MAX6660EVKIT【PDF 8/21 页】EVAL KIT FOR MAX6660

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Remote-Junction Temperature-Controlled

Fan-Speed Regulator with SMBus Interface

improvement in leakage and noise over narrow

traces. Use wider traces when practical.

7)

Add a 50 ? resistor in series with V CC for best

noise filtering (see Typical Operating Circuit ).

GND

10mils

PC Board Layout Checklist

? Place the MAX6660 close to the remote-sense junc-

tion.

10mils

10mils

DXP

DXN

MINIMUM

?

?

?

?

Keep traces away from high voltages (+12V bus).

Keep traces away from fast data buses and CRTs.

Use recommended trace widths and spacings.

Place a ground plane under the traces.

GND

10mils

? Use guard traces flanking DXP and DXN and connect-

ing to GND.

? Place the noise filter and the 0.1μF V CC bypass

capacitors close to the MAX6660.

Twisted-Pair and Shielded Cables

Use a twisted-pair cable to connect the remote sensor

for remote-sensor distances longer than 8in or in very

noisy environments. Twisted-pair cable lengths can be

between 6ft and 12ft before noise introduces excessive

errors. 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. At the

device, connect the twisted pair to DXP and DXN and

the shield to GND. Leave the shield unconnected at the

remote sensor.

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

tance often provides noise filtering, so the 2200pF

capacitor can often be removed or reduced in value.

Cable resistance also affects remote-sensor accuracy.

For every 1 ? of series resistance, the error is approxi-

mately +1/2°C.

Low-Power Standby Mode

Standby mode reduces the supply current to less than

10μA by disabling the ADC, the control loop, and the

fan driver. Enter hardware standby mode by forcing

STBY low, or enter software standby by setting the

Figure 2. Recommended DXP-DXN PC Trace

is received while a conversion is in progress, the con-

version cycle is interrupted, and the temperature regis-

ters are not updated. The previous data is not changed

and remains available.

SMBus Digital Interface

From a software perspective, the MAX6660 appears as

a set of byte-wide registers that contain temperature

data, alarm threshold values, and control bits. The

device responds to the same SMBus slave address for

access to all functions.

The MAX6660 employs four standard SMBus protocols:

Write Byte, Read Byte, Send Byte, and Receive Byte

(Figures 3, 4, 5) to program the alarm thresholds, read

the temperature data, and read and write to all fan con-

trol loop registers. The shorter Receive Byte protocol

allows quicker transfers, provided that the correct data

register was previously selected by a Read Byte

instruction. Use caution with the shorter protocols in

multimaster systems, since a second master could

overwrite the command byte without informing the first

master.

Table 2. Temperature Data Format (Two’s

Complement)

RUN/STOP bit to 1 in the Configuration Byte register.

Hardware and software standbys are very similar; all

data is retained in memory, and the SMB interface is

alive and listening for SMBus commands. The only dif-

ference is that in software standby mode, the one-shot

command initiates a conversion. With hardware stand-

by, the one-shot command is ignored. Activity on the

SMBus causes the device to draw extra supply current.

Driving STBY low overrides any software conversion

command. If a hardware or software standby command

TEMP (°C)

+127

+125.00

+25

+0.125

0

-0.125

-25

-40

DIGITAL OUTPUT

0111 1111 111

0111 1101 000

0001 1001 000

0000 0000 001

0000 0000 000

1111 1111 111

1110 0111 111

1101 1000111

8

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