ADT7473ARQZ-1RL ON Semiconductor, ADT7473ARQZ-1RL Datasheet - Page 43

ADT7473ARQZ-1RL

Manufacturer Part Number

ADT7473ARQZ-1RL

Description

IC REMOTE THERMAL CTLR 16QSOP

Manufacturer

ON Semiconductor

Series

dBCool®r

Datasheet

1.ADT7473ARQZ-1RL.pdf (74 pages)

Specifications of ADT7473ARQZ-1RL

Function

Fan Control, Temp Monitor

Topology

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

Sensor Type

External & Internal

Sensing Temperature

-40°C ~ 125°C, External Sensor

Output Type

SMBus™

Output Alarm

Output Fan

Yes

Voltage - Supply

3 V ~ 3.6 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

16-QSOP

Full Temp Accuracy

+/- 0.5 C

Digital Output - Bus Interface

Serial (3-Wire, 4-Wire)

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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control allows the ADT7473/ADT7473−1 to intelligently

adapt the system’s cooling solution for best system

performance or lowest possible system acoustics, depending

on user or design requirements. Use of dynamic T

control alleviates the need to design for worst−case

conditions and significantly reduces system design and

validation time.

Designing for Worst−Case Conditions

conditions. In PC design, the worst−case conditions include,

but are not limited to, the following:

Worst−Case Altitude

altitude affects the relative air density, which alters the

effectiveness of the fan cooling solution. For example,

comparing 40°C air temperature at 10,000 feet to 20°C air

temperature at sea level, relative air density is increased by

40%. This means that the fan can spin 40% slower and make

less noise at sea level than at 10,000 feet while keeping the

system at the same temperature at both locations.

Worst−Case Fan

normally quoted with a tolerance of ±20%. The designer

needs to assume that the fan RPM can be 20% below

tolerance. This translates to reduced system airflow and

elevated system temperature. Note that fans 20% out of

tolerance can negatively impact system acoustics because

they run faster and generate more noise.

Worst−Case Chassis Airflow

different chassis configurations. The design of the chassis

and the physical location of fans and components determine

the system thermal characteristics. Moreover, for a given

chassis, the addition of add−in cards, cables, or other system

configuration options can alter the system airflow and

reduce the effectiveness of the system cooling solution. The

cooling solution can also be inadvertently altered by the end

user. (For example, placing a computer against a wall can

block the air ducts and reduce system airflow.)

GOOD CPU AIRFLOW

System design must always allow for worst−case

A computer can be operated at different altitudes. The

Due to manufacturing tolerances, fan speeds in RPM are

The same motherboard can be used in a number of

GOOD VENTING = GOOD AIR

VENTS

I/O CARDS

VENTS

FAN

EXCHANGE

Figure 64. Chassis Airflow Issues

SUPPLY

POWER

DRIVE

BAYS

CPU

FAN

VENTS

POOR VENTING = POOR AIR

POOR CPU

AIRFLOW

I/O CARDS

EXCHANGE

POWER

SUPPLY

DRIVE

BAYS

FAN

http://onsemi.com

CPU

MIN

Worst−Case Processor Power Consumption

true processor power consumption. Designing for

worst−case CPU power consumption can result in a

processor becoming overcooled (generating excess system

noise).

Worst−Case Peripheral Power Consumption

peripheral components, again overcooling the system.

Worst−Case Assembly

variations. Heat sinks may be loose fitting or slightly

misaligned. Too much or too little thermal grease might be

used, or variations in application pressure for thermal

interface material could affect the efficiency of the thermal

solution. Accounting for manufacturing variations in every

system is difficult; therefore, the system must be designed

for the worst−case conditions.

conditions in all these cases, the actual system is almost

never operated at worst−case conditions. The alternative to

designing for the worst case is to use the dynamic T

control function.

Dynamic T

automatic fan control loop by adjusting the T

based on system performance and measured temperature.

This is important because, instead of designing for the worst

case, the system thermals can be defined as operating zones.

The ADT7473/ADT7473−1 can self−adjust its fan control

loop to maintain either an operating zone temperature or a

system target temperature. For example, it can be specified

that the ambient temperature in a system should be

maintained at 50°C. If the temperature is below 50°C, the

fans might not need to run, or might run very slowly. If the

temperature is higher than 50°C, the fans need to throttle up.

the right settings to suit the system’s fan control solution.

This can involve designing for the worst case, followed by

weeks of system thermal characterization, and finally fan

acoustic optimization (for psycho−acoustic reasons).

INTERFACE

INTEGRATED

This data sheet maximum does not necessarily reflect the

The tendency is to design to data sheet maximums for

Every system is unique because of manufacturing

Although a design usually accounts for worst−case

Dynamic T

The challenge presented by any thermal design is finding

MATERIAL

THERMAL

SPREADER

HEAT

SUBSTRATE

HEAT

SINK

MIN

EPOXY

MIN

Control Overview

Figure 65. Thermal Model

THERMAL INTERFACE MATERIAL

control mode builds on the basic

PROCESSOR

JTIM

TIMS

CTIM

TIMC

TIM

MIN

value

MIN

ADT7473ARQZ-1RL ON Semiconductor, ADT7473ARQZ-1RL Datasheet - Page 43

ADT7473ARQZ-1RL

Specifications of ADT7473ARQZ-1RL

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