM

1.001 1.002 1.003 3.64

Pentium 4, 90nM

1.011

3.33

Pentium 4, 65nM

1.009

4.52

Intel Pentium M 1.0015 1.0022 1.0029 3.06

AMD Athlonâ¢

Model 6

1.002 1.008 1.016

AMD Duronâ¢

Models 7 and 8

1.002

1.008

1.016

AMD Athlon

Models 8 and 10

1.0000

1.0037

1.0090

2N3904

1.003 1.0046 1.005

Table 31 Representative CPU Thermal Diode

and Transistor Non-Ideality Factors

CPU or ASIC Substrate Remote Diodes

A substrate diode is a parasitic PNP transistor that has its

collector tied to ground through the substrate and the

base (Remote -) and emitter (Remote +) brought out to

pins. Connection to these pins is shown in Figure 13. The

non-ideality figures in Table 31 include the effects of any

package resistance and represent the value seen from

the CPU socket. The temperature indicated will need to

be compensated for the departure from a non-ideality of

1.008.

CPU

Substrate

Remote +

aSC7621

Remote -

Figure 13 CPU Remote Diode Connection

- 45 -

www.andigilog.com

October 2006 - 70A06010

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