AD524SD/883B Analog Devices Inc, AD524SD/883B Datasheet - Page 23

AD524SD/883B

Manufacturer Part Number

AD524SD/883B

Description

Manufacturer

Analog Devices Inc

Type

Instrumentation Ampr

Datasheet

1.AD524SD883B.pdf (28 pages)

Specifications of AD524SD/883B

Number Of Channels

Number Of Elements

Power Supply Requirement

Dual

Common Mode Rejection Ratio

70dB

Unity Gain Bandwidth Product (typ)

25MHz

Input Resistance

1000@±15VMohm

Input Offset Voltage

0.1@±15VmV

Input Bias Current

0.05@±15VnA

Single Supply Voltage (typ)

Not RequiredV

Dual Supply Voltage (typ)

±15V

Power Dissipation

450mW

Rail/rail I/o Type

Single Supply Voltage (min)

Not RequiredV

Single Supply Voltage (max)

Not RequiredV

Dual Supply Voltage (min)

±6V

Dual Supply Voltage (max)

±18V

Operating Temp Range

-55C to 125C

Operating Temperature Classification

Military

Mounting

Through Hole

Pin Count

Package Type

SBCDIP

Lead Free Status / RoHS Status

Not Compliant

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Current page: 23 of 28
Download datasheet (609Kb)

Figure 53 shows a simple application in which the variation

of the cold-junction voltage of a Type J thermocouple-iron ±

constantan is compensated for by a voltage developed in series

by the temperature-sensitive output current of an AD590

semiconductor temperature sensor.

The circuit is calibrated by adjusting R

voltage with the measuring junction at a known reference

temperature and the circuit near 25°C. If resistors with low

temperature coefficients are used, compensation accuracy is

to within ±0.5°C, for temperatures between +15°C and +35°C.

TYPE

S, R

MEASURING

JUNCTION

NOMINAL

52.3Ω

41.2Ω

61.4Ω

40.2Ω

5.76Ω

VALUE

IRON

CONSTANTAN

= V

REFERENCE

JUNCTION

+15°C < T

Figure 53. Cold-Junction Compensation

= V

– V

< +35°C

52.3ΩI

1 +

52.3Ω

+ 2.5V

AD590

– 2.5V

AD7507

A0, A2,

EN, A1

LATCH

2.5V

for proper output

NOMINAL VALUE

52.3Ω

7.5V

Figure 54. Microprocessor Controlled Data Acquisition System

9135Ω

AD712

AD580

8.66kΩ

1kΩ

1/2

20kΩ

G = 100

–

AMPLIFIER

OR METER

–

OUTPUT

–V

–

10kΩ

5kΩ

AD524

ADDRESS BUS

Rev. F | Page 23 of 28

AD712

1/2

–

20kΩ

AD7524

–V

Other thermocouple types may be accommodated with the

standard resistance values shown in Table 5. For other ranges

of ambient temperature, the equation in Figure 53 may be

solved for the optimum values of R

The microprocessor controlled data acquisition system shown

in Figure 54 includes both autozero and autogain capability. By

dedicating two of the differential inputs, one to ground and one

to the A/D reference, the proper program calibration cycles can

eliminate both initial accuracy errors and accuracy errors over

temperature. The autozero cycle, in this application, converts a

number that appears to be ground and then writes that same

number (8-bit) to the AD7524, which eliminates the zero error.

Because its output has an inverted scale, the autogain cycle

converts the A/D reference and compares it with full scale. A

multiplicative correction factor is then computed and applied

to subsequent readings.

For a comprehensive study of instrumentation amplifier

design and applications, refer to the Designer’s Guide to

Instrumentation Amplifiers (3

Analog Devices, Inc.

REF

DECODE

AD583

AGND

CONTROL

AD574A

REF

PROCESSOR

MICRO-

Edition), available free from

and R

AD524

AD524SD/883B Analog Devices Inc, AD524SD/883B Datasheet - Page 23

AD524SD/883B

Specifications of AD524SD/883B

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