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MPX2201

Motorola
Part Number MPX2201
Manufacturer Motorola
Description On-Chip Temperature Compensated & Calibrated Pressure Sensors
Published Oct 6, 2005
Detailed Description MOTOROLA SEMICONDUCTOR TECHNICAL DATA Order this document by MPX2200/D The MPX2200 and MPX2201 series device is a sil...
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MPX2201
MPX2201

Overview
MOTOROLA SEMICONDUCTOR TECHNICAL DATA Order this document by MPX2200/D The MPX2200 and MPX2201 series device is a silicon piezoresistive pressure sensor providing a highly accurate and linear voltage output — directly proportional to the applied pressure.
The sensor is a single monolithic silicon diaphragm with the strain gauge and a thin–film resistor network integrated on–chip.
The chip is laser trimmed for precise span and offset calibration and temperature compensation.
They are designed for use in applications such as pump/motor controllers, robotics, level indicators, medical diagnostics, pressure switching, barometers, altimeters, etc.
Features • Temperature Compensated Over 0°C to + 85°C • Patented Silicon Shear Stress Strain Gauge • ± 0.
25% Linearity (MPX2200D) • Easy to Use Chip Carrier Package • Available in Absolute, Differential and Gauge Configurations Application Examples • Pump/Motor Controllers • Robotics • Level Indicators • Medical Diagnostics • Pressure Switching • Barometers • Altimeters Figure 1 illustrates a block diagram of the internal circuitry on the stand–alone pressure sensor chip.
VS 3 THIN FILM TEMPERATURE COMPENSATION AND CALIBRATION CIRCUITRY 200 kPa On-Chip Temperature Compensated & Calibrated Pressure Sensors MPX2200 MPX2201 SERIES Motorola Preferred Device 0 to 200 kPa (0 to 29 psi) 40 mV FULL SCALE SPAN (TYPICAL) BASIC CHIP CARRIER ELEMENT CASE 344–15, STYLE 1 DIFFERENTIAL PORT OPTION CASE 344C–01, STYLE 1 NOTE: Pin 1 is the notched pin.
X–ducer SENSING ELEMENT 2 4 Vout+ PIN NUMBER Vout– 1 2 Gnd +Vout 3 4 VS –Vout 1 GND Figure 1.
Temperature Compensated Pressure Sensor Schematic VOLTAGE OUTPUT versus APPLIED DIFFERENTIAL PRESSURE The differential voltage output of the X–ducer is directly proportional to the differential pressure applied.
The absolute sensor has a built–in reference vacuum.
The output voltage will decrease as vacuum, relative to ambient, is drawn on the pressure (P1) side.
The output voltage of t...


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