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E+E Elektronik Ges.m.b.H Langwiesen 7 4209 Engerwitzdorf, Austria https://www.epluse.com
Contact Mr Johannes Fraundorfer +43 7235 605217

Air Velocity Sensor for Laminar Flow Monitoring

The EE680 by E+E Elektronik offers high measurement accuracy and is ideal for cleanroom applications due to its GMP-compliant design

(PresseBox) (Engerwitzdorf, )
The EE680 air velocity sensor by E+E Elektronik is used to monitor the laminar flow in cleanrooms or on safety workbenches. The sensor precisely measures the air velocity up to 2 m/s (400 ft/min) and simultaneously also the temperature. It meets the requirements of Good Manufacturing Practice (GMP) and is therefore ideally suited for the pharmaceuticals, biotechnology and microelectronics industries.

The flow sensing element used in the EE680 is based on the hot film anemometer principle and enables simultaneous measurement of air velocity and temperature. It provides accurate values from as low as 0.1 m/s (20 ft/min) and offers excellent long term stability and low angular dependence. The special E+E sensor coating makes the thin film sensing element highly resistant to H2O2 sterilisation and other aggressive cleaning agents.

High Measurement Accuracy

Factory multi-point adjustment of the air velocity ensures high measurement accuracy over the entire working range. An adjustment point at 0.45 m/s (88.6 ft/min) takes into account the air flow range defined in the EU GMP directive for the manufacture of sterile medical devices. The measurement accuracy of the sensor is confirmed by an inspection certificate in accordance with DIN EN 10204-3.1.

GMP-Compliant Design

With its smooth stainless steel enclosure and a sensor design optimised for laminar flow monitoring, the EE680 meets the requirements of Good Manufacturing Practice (GMP) in the cleanroom. The straight or angled design of the sensor with different probe lengths allows for wall or ceiling mounting at the ideal distance from the filter element, according to EN ISO 14644-3. The practical mounting flange and M12 stainless steel connector facilitate the installation and replacement of the EE680.

Visual Status Indication

An LED ring integrated into the enclosure indicates the laminar flow conditions and the sensor status. Any deviation from the target state or operating fault can therefore be quickly detected. The preset threshold values and further indication options can be configured individually.

Analogue or Digital Output

The measured values for air velocity and temperature are optionally available at the analogue voltage or current output, or at the RS485 interface via the Modbus RTU protocol. The type of measured value output can also be retroactively configured.

Configuring and adjusting the EE680 is a particularly user-friendly experience with the help of an optional adapter and the free configuration software.

E+E Elektronik Ges.m.b.H

E+E Elektronik entwickelt und produziert Sensoren und Messumformer für Feuchte, Taupunkt, Feuchte in Öl, CO2, Luftgeschwindigkeit, Durchfluss, Temperatur und Druck. Handmessgeräte, Feuchtekalibriersysteme und Kalibrierdienstleistungen ergänzen das umfangreiche Produktportfolio des österreichischen Sensorspezialisten. Die Hauptanwendungsgebiete für E+E Produkte liegen in der HLK- und Gebäudetechnik, industriellen Messtechnik und der Automobilindustrie. Ein zertifiziertes Qualitätsmanagementsystem gemäß ISO 9001 und IATF 16949 stellt höchste Qualitätsstandards sicher. E+E Elektronik ist mit eigenen Niederlassungen in China, Deutschland, Frankreich, Italien, Korea, USA und Vertriebspartnern in mehr als 60 Ländern weltweit vertreten. Das durch "Akkreditierung Austria" akkreditierte E+E Kalibrierlabor ist vom Bundesamt für Eich- und Vermessungswesen (BEV) mit der Bereithaltung der nationalen Standards für Feuchte, Taupunkt und Luftströmungs-geschwindigkeit in Österreich beauftragt.

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The publisher indicated in each case (see company info by clicking on image/title or company info in the right-hand column) is solely responsible for the stories above, the event or job offer shown and for the image and audio material displayed. As a rule, the publisher is also the author of the texts and the attached image, audio and information material. The use of information published here is generally free of charge for personal information and editorial processing. Please clarify any copyright issues with the stated publisher before further use. In case of publication, please send a specimen copy to service@pressebox.de.