Pressure Transmitter

Pressure sensors can be classified in terms of pressure ranges they measure temperature ranges of operation, and most importantly the type of pressure they measure. Pressure sensors are variously named according to their purpose, but the same technology may be used under different names.

  • Absolute pressure sensor

This sensor measures the pressure relative to a perfect vacuum. Absolute pressure sensors are used in applications where a constant reference is required, for example, high-performance industrial applications such as monitoring vacuum pumps, liquid pressure measurement, industrial packaging, industrial process control, and aviation inspection. 

  • Gauge pressure sensor

This sensor measures the pressure relative to atmospheric pressure. A tire pressure gauge is an example of gauge pressure measurement; when it indicates zero, then the pressure it is measuring is the same as the ambient pressure. Most sensors for measuring up to 50 bar are manufactured in this way since otherwise the atmospheric pressure fluctuation (weather) is reflected as an error in the measurement result.

  • Vacuum pressure sensor

This term can cause confusion. It may be used to describe a sensor that measures pressures below atmospheric pressure, showing the difference between that low pressure and atmospheric pressure, but it may also be used to describe a sensor that measures absolute pressure relative to a vacuum.

  • Differential pressure sensor

This sensor measures the difference between two pressures, one connected to each side of the sensor. Differential pressure sensors are used to measure many properties, such as pressure drops across oil filters or air filters, fluid levels (by comparing the pressure above and below the liquid), or flow rates (by measuring the change in pressure across a restriction). Technically speaking, most pressure sensors are really differential pressure sensors; for example, a gauge pressure sensor is merely a differential pressure sensor in which one side is open to the ambient atmosphere.

  • Sealed pressure sensor

This sensor is similar to a gauge pressure sensor except that it measures pressure relative to some fixed pressure rather than the ambient atmospheric pressure (which varies according to the location and the weather).

Pressure Transmitter Overview

This is where the measurement of interest is pressure, expressed as a force per unit area. This is useful in weather instrumentation, aircraft, automobiles, and any other machinery that has pressure functionality implemented.

This is the use of pressure sensors in conjunction with the orifice plate effect to measure flow. Differential pressure is measured between two segments of a venturi tube that have a different aperture. The pressure difference between the two segments is directly proportional to the flow rate through the venturi tube. A low-pressure sensor is almost always required as the pressure difference is relatively small.

Pressure transmitters Principle

  • Capacitive

Uses a diaphragm and pressure cavity to create a variable capacitor to detect strain due to applied pressure, capacitance decreasing as pressure deforms the diaphragm. Common technologies use metal, ceramic, and silicon diaphragms.

  • Electromagnetic

Measures the displacement of a diaphragm by means of changes in inductance (reluctance), LVDT, Hall Effect, or by eddy current principle.

  • Piezoelectric

Uses the piezoelectric effect in certain materials such as quartz to measure the strain upon the sensing mechanism due to pressure. This technology is commonly employed for the measurement of highly dynamic pressures. As the basic principle is dynamic no static pressures can be measured with piezoelectric sensors.

FEATURES

ModelRD131RD132RD136RD138RD208RD209RD308RD358
Accuracy±0.2%F.S±0.2%F.S±0.2%F.S±0.2%F.S±0.2%F.S±0.2%F.S±0.075%F.S±0.075%F.S
Range-2-2KPa
0-2KPa
0-6KPa
0-16KPa
0-60KPa
0-160KPa
0-600KPa
0-1.6MPa
0-6MPa
0-16MPa
0-60MPa
customize
-2-2KPa
0-2KPa
0-6KPa
0-16KPa
0-60KPa
0-160KPa
0-600KPa
0-1.6MPa
0-6MPa
0-16MPa
0-60MPa
customize
-2-2KPa
0-2KPa
0-6KPa
0-16KPa
0-60KPa
0-160KPa
0-600KPa
0-1.6MPa
0-6MPa
0-16MPa
0-60MPa
customize
-2-2KPa
0-2KPa
0-6KPa
0-16KPa
0-60KPa
0-160KPa
0-600KPa
0-1.6MPa
0-6MPa
0-16MPa
0-60MPa
customize
-2-2KPa
0-2KPa
0-6KPa
0-16KPa
0-60KPa
0-160KPa
0-600KPa
0-1.6MPa
0-6MPa
0-16MPa
0-60MPa
customize
-2-2KPa
0-2KPa
0-6KPa
0-16KPa
0-60KPa
0-160KPa
0-600KPa
0-1.6MPa
0-6MPa
0-16MPa
0-60MPa
customize
-2-2KPa
0-2KPa
0-6KPa
0-16KPa
0-60KPa
0-160KPa
0-600KPa
0-1.6MPa
0-6MPa
0-16MPa
0-60MPa
customize
-2-2KPa
0-2KPa
0-6KPa
0-16KPa
0-60KPa
0-160KPa
0-600KPa
0-1.6MPa
0-6MPa
0-16MPa
0-60MPa
customize
Power Supply24VDC24VDC24VDC24VDC24VDC24VDC24VDC24VDC
ConnectionThreadThreadTri-clampThreadThreadThreadThreadFlange
Wet materialSS304/SS316LSS304/SS316LSS304/SS316LSS304/SS316LSS304/SS316LSS304/SS316LSS304/SS316LSS304/SS316L
DisplayNoneLED/LCDNONENONENONELEDLEDLED
Outupt Signal4-20mA/RS4854-20mA/RS4854-20mA/RS4854-20mA/RS4854-20mA/RS4854-20mA/RS4854-20mA/Hart4-20mA/Hart

Products Show

Flanged type

WAFER TYPE

THREAD TYPE

Tri-clamp Type

Insertion type

Insertion type

Insertion type

Insertion type

Documents

Drawings

  • inline vortex Flow meter 1“ inch drawing
  • inline vortex Flow meter 1.5“ inch drawing

Program

  • RS485 Protocol
  • Hart Protocol

Related Products

Ultrasonic meter

Turbine Meter

Diesel Meter

Pressure Transmitter

Clear Rotameter

Flow Totalizer

Orifice Plate