ADT7463ARQZ ON Semiconductor, ADT7463ARQZ Datasheet - Page 16

ADT7463ARQZ

Manufacturer Part Number

ADT7463ARQZ

Description

IC REMOTE THERMAL CTRLR 24-QSOP

Manufacturer

ON Semiconductor

Series

dBCool®r

Datasheet

1.ADT7463ARQZ-REEL.pdf (52 pages)

Specifications of ADT7463ARQZ

Function

Fan Control, Temp Monitor

Topology

ADC, Comparator, Fan Speed Counter, Multiplexer, Register Bank

Sensor Type

External & Internal

Sensing Temperature

-40°C ~ 120°C, External Sensor

Output Type

SMBus™

Output Alarm

Output Fan

Yes

Voltage - Supply

3 V ~ 5.5 V

Operating Temperature

-40°C ~ 120°C

Mounting Type

Surface Mount

Package / Case

24-QSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Current page: 16 of 52
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ADT7463

TEMPERATURE MEASUREMENT SYSTEM

Local Temperature Measurement

The ADT7463 contains an on-chip band gap temperature sensor

whose output is digitized by the on-chip 10-bit ADC. The 8-bit

MSB temperature data is stored in the local temperature register

(Address 26h). As both positive and negative temperatures can be

measured, the temperature data is stored in twos complement

format, as shown in Table III. Theoretically, the temperature sensor

and ADC can measure temperatures from –128�C to +127�C

with a resolution of 0.25�C. However, this exceeds the operating

temperature range of the device, so local temperature measure-

ments outside this range are not possible.

Remote Temperature Measurement

The ADT7463 can measure the temperature of two remote diode

sensors or diode-connected transistors connected to Pins 15 and

16, or 17 and 18.

The forward voltage of a diode or diode-connected transistor

operated at a constant current exhibits a negative temperature

coefficient of about –2 mV/�C. Unfortunately, the absolute

TRANSISTOR

SENSING

REMOTE

CPU

Figure 14. Signal Conditioning for Remote Diode Temperature Sensors

THERMDA

THERMDC

D+

D–

Rev. 4 | Page 16 of 52 | www.onsemi.com

N � I

DIODE

BIAS

–16–

LOW-PASS

FILTER

= 65kHz

value of V

tion is required to null this out, so the technique is unsuitable

for mass production. The technique used in the ADT7463 is to

measure the change in V

different currents.

This is given by

where:

K is Boltzmann’s constant.

q is the charge on the carrier.

T is the absolute temperature in Kelvins.

N is the ratio of the two currents.

Figure 14 shows the input signal conditioning used to measure

the output of a remote temperature sensor. This figure shows the

external sensor as a substrate transistor, provided for temperature

monitoring on some microprocessors. It could equally well be a

discrete transistor, such as a 2N3904.

varies from device to device and individual calibra-

∆V

when the device is operated at two

KT q

× ln( )

OUT+

OUT–

TO ADC

REV. C

ADT7463ARQZ ON Semiconductor, ADT7463ARQZ Datasheet - Page 16

ADT7463ARQZ

Specifications of ADT7463ARQZ

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