ACCELERATION/ VIBRATION
An advanced and high-performing wireless 8-channel analog input sensor node Model V-Link-200 interfaces with a wide range of available sensor technologies and convert them into wireless sensors. V-Link-200 specially accommodate Wheatstone bridge and analog sensors, including strain, load cell, torque, pressure, accelerometers, vibration sensors, geophones, magnetic field and displacement sensors.
V-Link-200
This latest wireless solution has an on-board tri-axial accelerometer for high-resolution data acquisition with extremely low noise and drift. It is available with ±2 g, ±4 g, ±8 g ± 10 g, ± 20 g, ± 40 g measurement range options. Also it simply integrates with LORD Sensing gateways to provide a total solution—in a rugged, compact package.
G-Link-200-8G
G-Link-200-40G
Wireless accelerometer node Model G-Link-200-40G is a ruggedized high-speed triaxial accelerometer node for real-time data acquisition and machine health monitoring of high-value assets. G-Link-200-40G wireless accelerometer node can measures motion, vibration, acceleration/ deceleration, tilt, impact events and can report derived vibration parameters such as Velocity (IPSrms), Amplitude (Grms and Gpk-pk), and Crest Factor.
Watch the video here: https://youtu.be/HlRmtLNQlCE
Vibration sensing wireless IEPE Sensor Node Model IEPE-Link –LXRS is designed for a high speed, high resolution and short duration sampling from Integrated Electronics Piezoelectric (IEPE) type and Integrated Circuit Piezoelectric (ICP®) accelerometers. So you can now convert traditional wired accelerometer to wireless IEPE Sensor Node and eliminate the need to maintaining long wires.
IEPE-Link –LXRS
An IP67 rated, high-speed sampling wireless accelerometer node Model G-Link2-LXRS accurately measures vibration and acceleration in remote applications. This node features an on-board triaxial or external single axis ±1 g to ±200 g MEMS accelerometers. G-Link2-LXRS can simultaneously log data to internal memory and/or transmit real-time data to a host computer at user programmable data rates.