EVAL-ADT7467EB Analog Devices Inc, EVAL-ADT7467EB Datasheet - Page 24

EVAL-ADT7467EB

Manufacturer Part Number

EVAL-ADT7467EB

Description

BOARD EVALUATION FOR ADT7467

Manufacturer

Analog Devices Inc

Series

dBCool®r

Datasheet

1.EVAL-ADT7467EB.pdf (80 pages)

Specifications of EVAL-ADT7467EB

Sensor Type

Temperature

Sensing Range

-40°C ~ 120°C

Interface

SMBus (2-Wire/I²C)

Sensitivity

±1.5°C

Voltage - Supply

3 V ~ 5.5 V

Embedded

Utilized Ic / Part

ADT7467

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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ADT7467

The user can also set up the ADT7467 so that when the

THERM pin is driven low externally, the fans run at 100%. The

fans run at 100% for the duration of the time that the THERM

pin is pulled low. This is done by setting the BOOST bit (Bit 2)

in Configuration Register 3 (Address 0x78) to 1. This only

works if the fan is already running, for example, in manual

mode when the current duty cycle is above 0x00, or in

automatic mode when the temperature is above T

temperature is below T

is set to 0x00, externally pulling THERM low has no effect. See

Figure 30 for more information.

THERM Timer

The ADT7467 has an internal timer to measure THERM

assertion time. For example, the THERM input can be

connected to the PROCHOT output of a Pentium 4 CPU to

measure system performance. The THERM input can also be

connected to the output of a trip point temperature sensor.

The timer is started on the assertion of the THERM input and

stopped when THERM is deasserted. The timer counts THERM

times cumulatively, that is, the timer resumes counting on the

next THERM assertion. The THERM timer continues to

accumulate THERM assertion times until the timer is read (it is

cleared upon a read) or until it reaches full scale. If the counter

reaches full scale, it stops at that reading until cleared.

THERM

THERM ASSERTED TO LOW AS AN INPUT:

FANS DO NOT GO TO 100%, BECAUSE

TEMPERATURE IS BELOW T

MIN

Figure 30. Asserting THERM Low as an Input

in Automatic Fan Speed Control Mode

MIN

or if the duty cycle in manual mode

THERM ASSERTED TO LOW AS AN INPUT:

FANS DO NOT GO TO 100%, BECAUSE

TEMPERATURE IS ABOVE T

ARE ALREADY RUNNING

MIN

AND FANS

. If the

Rev. A | Page 24 of 80

The 8-bit THERM timer register (Reg. 0x79) is designed such

that Bit 0 is set to 1 upon the first THERM assertion. Once the

cumulative THERM assertion time exceeds 45.52 ms, Bit 1 of

the THERM timer is set and Bit 0 becomes the LSB of the timer

with a resolution of 22.76 ms (see Figure 31).

It is important to be aware of the following when using the

THERM timer.

After a THERM timer read (Reg. 0x79), the following occurs:

If the THERM timer is read during a THERM assertion, the

following occurs:

The contents of the timer are cleared upon a read.

The F4P bit (Bit 5) of Status Register 2 must be cleared,

assuming that the THERM timer limit has been exceeded.

The contents of the timer are cleared.

Bit 0 of the THERM timer is set to 1 because a THERM

assertion is occurring.

The THERM timer increments from 0.

If the THERM timer limit (Reg. 0x7A) is 0x00, the F4P bit

is set.

(REG. 0x79)

THERM

TIMER

ACCUMULATE THERM LOW

Figure 31.Understanding the THERM Timer

ASSERTION TIMES

0 0 0

7 6 5

0 0 0

7 6 5

0 0 0

7 6 5

0 0 0 1

3 2 1 0

0 0 1 0

3 2 1 0

0 1 0 1

3 2 1 0

THERM ASSERTED ≥ 113.8ms

(91.04ms + 22.76ms)

THERM ASSERTED

≤ 22.76ms

≥ 45.52ms

EVAL-ADT7467EB Analog Devices Inc, EVAL-ADT7467EB Datasheet - Page 24

EVAL-ADT7467EB

Specifications of EVAL-ADT7467EB

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