MAX6689UP9A+ Datasheet MAX6689UP34+, MAX6689UP9A+, MAX6689UP34+T | P16-P18

MAX6689

ADC Noise Filtering

The integrating ADC has good noise rejection for low-

frequency signals, such as power-supply hum. In envi-

ronments with significant high-frequency EMI, connect

an external 2200pF capacitor between DXP_ and

DXN_. Larger capacitor values can be used for added

filtering, but do not exceed 3300pF because it can

introduce errors due to the rise time of the switched

current source. High-frequency noise reduction is

needed for high-accuracy remote measurements.

Noise can be reduced with careful PCB layout as dis-

cussed in the PCB Layout section.

Slave Address

Table 11 shows the MAX6689 slave addresses.

PCB Layout

Follow these guidelines to reduce the measurement

error when measuring remote temperature:

1) Place the MAX6689 as close as is practical to the

remote diode. In noisy environments, such as a

computer motherboard, this distance can be 4in to

8in (typ). This length can be increased if the worst

noise sources are avoided. Noise sources include

CRTs, clock generators, memory buses, and PCI

buses.

2) Do not route the DXP-DXN lines next to the deflec-

tion coils of a CRT. Also, do not route the traces

across fast digital signals, which can easily intro-

duce +30°C error, even with good filtering.

3) Route the DXP and DXN traces in parallel and in

close proximity to each other. Each parallel pair of

traces should go to a remote diode. Route these

traces away from any higher voltage traces, such as

+12VDC. Leakage currents from PCB contamination

must be dealt with carefully since a 20MΩ leakage

path from DXP to ground causes about +1°C error.

If high-voltage traces are unavoidable, connect

guard traces to GND on either side of the DXP-DXN

traces (Figure 5).

4) Route through as few vias and crossunders as pos-

sible to minimize copper/solder thermocouple

effects.

5) Use wide traces when practical. 5mil to 10mil traces

are typical. Be aware of the effect of trace resis-

tance on temperature readings when using long,

narrow traces.

6) When the power supply is noisy, add a resistor (up

to 47Ω) in series with V

7-Channel Precision Temperature Monitor

16 ______________________________________________________________________________________

5–10 mils

MINIMUM

5–10 mils

GND

DXP

DXN

GND

Figure 5. Recommended DXP-DXN PCB Traces. The two outer

guard traces are recommended if high-voltage traces will be

near the DXN and DXP traces.

MANUFACTURER MODEL NO.

Central Semiconductor (USA) CMPT3904

Rohm Semiconductor (USA) SST3904

Samsung (Korea) KST3904-TF

Siemens (Germany) SMBT3904

Zetex (England) FMMT3904CT-ND

Table 10. Remote-Sensors Transistor

Manufacturer

Note: Discrete transistors must be diode connected (base

shorted to collector).

PART SMBus SLAVE ID PIN-PACKAGE

MAX6689EP34 0011 010 20 QSOP

MAX6689EP38 0011 100 20 QSOP

MAX6689EP9A 1001 101 20 QSOP

MAX6689EP9E 1001 111 20 QSOP

MAX6689UP34 0011 010 20 TSSOP

MAX6689UP38 0011 100 20 TSSOP

MAX6689UP9A 1001 101 20 TSSOP

MAX6689UP9E 1001 111 20 TSSOP

Table 11. Slave Address

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 capacitance 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 1Ω of series resistance the

error is approximately +1/2°C.

MAX6689

7-Channel Precision Temperature Monitor

______________________________________________________________________________________ 17

GND

SMBCLK

SMBDATA

DXN2

DXP2

DXN1

DXP1

TOP VIEW

N.C.

STBYDXN4

DXP4

DXN3

DXP3

DXP6

DXN6DXN5

DXP5

MAX6689

QSOP/TSSOP

ALERT

OVERT

Pin Configuration

Chip Information

PROCESS: BiCMOS

MAX6689

7-Channel Precision Temperature Monitor

18 ______________________________________________________________________________________

Package Information

(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,

go to www.maxim-ic.com/packages

QSOP.EPS

21-0055

PACKAGE OUTLINE, QSOP .150", .025" LEAD PITCH

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P19

MAX6689UP9A+

Mfr. #:

Buy MAX6689UP9A+

Manufacturer:

Maxim Integrated

Description:

Board Mount Temperature Sensors 7Ch Precision Temperature Monitor

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

Payment:

T/T Paypal Visa MoneyGram Western Union

MAX6689UP9A+

MAX6689UP9A+

Products related to this Datasheet