YJJ WF200S Silicon-Structured MEMS Differential Pressure Sensor With A Range Of 0 - 10 kPa Is Used For Medical Monitoring

Product Description:

WF200S Silicon-Structured MEMS Differential Pressure Sensor With A Range Of 0 - 10 kPa Is Used For Medical Monitoring

Features:

WF200S pressure sensor is a fully-silicon-structured MEMS differential pressure sensor.
The WF200S adopts the Hewitt full bridge design. Under the standard operating power supply, it can achieve precise measurement of pressure ranging from 0 to 10 kPa (customizable for multiple ranges), and exhibits a good linear relationship with the output voltage.
The WF200S series pressure generator adopts a dual-sensor air nozzle structure and is packaged in SOIC 16 format.
WF200S is applicable to various medical devices such as blood pressure monitors, ventilators, pulmonary function meters, hemodialysis equipment, and arterial sclerosis detectors.
The WF200S differential pressure sensor supports customisation of multiple measurement ranges.
Current range: 5KPa, 10KPa, 20KPa, 40KPa, 100KPa, 200KPa, 300KPa.

The WF200S product has the following key features:
High sensitivity
High reliability
High precision

High stability
Pressure range: 0 - 10 kPa (differential pressure)
Constant voltage power supply: 0V to 10V
Constant current power supply: 0mA to 2mA
Operating temperature range: -40 to +125°C
Size: 10.3 X 10.3 X 10.3 mm

Parameter Name External Conditions Minimum Typical Maximum Unit Remarks

General Characteristics

Pressure Range - 0~10; 0~40; 0~200 kPa 1

Overload pressure TA = 25℃ 2X FS

Explosion pressure TA = 25℃ > 3X FS

Operating temperature - -20 to +85 ℃

Storage temperature - -40 to +125 ℃

Media compatibility: air and non-corrosive gases

Electrical characteristics

Excitation voltage TA = 25℃ 5 to 10 V

Excitation current TA = 25℃ 1 to 2 mA

Bridge arm resistance TA = 25℃ 4, 5, 6 kΩ 2

Zero point offset TA = 25℃ -15 to 0 to 15 mV

Full-scale output TA = 25℃

45, 60, 75 mV 10kPa range

60, 75, 90 mV 40kPa range

70, 90, 110 mV 200kPa range

Linearity TA = 25℃ -0.3 to 0.3 %VFS best-fit straight line

Zero point offset temperature coefficient TA = 25℃ -0.08 to 0.08 %VFS

Full-scale output temperature coefficient TA = 25℃ -0.27 to -0.22 to -0.17 %VFS /℃ constant pressure excitation

Full-scale output temperature coefficient TA = 25℃ -0.03 to 0.03 %VFS /℃ constant current excitation

Resistance temperature coefficient TCR TA = 25℃ 1600 to 2000 ppm/℃

Pressure hysteresis TA = 25℃ -0.1 to 0.05 to 0.1 %VFS

Temperature hysteresis TA = 25℃ -0.3 to 0.3 %VFS

Specifications: