Sensor-system applications
Fluid management sensors
Reed Electronics offers individual sensors for different applications for monitoring liquid media and for detecting and monitoring limit and fill levels.
These applications are particularly suited for use in fill-level monitoring, dosing systems, limit-level detection, overfill prevention, and monitoring leaks and positions.
Our solutions are as individual as the areas of application are varied.
Get in touch with us – we would be pleased to advise you, no strings attached.
Individual applications
Whether you’re looking for a way to continuously monitor the fill level of liquid media or their limit level, would like an integrated proximity detector or are in need of a product containing a suction lance with simultaneous extraction and filling functionalities – Reed sensors are tailored to your exact requirements and are custom-made for you.
Thanks to our many years of experience in fluid management, our products are suitable for use in a diverse range of applications and always comply with the highest standards in any of these scenarios.
Nik Thaqi – Technical Sales | Reed Electronics AG
Requirements for sensor-system applications
Our products are exposed to a wide range of conditions, such as explosive atmospheres, extreme temperatures, high pressure, abrasive media and changing media density.
Thanks to high-quality components and robust materials and our many years of experience in development and construction, Reed sensors can reliably withstand any environment.
Requirements
How do sensors for explosive atmospheres work?
Devices or systems designed for use in explosive atmospheres must meet special safety regulations. Special consideration must therefore be given to the EX design when choosing an appropriate fill-level sensor or limit-level sensor.
Safety and quality
Our sensors for use within an EX area are equipped exclusively with components that have been certified by an official certifying body and undergo stringent assessments by our quality assurance team.