MicroStrain is a leader in embedded miniature triaxial-acceleration sensing nodes.  Our low-power, lightweight sensing solutions accurately capture and reliably communicate high-speed acceleration data for your unique velocity and shock monitoring needs.

SG-Link – RGD – LXRS






NV-Link – Mini – LXRS 

ENV-Link™ -Mini -LXRS® environmental sensor node supports four sensor inputs inluding a dedicated digital relative humidity and temperature sensing channel.

  • IP-67 rated enclosure for long-term outdoor use
  • Surface mountable relative humidity and temperature sensor
  • 3 additional 0-5 VDC  inputs supports soil moisture, leaf wetness, carbon dioxide, pyranometer, barometric pressure, and additional sensors





G-Link –LXRS

G-Link® -LXRS® wireless sensor offers plug-and-play triaxial acceleration measurement in a miniature test & measurement package.

  • ± 2 g or ±10 g accelerometer versions
  • Sample rates customizable up to 4kHz
  • Thousands of nodes on a single base station






G-Link2 – LXRS

The G-Link2 wireless accelerometer offers 16-bit resolution measurement in a ruggedized, miniature package.

  • Onboard triaxial or external single axis ±2 g to ±200 g MEMS accelerometer versions
  • User defined synchronized sample rates up to 512 continuous or 60kHz burst
  • IP67 rated enclosure






The EH-Link® is a miniature self-powered wireless node capable of harvesting energy from an array of ambient sources.  Wireless node includes onboard tri-axial acceleration and accepts an external strain gauge type pressure transducers.

  • 1 differential input channel for full, half or quarter bridge piezoresistive accelerometers
  • Sample rates up to 2082Hz
  • Harvest power from piezoelectric, electrodynamic and thermoelectric sources
  • 5.0V to 20V






V-Link® wireless node is designed to accept up to four load cell differential inputs, digitize sensor output with 16 bit resolution, and transmit load data to a remote WSDA gateway.  Event driven triggering features allows users to maximize battery life while monitoring vital pre- and post- event loads. Standard configurations are available for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 4 differential inputs for full, half or quarter bridge load cells
  • 16 bit A/D converter
  • Event triggered dat with 200,000 byte pre-event memory
  • 1 input channel for 4-20mA sensor by measuring voltage across optional internal 56 Ohm resistor (requires external power)




IEPE-Link™ -LXRS® provides IEPE accelerometer input for critical rotating machine health monitoring applications. Combined with SensorCloud™, IEPE-Link™ can be used to develop predictive maintenance systems, improving safety while reducing downtime and operational cost.

  • single external channel for IEPE accelerometer
  • ultra high speed sampling up to 104 kHz sample rates
  • 24-bit resolution
  • 109.5 dB of dynamic range
  • 2.4 GHz direct sequence spread spectrum, license
    free worldwide
  • 2 km bidirectional wireless communications range (line of sight)





The 3DM-GX4-45™ represents the latest generation of LORD MicroStrain® award winning inertial sensing technology.   It is the smallest, lightest, best performing GPS aided Inertial Navigation System (GPS/INS) in its class.  This high-performance unit combines today’s highest performance MEMS inertial sensors, a highly-sensitive GPS receiver, temperature sensors, pressure altimeter, and dual on-board processors running a sophisticated Extended Kalman Filter to generate optimal position, velocity, and attitude (PVA) estimates.

It provided accurate navigation and orientation under dynamic conditions in
applications such as:

• GPS-aided navigation system
• camera stabilization
• satellite, radar, and antenna pointing
• platform stabilization, artificial horizon
• unmanned vehicle navigation
• reconnaissance, surveillance, and target acquisition
• robotic control




SG-Link – LXRS

SG-Link® -OEM -LXRS® offers standard wireless piezoresistive accelerometer configuration for original equipment manufacturer applications.

  • Optimized for extended range lossless data applications
  • 1 full bridge differential input channel for piezoresistive accelerometers
  • Sample rates up to 4KHz in burst mode, 500Hz continuous






The MicroStrain 3DM-GX3® -35 is a high-performance miniature Attitude Heading Reference System (AHRS) with embedded GPS.  It incorporates a triaxial accelerometer, triaxial gyro, triaxial magnetometer, temperature sensors, and an on-board processor running a sophisticated fusion algorithm to provide orientation, intertial, and GPS measurements.

  • Acceleration data output up to 1000 Hz
  • Onboard GPS, triaxial accels, triaxial gyros, triaxial magnetometers & temperature sensors
  • 4nHz GPS data with 0.1 m/sec velocity accuracy
  • versions available from 1.7 g to 50 g and 50 deg/sec to 1200 deg/sec



The 3DM-GX4-25™, a miniature high end industrial Attitude Heading and Reference System (AHRS), utilizes today’s highest performance MEMS sensor technology and dual on-board processors running a sophisticated Adaptive Kalman Filter to provide excellent static and dynamic attitude estimates and inertial measurements.  It is the smallest, lightest, and best performing AHRS in its class.

It offers very stable and accurate navigation and attitude under dynamic conditions such as:

• unmanned vehicle navigation
• platform stabilization, artificial horizon
• antenna and camera pointing
• health and usage monitoring of vehicles
• reconnaissance, surveillance, & target acquisition
• robotic control
• personnel tracking





SensorCloud™ is useful for a nearly limitless variety of applications, particularly where data from large sensor networks needs to be collected, viewed, and monitored remotely.  Structural health monitoring and condition based monitoring of high value assets are applications where commonly available data tools often come up short in terms of accessibility, data scalability, programmability, or performance.    MicroStrain® SensorCloud was born out of a need for a better tool for these types of applications but the core features and benefits can add value to a much broader range of applications.


Casp System Dofinansowanie
Introduction of B2B class system that automates business processes taking place between CASP system and its business Partners. The project is co-financed by European Union with funds of European Regional Development Fund.
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