MTS Sensors releases new magnetostrictive position sensor
By MTS Sensors
April 20, 2015 - MTS Sensors, a division of MTS Systems Corporation, has introduced a high performance magnetostrictive position sensor, using its innovative Temposonics technology. The ET sensor is very well suited to deployment in applications with high temperature environments. It can deliver up to 0.005mm resolution when used in combination with a suitable controller.
Industrial facilities dedicated to pressboard production or the processing of steel/iron need instrumentation that provides maximum safety and reliability, regardless of difficult working conditions. The new ET product offering significantly extends the supported temperature range of the MTS E-Series, with the ability to precisely determine exact positions even at 105°C temperature levels. This small rod sensor can be integrated directly into a cylinder, with rod length options covering 50mm to 3000mm. It exhibits linearity deviation of less than 0.02 per cent (full scale).
ET sensors have liquid ingress protection in accordance with IP68. Furthermore, ATEX certification for hazardous areas is available. These devices are equipped with a start/stop interface. They also have the capacity for sensor parameters to be automatically uploaded. A 316L stainless steel variant can be specified if needed.
"The ET sensor is designed to be reliable and operationally effective in industry sectors where elevated temperatures are a major concern,” said Robert Luong, MTS Sensors’ industrial technical marketing manager. “The magnetostrictive technology it utilizes provides a wear-free sensing mechanism that has significant value in heavy industrial settings.”
The proprietary Temposonics magnetostrictive sensing technology developed by MTS Sensors is designed to offer a non-contact method for accurately measuring position, which permits its implementation into the most demanding of application environments. Sensors based on this technology are highly resilient to shock, vibrations and extreme temperatures.