Pressure Sensors Handle Demanding Hygienic Apps

Groomed for challenging hygienic applications, BAUMER’s stainless steel PP20H pressure sensors feature a robust IP69K rated stainless steel housing with a condensate-proof silicon measuring cell to ensure optimum safety and flexibility. The sensors offer a scaled pressure range from -1 to 40 bar along with a wide choice of process connections. They are also available with 4 mA to 20 mA signal and IO-Link connectivity and comply with the hygiene requirements in the food and pharmaceutical industries where CIP and SIP capability are essential.

Their hermitically-sealed silicon measuring elements are insensitive to moisture and condensate, even under extreme temperature fluctuations and in damp environments. The sensors cover a media temperature range from -20ºC to 125ºC without the need for a cooling line. Also, a wide variety of applications can be covered by single sensor model ensuring cost and space savings.

Several sensors can be simultaneously configured via IO-Link, which simplifies switching point adjustment for different process stages at start-up, or batch changes saving time. Diagnostic data can be instantly called up and evaluated. For deeper details, specs, and enlightenment, procure and peruse the PP20H datasheet.

Free Newsletter

Like this article? Subscribe to FierceSensors!

The sensors industry is constantly changing as innovation runs the market’s trends. FierceSensors subscribers rely on our suite of newsletters as their must-read source for the latest news, developments and analysis impacting their world. Register today to get sensors news and updates delivered right to your inbox.

Suggested Articles

The tech trade could do more to promote racial equity, from promoting minorities to boosting STEM and broadband

U.S. trade groups SEMI and SIA say semi workers need to make on-site visits to chip plants abroad for installation and repairs

IC Insights analyst sees economic softness that began in 2019 hitting analog sales in many regions again in 2020.