Microstrain Little Sensors. Big Ideas.

Strain

MicroStrain’s miniature strain sensor nodes are some of the most accurate and reliable in the business.  Whether you’re looking to measure strain at a single location or across an entire fleet for life, our solutions provide the resolution and scale needed to get the job done right.

Related Product Also Measures
V-Link 7 Channel Analog input Wireless Sensor Node Product Image

V-Link® -LXRS®

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 wireless 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)

V-Link® wireless node is designed to accept up to seven pressure transducers, digitize sensor output with 16 bit resolution, and transmit pressure data to a remote wireless WSDA gateway.  Event driven triggering features allows users to maximize battery life while monitoring vital pre- and post- event pressure levels. 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 strain gauge tupe pressure transducers
  • 1 input channel for analog 0-3 volt, or with voltage divider 0-5 and 0-10 volt pressure sensors
  • 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)

V-Link® wireless node is designed to accept up to seven strain gauges, digitize sensor output with 16 bit resolution, and transmit strain data to a remote wireless WSDA gateway.  Event driven triggering features allows users to maximize battery life while monitoring vital pre- and post- event strain measurements. 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 strain gauges
  • 3 input channels for DVRT strain gauges (requires DEMOD-DC signal conditioner)
  • 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)

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 wireless 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)

V-Link® wireless node is designed to accept up to seven pressure transducers, digitize sensor output with 16 bit resolution, and transmit pressure data to a remote wireless WSDA gateway.  Event driven triggering features allows users to maximize battery life while monitoring vital pre- and post- event pressure levels. 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 strain gauge tupe pressure transducers
  • 1 input channel for analog 0-3 volt, or with voltage divider 0-5 and 0-10 volt pressure sensors
  • 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)

V-Link® wireless node is designed to accept up to seven strain gauges, digitize sensor output with 16 bit resolution, and transmit strain data to a remote wireless WSDA gateway.  Event driven triggering features allows users to maximize battery life while monitoring vital pre- and post- event strain measurements. 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 strain gauges
  • 3 input channels for DVRT strain gauges (requires DEMOD-DC signal conditioner)
  • 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)

The V-Link® wireless node is designed to accept multiple strain and torque gauge differential inputs, digitize sensor output with 16 bit resolution, and transmit torque data to a remote wireless WSDA gateway.  Event driven triggering features allows users to maximize battery life while monitoring vital pre- and post- event torque levels. 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 strain gauges
  • 3 torque gauge input channels (2 bending + 1 axial)
  • 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)

The V-Link® -LXRS® offers seven accelerometer input configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 4 full bridge differential input channels for piezoresistive accelerometers
  • 3 single ended analog input channels

Sample rates up to 4KHz in burst mode, 500Hz continuous

Microstrain DVRT-Link™ -LXRS™ Wireless Displacement Node

DVRT-Link -LXRS®

The MicroStrain DVRT-Link® provides wireless data acquisition from all MicroStrain DVRT® linear displacement transducers.

  • 1 differential input from a DVRT bridge transducer
  • Sample rates from 32Hz to 2082Hz

The MicroStrain DVRT-Link® provides wireless data acquisition from all MicroStrain DVRT®linear displacement transducers.

  • 1 input for a MicroStrain DVRT
  • Sample rates from 32Hz to 2082Hz

The MicroStrain DVRT-Link® provides wireless data acquisition from all MicroStrain DVRT® linear displacement transducers.

  • 1 differential input from a DVRT bridge transducer
  • Sample rates from 32Hz to 2082Hz

The MicroStrain DVRT-Link® provides wireless data acquisition from all MicroStrain DVRT®linear displacement transducers.

  • 1 input for a MicroStrain DVRT
  • Sample rates from 32Hz to 2082Hz
Microstrain SG-Link® -LXRS™ Wireless Strain Node

SG-Link® -LXRS®

SG-Link® -LXRS® offers standard wireless displacement configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 input channel for DVRT strain gauges or potentiometer
  • 1 differential input
  • Sample rates up to 4KHz in burst mode, 500Hz continuous
  • 1 input channel for 4-20mA sensor by measuring voltage across optional internal 56 Ohm resistor (requires external power)

SG-Link® -LXRS® offers standard wireless load cell configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 differential input for full, half or quarter bridge load cell
  • Sample rates up to 4KHz in burst mode, 500Hz continuous
  • Datalogging to internal memory at up to 2048Hz
  • 1 input channel for 4-20mA sensor by measuring voltage across optional internal 56 Ohm resistor (requires external power)

SG-Link® -LXRS® offers standard wireless strain gauge type pressure transducer configuration.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 differential input for full, half or quarter bridge strain gauge type pressure transducer
  • 1 input channel for analog 0-3 volt, or with voltage divider 0-5 and 0-10 volt pressure sensors
  • Sample rates up to 4KHz in burst mode, 500Hz continuous
  • 1 input channel for 4-20mA sensor by measuring voltage across optional internal 56 Ohm resistor (requires external power)

SG-Link® -LXRS® offers standard wireless strain gauge configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 differential input for full, half or quarter bridge strain gauge
  • 1 input channel for DVRT strain gauges or potentiometer
  • Wireless sample rates up to 4KHz in burst mode, 500Hz continuous
  • Datalogging to internal memory at up to 2048 Hz

SG-Link® -LXRS® offers single accelerometer input configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 full bridge differential input channel for piezoresistive accelerometers
  • 1 single ended input
  • Sample rates up to 4KHz in burst mode, 500Hz continuous
  • 1 input channel for 4-20mA sensor by measuring voltage across optional internal 56 Ohm resistor (requires external power)

SG-Link® -LXRS® offers standard wireless displacement configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 input channel for DVRT strain gauges or potentiometer
  • 1 differential input
  • Sample rates up to 4KHz in burst mode, 500Hz continuous
  • 1 input channel for 4-20mA sensor by measuring voltage across optional internal 56 Ohm resistor (requires external power)

SG-Link® -LXRS® offers standard wireless load cell configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 differential input for full, half or quarter bridge load cell
  • Sample rates up to 4KHz in burst mode, 500Hz continuous
  • Datalogging to internal memory at up to 2048Hz
  • 1 input channel for 4-20mA sensor by measuring voltage across optional internal 56 Ohm resistor (requires external power)

SG-Link® -LXRS® offers standard wireless strain gauge type pressure transducer configuration.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 differential input for full, half or quarter bridge strain gauge type pressure transducer
  • 1 input channel for analog 0-3 volt, or with voltage divider 0-5 and 0-10 volt pressure sensors
  • Sample rates up to 4KHz in burst mode, 500Hz continuous
  • 1 input channel for 4-20mA sensor by measuring voltage across optional internal 56 Ohm resistor (requires external power)

SG-Link® -LXRS® offers standard wireless strain gauge configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 differential input for full, half or quarter bridge strain gauge
  • 1 input channel for DVRT strain gauges or potentiometer
  • Wireless sample rates up to 4KHz in burst mode, 500Hz continuous
  • Datalogging to internal memory at up to 2048 Hz

SG-Link® -LXRS® offers single thermocouple input configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • PT100 RTD, RTD & Thermistors
  • 1 differential input channel
  • 1 single ended inputs for capacitive MEMS

SG-Link® -LXRS® offers standard wireless torque gauge configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 differential input for full, half or quarter bridge torque gauge
  • Wireless sample rates up to 4KHz in burst mode, 500Hz continuous
  • Datalogging to internal memory at up to 2048 Hz

SG-Link® -LXRS® offers single accelerometer input configuration for test and measurement applications.  Ruggedized enclosures are available for extreme exposure and long-term monitoring.

  • 1 full bridge differential input channel for piezoresistive accelerometers
  • 1 single ended input
  • Sample rates up to 4KHz in burst mode, 500Hz continuous
Microstrain SG-Link® OEM -LXRS™ Wireless Strain Node

SG-Link® -OEM -LXRS®

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

  • Optimized for extended range lossless data applications
  • 1 differential input for full, half or quarter bridge load cell
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

SG-Link® -OEM -LXRS® offers standard wireless strain gauge type pressure transducer configuration for original equipment manufacturer applications.  

  • Optimized for extended range lossless data applications
  • 1 differential input for full, half or quarter bridge strain gauge type pressure transducer
  • 1 input channel for analog 0-3 volt, or with voltage divider 0-5 and 0-10 volt pressure sensors
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

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

  • Optimized for extended range lossless data applications
  • 1 differential input for full, half or quarter bridge strain gauge
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

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

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

  • Optimized for extended range lossless data applications
  • 1 differential input for full, half or quarter bridge load cell
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

SG-Link® -OEM -LXRS® offers standard wireless strain gauge type pressure transducer configuration for original equipment manufacturer applications.  

  • Optimized for extended range lossless data applications
  • 1 differential input for full, half or quarter bridge strain gauge type pressure transducer
  • 1 input channel for analog 0-3 volt, or with voltage divider 0-5 and 0-10 volt pressure sensors
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

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

  • Optimized for extended range lossless data applications
  • 1 differential input for full, half or quarter bridge strain gauge
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

SG-Link® -OEM -LXRS® offers single thermocouple input configuration for original equipment manufacturer applications.  

  • Optimized for extended range lossless data applications
  • 1 differential input channel for Thermistors
  • 1 single ended inputs for capacitive MEMS

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

  • Optimized for extended range lossless data applications
  • 1 differential input for full, half or quarter bridge torque gauges
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

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

SG-Link® -OEM -LS

SG-Link® -OEM -LS offers standard wireless load cell configuration for original equipment manufacturer applications.  

  • Optimized for low power lossless data applications
  • 1 differential input for full, half or quarter bridge load cell
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

SG-Link® -OEM -LS offers standard wireless strain gauge type pressure transducer configuration for original equipment manufacturer applications.  

  • Optimized for low power lossless data applications
  • 1 differential input for full, half or quarter bridge strain gauge type pressure transducer
  • 1 input channel for analog 0-3 volt, or with voltage divider 0-5 and 0-10 volt pressure sensors
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

SG-Link® -OEM -LS offers standard wireless strain gauge configuration for original equipment manufacturer applications.  

  • Optimized for low power lossless data applications
  • 1 differential input for full, half or quarter bridge strain gauge
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

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

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

SG-Link® -OEM -LS offers standard wireless load cell configuration for original equipment manufacturer applications.  

  • Optimized for low power lossless data applications
  • 1 differential input for full, half or quarter bridge load cell
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

SG-Link® -OEM -LS offers standard wireless strain gauge type pressure transducer configuration for original equipment manufacturer applications.  

  • Optimized for low power lossless data applications
  • 1 differential input for full, half or quarter bridge strain gauge type pressure transducer
  • 1 input channel for analog 0-3 volt, or with voltage divider 0-5 and 0-10 volt pressure sensors
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

SG-Link® -OEM -LS offers standard wireless strain gauge configuration for original equipment manufacturer applications.  

  • Optimized for low power lossless data applications
  • 1 differential input for full, half or quarter bridge strain gauge
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

SG-Link® -OEM -LS offers single thermocouple input configuration for original equipment manufacturer applications.  

  • Optimized for low power lossless data applications
  • 1 differential input channel for Thermistors
  • 1 single ended inputs for capacitive MEMS

SG-Link® -OEM -LS offers standard wireless torque configuration for original equipment manufacturer applications.  

  • Optimized for low power lossless data applications
  • 1 differential input for full, half or quarter bridge torque gauges
  • Sample rates up to 4KHz in burst mode, 500Hz continuous

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

  • Optimized for low power lossless data applications
  • 1 full bridge differential input channel for piezoresistive accelerometers
  • Sample rates up to 4KHz in burst mode, 500Hz continuous
Micro-Miniature Displacement Sensor with Gauging

MG- DVRT®

Designed specifically for tight spaces, the Microminiature Gauging DVRT® delivers sub-micron gauging linear displacement in a tiny package.

  • Internal spring gauging design
  • 1.7mm outside diameter
  • Miniature gauging stroke lengths include 1.5mm, 3mm, 6mm, & 9mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C"

Designed specifically for tight spaces, the Microminiature Gauging DVRT® delivers sub-micron gauging linear displacement in a tiny package.

  • Internal spring gauging design
  • 1.7mm outside diameter
  • Miniature gauging stroke lengths include 1.5mm, 3mm, 6mm, & 9mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C"

Designed specifically for tight spaces, the Microminiature Gauging DVRT® delivers sub-micron gauging linear displacement in a tiny package.

  • Internal spring gauging design
  • 1.7mm outside diameter
  • Miniature gauging stroke lengths include 1.5mm, 3mm, 6mm, & 9mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C"

Designed specifically for tight spaces, the Microminiature Gauging DVRT® delivers sub-micron gauging linear displacement in a tiny package.

  • Internal spring gauging design
  • 1.7mm outside diameter
  • Miniature gauging stroke lengths include 1.5mm, 3mm, 6mm, & 9mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C"
Micro-Miniature Displacement Sensor

M-DVRT®

Designed specifically for tight spaces, the Microminiature DVRT® delivers high performance linear displacement in a tiny package.

  • 1.5mm outside diameter
  • Miniature stroke lengths include 1.5mm, 3mm, 6mm, & 9mm 1.5mm outside diameter
  • Sample rate up to 20 kHz
  • Operating temperature to 175C

Designed specifically for tight spaces, the Microminiature DVRT® delivers high performance linear displacement in a tiny package.

  • 1.5mm outside diameter
  • Miniature stroke lengths include 1.5mm, 3mm, 6mm, & 9mm 1.5mm outside diameter
  • Sample rate up to 20 kHz
  • Operating temperature to 175C

Designed specifically for tight spaces, the Microminiature DVRT® delivers high performance linear displacement in a tiny package.

  • 1.5mm outside diameter
  • Miniature stroke lengths include 1.5mm, 3mm, 6mm, & 9mm 1.5mm outside diameter
  • Sample rate up to 20 kHz
  • Operating temperature to 175C

Designed specifically for tight spaces, the Microminiature DVRT® delivers high performance linear displacement in a tiny package.

  • 1.5mm outside diameter
  • Miniature stroke lengths include 1.5mm, 3mm, 6mm, & 9mm 1.5mm outside diameter
  • Sample rate up to 20 kHz
  • Operating temperature to 175C
Sub-Miniature Displacement Sensor

S- DVRT®

 The Subminiature DVRT® features sub-micron resolution, linear analog output, flat dynamic response to kHz levels, and very low temperature coefficients.

  • 4.76mm outside diameter.
  • Subminiature stroke lengths include 4mm, 6mm, 8mm, 24mm, & 38mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C

The Subminiature DVRT® features sub-micron resolution, linear analog output, flat dynamic response to kHz levels, and very low temperature coefficients.

  • 4.76mm outside diameter.
  • Subminiature stroke lengths include 4mm, 6mm, 8mm, 24mm, & 38mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C

 The Subminiature DVRT® features sub-micron resolution, linear analog output, flat dynamic response to kHz levels, and very low temperature coefficients.

  • 4.76mm outside diameter.
  • Subminiature stroke lengths include 4mm, 6mm, 8mm, 24mm, & 38mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C

The Subminiature DVRT® features sub-micron resolution, linear analog output, flat dynamic response to kHz levels, and very low temperature coefficients.

  • 4.76mm outside diameter.
  • Subminiature stroke lengths include 4mm, 6mm, 8mm, 24mm, & 38mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C
SensorCloud ScreenShot

SensorCloud™

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

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.

Visit our SensorCloud Product Page to find out more.

Sub-Miniature Displacement Sensor with Gauging

SG- DVRT®

The Subminiature Gauging DVRT® features sub-micron resolution, gauging linear analog output, flat dynamic response to kHz levels, and very low temperature coefficients

  • Internal spring gauging design
  • 6mm outside diameter
  • Subminiature gauging stroke lengths include 4mm, 6mm, 8mm, 24mm, & 38mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C

The Subminiature Gauging DVRT® features sub-micron resolution, gauging linear analog output, flat dynamic response to kHz levels, and very low temperature coefficients.

  • Internal spring gauging design
  • 6mm outside diameter
  • Subminiature gauging stroke lengths include 4mm, 6mm, 8mm, 24mm, & 38mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C

The Subminiature Gauging DVRT® features sub-micron resolution, gauging linear analog output, flat dynamic response to kHz levels, and very low temperature coefficients

  • Internal spring gauging design
  • 6mm outside diameter
  • Subminiature gauging stroke lengths include 4mm, 6mm, 8mm, 24mm, & 38mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C

The Subminiature Gauging DVRT® features sub-micron resolution, gauging linear analog output, flat dynamic response to kHz levels, and very low temperature coefficients.

  • Internal spring gauging design
  • 6mm outside diameter
  • Subminiature gauging stroke lengths include 4mm, 6mm, 8mm, 24mm, & 38mm
  • Sample rate up to 20 kHz
  • Operating temperature to 175C