Differential pressure sensor DKS-DP600-M2
siliconstainless steelMEMS

Differential pressure sensor - DKS-DP600-M2 - Wuxi Bewis Sensing Tecnology LLC - silicon / stainless steel / MEMS
Differential pressure sensor - DKS-DP600-M2 - Wuxi Bewis Sensing Tecnology LLC - silicon / stainless steel / MEMS
Add to favorites
Compare this product
 

Characteristics

Pressure type
differential
Technology
silicon
Material
stainless steel
Other characteristics
MEMS, temperature-compensated, high static pressure
Pressure range

Min.: -100,000 Pa
(-14.5 psi)

Max.: 100,000 Pa
(14.5 psi)

Long-term stability

Min.: 0 %

Max.: 0.03 %

Process temperature

Min.: -40 °C
(-40 °F)

Max.: 85 °C
(185 °F)

Description

Differential Pressure Sensor adopts monocrystalline silicon sensor chip made of German advanced MEMS technology, and the world's original monocrystalline silicon double-beam suspension design, which achieves the international leading over-pressure performance and ensures the excellent stability of the signal. Embedded with the intelligent original imported pressure measuring diaphragm and signal processing module, it realises the perfect combination of static pressure and temperature compensation, which can provide high measurement accuracy and stability under a wide range of static pressure and temperature. BW-DKS-DP600 Differential Pressure Sensor is a pressure sensor that acts directly on the diaphragm of the sensor, causing the diaphragm to produce a micro-displacement proportional to the pressure, detecting this change with an integrated electronic circuit and converting the output to a standard measurement signal corresponding to the pressure.

Catalogs

No catalogs are available for this product.

See all of Wuxi Bewis Sensing Tecnology LLC‘s catalogs

Other Wuxi Bewis Sensing Tecnology LLC products

Other Types of Sensors

*Prices are pre-tax. They exclude delivery charges and customs duties and do not include additional charges for installation or activation options. Prices are indicative only and may vary by country, with changes to the cost of raw materials and exchange rates.