MAX6643LBBAEE+ Maxim Integrated Products, MAX6643LBBAEE+ Datasheet - Page 12

MAX6643LBBAEE+

Manufacturer Part Number

MAX6643LBBAEE+

Description

IC CNTRLR FAN SPEED 16-QSOP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX6643LBBAEE.pdf (17 pages)

Specifications of MAX6643LBBAEE+

Function

Fan Control, Temp Monitor

Topology

ADC, PWM Generator, Tach Counter

Sensor Type

External & Internal

Sensing Temperature

-40°C ~ 125°C, External Sensor

Output Type

PWM

Output Alarm

Yes

Output Fan

Yes

Voltage - Supply

3 V ~ 5.5 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

16-QSOP

Full Temp Accuracy

+/- 3.5 C, +/- 3 C

Digital Output - Bus Interface

Serial (2-Wire)

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Series resistance in a sense diode contributes addition-

al errors. For nominal diode currents of 10µA and

100µA, change in the measured voltage is:

Since 1°C corresponds to 198.6µV, series resistance

contributes a temperature offset of:

Assume that the diode being measured has a series

resistance of 3 . The series resistance contributes an

offset of:

The effects of the ideality factor and series resistance

are additive. If the diode has an ideality factor of 1.008

and series resistance of 3 , the total offset can be cal-

culated by adding error due to series resistance with

error due to ideality factor:

for a diode temperature of +60.7°C.

In this example, the effect of the series resistance and

the ideality factor partially cancel each other.

For best accuracy, the discrete transistor should be a

small-signal device with its collector connected to

base, and emitter connected to GND. Table 5 lists

examples of discrete transistors that are appropriate for

use with the MAX6643/MAX6644/MAX6645.

The transistor must have a relatively high forward volt-

age; otherwise, the ADC input voltage range can be vio-

lated. The forward voltage at the highest expected

temperature must be greater than 0.25V at 10µA, and at

the lowest expected temperature, the forward voltage

must be less than 0.95V at 100µA. Large power transis-

tors must not be used. Also, ensure that the base resis-

tance is less than 100 . Tight specifications for forward

current gain (50 < ß <150, for example) indicate that the

manufacturer has good process controls and that the

devices have consistent V

Automatic PWM Fan-Speed Controllers with

Overtemperature Output

______________________________________________________________________________________

1.36°C - 0.66°C = 0.7°C

198 6

100

Effect of Series Resistance

0 453

characteristics.

0 453

1 36

A R

The integrating ADC has inherently good noise rejec-

tion, especially of low-frequency signals such as

60Hz/120Hz power-supply hum. Micropower operation

places constraints on high-frequency noise rejection.

Lay out the PCB carefully with proper external noise fil-

tering for high-accuracy remote measurements in elec-

trically noisy environments.

Filter high-frequency electromagnetic interference

(EMI) at the DXP pins with an external 2200pF capaci-

tor connected between DXP, DXP1, or DXP2 and

ground. This capacitor can be increased to about

3300pF (max), including cable capacitance. A capaci-

tance higher than 3300pF introduces errors due to the

rise time of the switched-current source.

For remote-sensor distances longer than 8in, or in par-

ticularly noisy environments, a twisted pair is recom-

mended. Its practical length is 6ft to 12ft (typ) before

noise becomes a problem, as tested in a noisy electron-

ics laboratory. For longer distances, the best solution is

a shielded twisted pair like that used for audio micro-

phones. For example, Belden 8451 works well for dis-

tances up to 100ft in a noisy environment. Connect the

twisted pair to DXP and GND and the shield to ground,

and leave the shield’s remote end unterminated. Excess

capacitance at DXP limits practical remote-sensor dis-

tances (see the Typical Operating Characteristics).

For very long cable runs, the cable’s parasitic capaci-

tance often provides noise filtering, so the recommend-

ed 2200pF capacitor can often be removed or reduced

in value. Cable resistance also affects remote-sensor

accuracy. A 1

+1/2°C error.

1) Place the MAX6643/MAX6644/MAX6645 as close as

2) Do not route the DXP lines next to the deflection coils

practical to the remote diode. In a noisy environment,

such as a computer motherboard, this distance can

be 4in to 8in or more, as long as the worst noise

sources (such as CRTs, clock generators, memory

buses, and ISA/PCI buses) are avoided.

of a CRT. Also, do not route the traces across a fast

memory bus, which can easily introduce +30°C error,

even with good filtering. Otherwise, most noise

sources are fairly benign.

Twisted Pairs and Shielded Cables

series resistance introduces about

PCB Layout Checklist

ADC Noise Filtering

MAX6643LBBAEE+ Maxim Integrated Products, MAX6643LBBAEE+ Datasheet - Page 12

MAX6643LBBAEE+

Specifications of MAX6643LBBAEE+

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