SCX01DN Datasheet, PDF(4/10 Page) List of Unclassifed Manufacturers

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SCX01DN Datasheet, PDF (4/10 Pages) List of Unclassifed Manufacturers – Precision Compensated Pressure Sensors

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SCX - Series

Precision Compensated Pressure Sensors

Physical Construction (Cutaway Diagram) (Not drawn to scale)

APPLICATION INFORMATION

The following circuits show some typical designs using the SCX

series sensors. For specific applications information or assistance,

please contact your nearest Sensym sales office or the Sensym

factory.

Low Pressure Applications

For sensing pressures below 1 psi, the circuit shown in Figure A

uses the SCX01DN to provide a 2 to 5 V output for a 0 to 10 inch of

water column input pressure. This output signal is compatible with

many A/D converters and hence can be used to interface to a

microprocessor system. This low-cost circuit is easily adaptable

to lower full-scale pressures down to 5 inches of water column.

Circuit Description

The LM10 is used to provide a voltage reference for the excitation

voltage (VE), and for the voltage node VREF. With this configuration,

VE and VREF are not affected by noise or voltage variations in the

12 V power supply. R3 is used to adjust VREF to set the initial offset

voltage at the output, V .

OUT

The pressure signal, V , is amplified by amplifiers B , and B . (See

Sensym Application Note SSAN-17A for details on this amplifier)

R2 is used to adjust the signal gain of the circuit. The output equation

is given below.

V = V [ 2 (1+ R/ )]+V

OUT

REF

For the best circuit performance, a careful selection of components

in necessary. Use wirebound pots of insure low temperature

coefficients and low longterm drift. A five-element resistor array

(10kâ¦) SIP should be used for the resistors in the amplifier stage in

order to obtain closely matched values and temperature

coefficients. All other resistors should be 1% metal film. Amplifiers

B1, and B2 should have low offset voltage and low noise. Signal

lines should be as short as possible and the power supply should

be capacitively bypassed on the PC board.

Adjustment Procedure

1. With zero-pressure applied, adjust the offset adjust R3,

until V = 2.000 V

OUT

2. Apply full-scale pressure (10 in. W.C) to port B1 and adjust the

full-scale adjust R , so that V = 5.000 V.

OUT

3. Repeat procedure if necessary.

Medical Applications

For blood pressure monitoring applications, the circuit shown in

Figure B provides a 0.5 V to 3.5 V output for a 0 to 300 mm Hg input

pressure. The circuit is easily calibrated and is not affected by

changes in the voltage supply. Because 300 mm Hg is approximately

5.8 psi, an SCX05DN is used.

Circuit Description

The circuit shown here in Figure B is very similar to that shown in

Figure A. The internal 200 mV reference voltage of the LM10 is

amplified to provide power to the sensor and to provide a voltage

reference, VREF. This allows the circuit to operate at a supply

voltage between 5 and 20 volts without affecting performance of

the circuit. By adjusting R , V is used to set the initial zero-

3 REF

pressure voltage at VOUT. The pressure signal, VIN, is amplified by

amplifiers B1 and B2. These amplifiers should be precision op amps

with low offset voltages and high common-mode rejection. The

signal gain is adjusted by R , and the overall equation for the output

voltage is given by ,

VOUT = VIN [ 2 (1+ R/R1)]+VREF

Adjustment Procedure

1. With zero-pressure applied, adjust the offset adjust

R , until V = 0.500 V

OUT

2. Apply full-scale pressure (300 mm Hg) to port B and adjust

R2, until VOUT = 3.500 V.

3. Repeat procedure if necessary.

March 1998/053

Aubinger Weg 27, 82178 Puchheim, Germany

Phone 0049 - (0) 89 80 08 30, Fax 0049 - (0) 89 8 00 83 33

http://www.sensortechnics.com

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