Relative pressure sensors

Relative pressure sensors, also known as gauge pressure sensors measure the pressure of a fluid (liquid or gas) relative to the ambient atmospheric pressure. These sensors provide a pressure reading that reflects the difference between the internal pressure of the system being measured and the external atmospheric pressure surrounding the sensor.

Absolute, Relative, Analogue, Differential

Pressure sensors – MSDX Series

Pressure ranges from 5 in H2O to 100 psi
Supply voltage up to 20V
Low-cost, small DIP package

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Digital, Relative, Differential

Pressure sensors – DLC Series

Pressure ranges from 1 inH2O to 150 psi
1.8 to 3.6V supply voltage
Digital I2C interface with 16 bit resolution

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Digital, Relative, Differential

Pressure sensors – DLH Series

Pressure ranges from 5 inH2O to 60 inH2O
Low and variable supply voltage from 1.68V to 3.6V
High resolution 16/17/18 bit output

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Digital, Relative, Differential

Pressure sensors – DLLR Series

10 or 30 inH2O pressure range
Low and variable supply voltage from 1.68V to 3.6V
Better than 0.1% accuracy

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Differential, Digital, Absolute, Relative

Pressure sensors – DLV Series

5 to 60 psi and barometric pressure ranges
3.3V or 5.0V supply voltage
High resolution 14 Bit output

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Digital, Relative, Differential

Pressure sensors – DLVR Series

Pressure ranges from 5 inH2O to 60 inH2O
3.3V or 5V supply voltage
Dual-Die Reference technology

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Absolute, Relative, Analogue

Pressure sensors – BLM Series

Pressure ranges from 1 inH2O to 300 psi
Wide supply voltage range
0.5% linearity

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Relative, Analogue, Differential

Pressure sensors – MDCX Series

Pressure ranges from 1 inH2O to 30 inH2O
Max. 16V supply voltage
Matched pressure port volumes

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Differential, Absolute, Relative, Analogue

Pressure sensors – MLDX Series

Pressure ranges from 5 inH2O to ±100 psi
Matched pressure port volumes
10V supply voltage

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Features of relative pressure sensors:

Reference Point: The reference point for relative pressure sensors is the current atmospheric pressure, which means the sensor measures how much higher or lower the system’s pressure is compared to the atmospheric pressure.

Measurement: The sensor gives a reading that can be positive (indicating pressure above atmospheric pressure) or negative (indicating pressure below atmospheric pressure, often referred to as vacuum pressure).

Applications: Relative pressure sensors are commonly used in applications where the pressure is naturally influenced by atmospheric conditions, such as tire pressure monitoring, fluid level measurement in open tanks, and many industrial processes.

Example: Tire Pressure Monitoring: A relative pressure sensor in a car tire measures the pressure inside the tire relative to the surrounding atmospheric pressure, ensuring that the tire is inflated to the correct level for safe driving.

Relative pressure sensors are widely used in everyday and industrial applications where the pressure of a system needs to be measured in relation to the local atmospheric pressure, providing practical and relevant pressure data for many systems.

High-precision sensors

Highest precision for lowest pressures, reliable MEMS pressure sensors.

Innovative technologies

Innovative CoBeam²™ technology and dual die technology.

Customised system solutions

Individual system solutions for perfect integration of measurement technology in sophisticated applications.

Comprehensive product range

Standard solutions on a modular product platform.