MAX1668 Datasheet, PDF(8/17 Page) Maxim Integrated Products – Multichannel Remote/Local Temperature Sensors

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MAX1668 Datasheet, PDF (8/17 Pages) Maxim Integrated Products – Multichannel Remote/Local Temperature Sensors

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Multichannel Remote/Local

Temperature Sensors

A/D Conversion Sequence

If a start command is written (or generated automatically

in the free-running autoconvert mode), all channels are

converted, and the results of all measurements are

available after the end of conversion. A BUSY status bit

in the status byte shows that the device is actually per-

forming a new conversion; however, even if the ADC is

busy, the results of the previous conversion are always

available.

Remote-Diode Selection

Temperature accuracy depends on having a good-qual-

ity, diode-connected small-signal transistor. Accuracy

has been experimentally verified for all of the devices

listed in Table 1. The MAX1668/MAX1805/MAX1989 can

also directly measure the die temperature of CPUs and

other ICs having on-board temperature-sensing diodes.

The transistor must be a small-signal type, either NPN

or PNP, with a relatively high forward voltage; other-

wise, the A/D input voltage range can be violated. The

forward voltage must be greater than 0.25V at 10ÂµA;

check to ensure this is true at the highest expected

temperature. The forward voltage must be less than

0.95V at 100ÂµA; check to ensure this is true at the low-

est expected temperature. Large power transistors do

not work at all. Also, ensure that the base resistance is

less than 100â¦. Tight specifications for forward-current

gain (+50 to +150, for example) indicate that the manu-

facturer has good process controls and that the

devices have consistent VBE characteristics.

For heat-sink mounting, the 500-32BT02-000 thermal

sensor from Fenwal Electronics is a good choice. This

device consists of a diode-connected transistor, an

aluminum plate with screw hole, and twisted-pair cable

(Fenwal Inc., Milford, MA, 508-478-6000).

Thermal Mass and Self-Heating

Thermal mass can seriously degrade the MAX1668/

MAX1805/MAX1989sâ effective accuracy. The thermal

time constant of the 16-pin QSOP package is about

140s in still air. For the MAX1668/MAX1805/MAX1989

junction temperature to settle to within +1Â°C after a

sudden +100Â°C change requires about five time con-

stants or 12 minutes. The use of smaller packages for

remote sensors, such as SOT23s, improves the situa-

tion. Take care to account for thermal gradients

between the heat source and the sensor, and ensure

that stray air currents across the sensor package do

not interfere with measurement accuracy.

Self-heating does not significantly affect measurement

accuracy. Remote-sensor self-heating due to the diode

current source is negligible. For the local diode, the

Table 1. Remote-Sensor Transistor

Manufacturers

MANUFACTURER

MODEL NO.

Central Semiconductor (USA)

Motorola (USA)

National Semiconductor (USA)

Rohm Semiconductor (Japan)

Samsung (Korea)

Siemens (Germany)

Zetex (England)

CMPT3904

MMBT3904

SST3904

KST3904-TF

SMBT3904

FMMT3904CT-ND

Note: Transistors must be diode connected (base shorted to

collector).

worst-case error occurs when sinking maximum current

at the ALERT output. For example, with ALERT sinking

1mA, the typical power dissipation is VCC x 400ÂµA plus

0.4V x 1mA. Package theta J-A is about 150Â°C/W, so

with VCC = 5V and no copper PC board heat sinking,

the resulting temperature rise is:

dT = 2.4mW x 150Â°C/W = 0.36Â°C

Even with these contrived circumstances, it is difficult

to introduce significant self-heating errors.

ADC Noise Filtering

The ADC is an integrating type with inherently good

noise rejection, especially of low-frequency signals such

as 60Hz/120Hz power-supply hum. Micropower opera-

tion places constraints on high-frequency noise rejec-

tion; therefore, careful PC board layout and proper

external noise filtering are required for high-accuracy

remote measurements in electrically noisy environments.

High-frequency EMI is best filtered at DXP_ and DXN_

with an external 2200pF capacitor. This value can be

increased to about 3300pF (max), including cable

capacitance. Higher capacitance than 3300pF intro-

duces errors due to the rise time of the switched cur-

rent source.

Nearly all noise sources tested cause additional error

measurements, typically by +1Â°C to +10Â°C, depending

on the frequency and amplitude (see the Typical

Operating Characteristics).

PC Board Layout

1) Place the MAX1668/MAX1805/MAX1989 as close as

practical to the remote diode. In a noisy environment,

such as a computer motherboard, this distance can

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