03 October 2011 LSW gravity referenced servo inclinometers LSW gravity referenced servo inclinometers Sherborne Sensors has unveiled a range of rugged, high precision inclinometers designed for use in all weather applications. The LSW series is available in angular ranges of +/-3 to +/-90° and operates in temperatures ranging from -18 to 70°C. According to Sherborne it is able to survive shock levels up to 1500g. The sensor system is protected in a stainless steel case, weatherproof to IP67 and resistant to immersion in water. Also featured is a field replaceable weatherproof moulded IP68 connector/cable system, which enables the LSW to connect to a dc power source and a readout for a complete operating system. "The LSW series is specifically designed for application in physically challenging outdoor environments or where high levels of shock and vibration are present," said Mike Baker, managing director, Sherborne Sensors. "The sensor demonstrates extremely high levels of precision and is typically deployed in offshore industries, military, civil engineering, geophysical and seismic studies; together with bore hole mapping and the monitoring of dam or rock shifts." Author Sherborne Sensors Comment on this article Websites http://www.sherbornesensors.com Companies Sherborne Sensors Ltd This material is protected by Findlay Media copyright See Terms and Conditions. One-off usage is permitted but bulk copying is not. For multiple copies contact the sales team. Enjoy this story? People who read this article also read... Alternative back-up power With outdoor events like concerts, events and festivals now ... Read Article NIDays 2013 NIDays is a technical conference designed specifically for ... Read Article Southern Manufacturing This year, Southern Manufacturing and Electronics is set to be ... Read Article Microcontrollers deliver ... Microchip has launched what it describes as the 'world's lowest ... Read Article What you think about this article: Add your comments Name Email Comments Your comments/feedback may be edited prior to publishing. Not all entries will be published. Please view our Terms and Conditions before leaving a comment.