One Channel Wireless IEPE Sensor Node

IEPE Sensor Node

Firstly, the LORD MicroStrain® Model IEPE-LINK-LXRS®  is a one channel wireless IEPE Sensor node.  Secondly, it enables simultaneous, high-speed sensing and data aggregation from scalable sensor networks. Therefore, the LORD wireless sensing systems are ideal for test and measurement, remote monitoring, system performance analysis, and embedded applications.

The gateways are the heart of the LORD MicroStrain wireless sensing system. They coordinate and maintain wireless transmissions across a network of distributed wireless sensor nodes. Some nodes have integrated sensors.  Whilst others have multi-sensor connectivity for application flexibility.

The LORD MicroStrain LXRS wireless communication protocol between LXRS nodes and gateways enable high- speed sampling.  The ±32 microseconds node- to- node synchronisation, and lossless data throughput under most operating conditions. Users can easily program nodes for data logging, continuous, and periodic burst sampling with the Node Commander® software. The web based SensorCloud™ interface optimises data aggregation, analysis, presentation, and alerts for gigabytes of sensor data from remote networks.

High resolution data with 24-bit A/D converter, user-programmable sample rates from 1 KHz to 104 KHz, 109.5 dB dynamic range and user-selectable low pass filtering are just some of the Highlights of the IPEE-Link™-LAXRS®

High performance benefits of this Wireless Sensor include Lossless data throughput and node-to-node sampling synchronization of ±32 μS in LXRS®-enabled modes and a wireless range up to 2 km (800 m typical).

Easy to use the IPEE-Link™-LAXRS® has a High capacity, rechargeable battery for extended use, Remote configuration, acquisition, and display of sensor data with SensorConnect™ or Node Commander® and an optional web-based SensorCloud™ platform optimises data storage, viewing, alerts, and analysis, This sensor also accepts most IEPE accelerometers

Ideal for vibration sensing in challenging applications, such as critical structure and machine health monitoring, applications include condition-based monitoring (CBM), health monitoring of rotating components, bearings, aircraft, structures, and vehicles, Modal analysis, Vibration monitoring and Product testing.

Finally, for more information, contact us.