MAX110 Datasheet, PDF(21/24 Page) Maxim Integrated Products – Low-Cost, 2-Channel, ±14-Bit Serial ADCs

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MAX110 Datasheet, PDF (21/24 Pages) Maxim Integrated Products – Low-Cost, 2-Channel, ±14-Bit Serial ADCs

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K-TYPE

Low-Cost, 2-Channel, Â±14-Bit Serial ADCs

1/4 MAX479

+5V

VIN

TEMP

MAX874

OUT

10k

1/4 MAX479

243k

1ÂµF

243k

1/4 MAX479

1ÂµF

+5V

IN2+ VDD

IN2-

MAX110

IN1+

IN1-

DIN

10k

REF+

DOUT

SCLK

REF-

VSS

-5V

Figure 12. Thermocouple Circuit with Software Compensation

unloaded, and subtracting this value from actual weight

measurements. The lowpass filtering action of the

MAX111âs sigma-delta converter helps minimize noise.

The resolution of the weigh scale can be further

increased by averaging several conversions.

Thermocouple Circuit with Software

Compensation

A thermocouple is created by the junction of dissimilar

metals, and generates a voltage proportional to temper-

ature (Seebeck voltage), making it useful for tempera-

ture-measurement instruments. When a thermocouple

probe is connected to a measurement instrument, other

thermoelectric potentials are created between the alloys

of the probe and the copper connectors of the instru-

ment. These potentials introduce a temperature-depen-

dent error that must be subtracted from the temperature

measurement to obtain an accurate result. According to

the law of intermediate metals, the junction of the ther-

mocouple-probe alloys with the copper of the instrument

junction block can be treated as another thermocouple

of the same type. The voltage measured by the instru-

ment can be expressed as:

V = Î±(T1 - TREF)

where Î± is the Seebeck constant for the type of thermo-

couple, T1 is the temperature being measured, and

TREF is the temperature of the junction block. Although

one method to obtain TREF is to force the junction block

to a known temperature (0Â°C), a more popular

approach is to measure TREF directly using a thermistor

or PN junction voltage.

The circuit in Figure 12 shows a k-type thermocouple

going through a 54dB gain stage to channel 1 of the

MAX110. A MAX874 voltage reference provides both

the 3V reference voltage and reference junction tem-

perature information to the MAX110. Armed with the

temperature information provided by the MAX874, the

thermocouple voltage created at the junction block can

be subtracted out in software. The TEMP output of the

MAX874 is nominally 690mV at room temperature, and

increases with temperature at about 2.3mV/Â°C. Place

the MAX874 as close as possible to the terminal block,

and ensure good thermal contact between them. This

circuit employs a common k-type thermocouple and,

with the component values shown, can indicate tem-

peratures in the range of -150Â°C to +125Â°C.

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