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Tips for choosing the right pressure transmitter for your specific application

Tips for choosing the right pressure transmitter for your specific application

Philipp Hein |

The careful selection of a pressure sensor is critical for precision and reliability in many technical and industrial scenarios. Pressure sensors play a central role by converting physical pressure into a measurable electrical signal that is used for control, process monitoring or research purposes. Whether in process control, automation or research and development, the choice of the right pressure sensor can significantly ensure success or increase the risk of malfunction.

Understanding the technical requirements

Deciding which pressure sensor is best suited to your specific needs depends on a thorough analysis of the technical requirements. Start by gaining clarity about the type of pressure to be measured:

  • Relative pressure: Is a comparison to atmospheric pressure necessary, for example in hydraulic systems?
  • Differential pressure: Do differences between two pressure points in a system need to be recorded, such as in ventilation systems?
  • Absolute pressure: Is a reference to the vacuum required, such as for meteorological measurements?

The choice of measuring range is crucial. A good sensor covers the maximum expected pressure range, but has a certain reserve capacity to cope with unexpected peaks without compromising on precision. When selecting the accuracy, you should consider not only the resolution but also the long-term stability and temperature compensation behavior of the sensor.

Analysis of the operating conditions

The ambient conditions around the sensor must also be considered:

  • Temperature: Can the sensor deliver the ordered temperatures without losing accuracy?
  • Moisture: Is the sensor protected against moisture, which could be critical in certain environments such as waterworks or shipbuilding?
  • Chemical resistance: Is the sensor resistant to aggressive media such as acids or alkalis?
  • Mechanical loads: Is the sensor exposed to shocks, vibrations or other mechanical effects?

The sensor's output signals must be compatible with the control and monitoring systems. Analog signals such as 4-20 mA are popular due to their easy integration and robustness against interference. Digital signals, on the other hand, offer extended diagnostic options and are often more accurate.

Required norms and standards

In certain industries, pressure sensors must meet specific standards and certifications, whether for safety reasons or to comply with quality standards. ATEX certifications for use in potentially explosive atmospheres or food standards that ensure easy cleaning and harmlessness of materials may be required.

Installation and maintenance considerations

Also consider practical aspects such as the installation location and process connection to ensure that the sensor can be properly integrated into your system. Easy calibration and maintenance options contribute to the long-term reliability of the sensor.

Costs and availability

A cost-benefit analysis of the purchase is essential. Take into account not only the purchase price, but also long-term operating costs that may arise due to maintenance, calibration or the replacement of components. Make sure that the necessary accessories - connection cables, adapters, protective housing - are available and complement the overall functionality of your system.

By exercising care and caution when selecting your pressure sensor, you can optimize both the effectiveness and safety of your systems. Look to work with reputable manufacturers and take advantage of their expertise and support offerings to make the best possible decision for your application. An informed decision-making process is an essential step in ensuring that your measurement and control systems operate reliably and efficiently, supporting the ongoing success of your projects.

Innovative solutions from SEIKOM Electronic

With the RLSWR8 volumetric flow meter, SEIKOM Electronic offers a proven solution for calorimetric volumetric flow measurement. The RLSWR8 is available in different versions and can therefore be optimally adapted to different industrial applications. The standard version is suitable for media up to 80°C, while the specially developed version allows media up to 350°C to be measured.

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