Contact for pricing and lead time--a minimum order quantity may apply
Contact for pricing and lead time--a minimum order quantity may apply
Contact for pricing and lead time--a minimum order quantity may apply
Contact for pricing and lead time--a minimum order quantity may apply
Contact for pricing and lead time--a minimum order quantity may apply
Pages
The DVRT-Link™-LXRS® is a specialized node designed for high performance data acquisition from inductive displacement sensors including all of the LORD MicroStrain® DVRT sensors.
Product Highlights
- Designed for a wide range of inductive displacement sensors including all LORD MicroStrain DVRTs
- Wireless technology and a rechargeable battery make the DVRT-Link®-LXRS® ideal for remote, long-term monitoring of micro-miniature displacement measurements.
- User-programmable sample rates up to 4096 Hz
- Simultaneously transmit real-time data and log to memory
Designed for ease of use and general versatility, this printed circuit card provides complete temperature compensated conditioning for any sensors. The DEMOD-DVRT® -TC utilizes both alternating current and direct current excitation of the sensor’s inductive bridge to accurately measure position in the face of temperature gradients. Each card contains the requisite components to facilitate plug-and-play use, including active, jumper selectable low pass filters, input supply line filters with reverse input protection, and output line buffers. The DEMOD-DVRT® -TC sine wave excitation and synchronous demodulator provide excellent noise rejection and elimination of thermally induced potentials.
DatasheetThe DEMOD-DC in-line signal conditioner makes LVDT sensors as easy to use as a potentiometer. With integral signal conditioning electronics, simply connect power, ground, and analog out, and the DEMOD-DC outputs a buffered, high-frequency response voltage proportional to linear position. During the manufacturing process the analog output voltage is digitally trimmed, ensuring every LVDT’s offset and gain values produce optimal system output accuracy. The DEMOD-DC provides internal power regulation and reverse polarity protection and operates with a wide range of input voltages.
THIS PRODUCT HAS BEEN DISCONTINUED AND IS NO LONGER AVAILABLE FOR PURCHASE.
DatasheetIdeal for difficult sensing applications, the Non-Contact LVDT measures the displacement and proximity of a customer-supplied metal target without physical contact. The measurement is unaffected by interposed nonmetallic, non-conductive materials, such as polymers and biomaterials. The stainless shell houses two coils; one for sensing and one for temperature compensation. This assembly is potted into the stainless housing using high-grade, vacuum-pumped epoxy and includes integral strain relief. This packaging allows the sensor to be used in applications requiring long-term immersion in water or saline solutions.
DatasheetDesigned specifically for tight spaces, this small LVDT delivers high performance in a small package with longer stroke lengths than are available in the M-Series. Precision-machined components provide a smooth static and dynamic response. Pair with a MicroStrain signal conditioner and optimize for a high bandwidth/response rate or resolution with low temperature drift. Extremely lightweight, spring-loaded cores are small, yet rugged. Corrosion-resistant alloys provide structural integrity and allow submersion of the instrument.
THIS PRODUCT HAS BEEN DISCONTINUED AND IS NO LONGER AVAILABLE FOR PURCHASE.
DatasheetDesigned specifically for tight spaces, this small LVDT delivers high performance in a small package with longer stroke lengths than our M-Series. Precision-machined components provide a smooth static and dynamic response. Pair with a MicroStrain signal conditioner and optimize for a high bandwidth/response rate or resolution with low temperature drift. Extremely lightweight, spring-loaded cores are tiny, yet rugged. Superelastic, corrosion-resistant alloys provide resistance to kinking and permanent deformation and allow for submersion of the instrument.
THIS PRODUCT HAS BEEN DISCONTINUED AND IS NO LONGER AVAILABLE FOR PURCHASE.
DatasheetDesigned specifically for tight spaces, our smallest LVDT delivers high performance in a miniature package. Precision-machined components provide a smooth static and dynamic response. Pair with a MicroStrain signal conditioner and optimize for a high bandwidth/response rate or resolution with low temperature drift. Extremely lightweight, spring-loaded cores are tiny, yet rugged. Superelastic, corrosion-resistant alloys provide resistance to kinking and permanent deformation and allow for submersion of the instrument.
THIS PRODUCT HAS BEEN DISCONTINUED AND IS NO LONGER AVAILABLE FOR PURCHASE.
DatasheetDesigned specifically for tight spaces, our smallest LVDT delivers high performance in a miniature package. Precision-machined components provide a smooth static and dynamic response. Pair with a MicroStrain signal conditioner and optimize for a high bandwidth/response rate or resolution with low temperature drift. Extremely lightweight, spring-loaded cores are tiny, yet rugged. Superelastic, corrosion-resistant alloys provide resistance to kinking and permanent deformation and allow for submersion of the instrument.
THIS PRODUCT HAS BEEN DISCONTINUED AND IS NO LONGER AVAILABLE FOR PURCHASE.
DatasheetThe V-Link® -LXRS® is a versatile seven channel analog wireless sensor node with high sample rates and datalogging capability.
Product Highlights
- Four differential and three single-ended analog input channels and an internal temperature sensor
- Ideal for remote and long term measurement of many Wheatstone bridge and analog-type sensors including: strain, force, torque, pressure, acceleration, vibration, magnetic field, displacement and geophones
- Supports continuous, burst, and event-triggered sampling and datalogging to internal memory
- l User-programmable sample rates up to 10 KHz
- l IP65/66 environmental enclosures available
MicroStrain’s SensorCloud™ is a unique sensor data storage, visualization and remote management platform that leverages powerful cloud computing technologies to provide excellent data scalability, rapid visualization, and user programmable analysis. Originally designed to support long-term deployments of MicroStrain wireless sensors, SensorCloud now supports any web-connected third party device, sensor, or sensor network through a simple OpenData API.
- Core SensorCloud features include: Virtually unlimited data storage with triple-redundant reliability, ideal for collecting and preserving long-term sensor data streams
- Time series visualization & graphing tool with exceptionally fast response, allows viewers to navigate through massive amounts of data, and quickly zero in on points of interest
- MathEngine® feature allows users to quickly develop and deploy data processing and analysis apps that live alongside their data in the cloud
- Flexible SMS and email alert scripting features helps users to create meaningful and actionable alerts.
To sign up for a free account, click here.
Overview
SensorCloud is useful for a 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’s 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.
Datasheet ManualPages
Wireless Simplicity, Hardwired Reliability
High Performance
- Node-to-node synchronization up to ±32 microseconds
- Scalable, long range wireless sensor networks up to 2 km
- Lossless data throughput under most operating conditions
Ease of Use
- Low power consumption allows extended use.
- Remotely configure nodes, acquire and view sensor data with Node Commander®.
- Optional web-based SensorCloud™ interface optimizes data storage, viewing, and analysis.
- Easy integration via comprehensive SDK
Cost Effective
- Out-of-the box wireless sensing solution reduces development and deployment time.
- Volume discounts
High Performance
- Temperature compensated signal conditioning
- Precision synchronous demodulation
- Rapid warm-up time
Ease of Use
- Plug-and-play with LORD MicroStrain® motherboards
- Compatible with all LORD MicroStrain® DVRT sensors
- Adjustable trimmers to set resolution range
Ease of Implementation
- Out-of-the-box use with all standard LORD MicroStrain® DVRT® sensors
- Miniature body for embedded and space restricted applications
- Identical performance between units for quick scaling
High Performance
- High dynamic range for difficult measurements
- Ready for use with LORD MicroStrain® wireless sensor network
High Performance
- Sub-micron resolution with large stroke/size ratio
- High dynamic range for difficult measurements
Ease of Use
- Non-contact position measurement
- Plug and play usability
- Easily customized to suit specific requirements
- Signal conditioning options for any application
High Performance
- Micron resolution with large stroke/size ratio
- Gauging pin enables measurement on moving parts
- Frictionless design for robust use over millions of cycles
- Suitable for use in harsh fluids and environments
Ease of Use
- Plug and play usability
- Easily customized to suit specific requirements
- Signal conditioning options for any application
High Performance
- Sub-micron resolution with large stroke/size ratio
- Frictionless design for robust use over millions of cycles
- Suitable for use in harsh fluids and environments
- High dynamic range for difficult measurements
Ease of Use
- Plug and play usability
- Easily customized to suit specific requirements
- Signal conditioning options for any application
High Performance
- Micron resolution with large stroke/size ratio
- Gauging pin enables measurement on moving parts
- Frictionless design for robust use over millions of cycles
- Suitable for use in harsh fluids and environments
Ease of Use
- World’s smallest linear displacement sensor
- Plug and play usability
- Easily customized to suit specific requirements
- Signal conditioning options for any application
High Performance
- Micron resolution with large stroke/size ratio
- Frictionless design for robust use over millions of cycles
- Suitable for use in harsh fluids and environments
Ease of Use
- World’s smallest linear displacement sensor
- Plug and play usability
- Easily customized to suit specific requirements
- Signal conditioning options for any application
Wireless Simplicity, Hardwired Reliability
High Performance
- Node-to-node synchronization up to ±32 microseconds
- High resolution data with 16-bit A/D converter
- Scalable, long range wireless sensor networks up to 2 km
- Lossless data throughput under most operating conditions
Ease of Use
- Rapid deployment with wireless framework
- Event driven triggers for efficient monitoring
- Remotely configure nodes, acquire and view sensor data with Node Commander®.
- Optional web-based SensorCloud™ interface optimizes data storage, viewing, and analysis.
- Easy integration via comprehensive SDK
Cost Effective
- Reduction of costs associated with wiring
- Low-cost per channel with 7 input channels per node
Key features of SensorCloud include:
- OpenData API: Allows users to securely upload sensor data from any web-connected source or platform, and download selected or entire sets of data
- FastGraph: Time series visualization & graphing tool with exceptionally fast response allows viewers to navigate through massive amounts of data, and quickly zero in on points of interest
- Custom Alerts: Flexible SMS and email alert scripting features helps users to create meaningful and actionable alerts
- LiveConnect: Allows remote configuration, viewing, and record high speed data streams from any wireless sensor cluster on your Ethernet network in real-time
- MathEngine: Enables users to quickly develop and deploy data processing and analysis apps that live alongside their data in the cloud
Pages
|
General |
|
|---|---|
|
Sensor input channels |
Inductive displacement sensor,1 channel |
|
Integrated sensors |
Internal temperature, 1 channel |
|
Data storage capacity |
2 M bytes (up to 1,000,000 data points, data type dependent) |
|
Displacement Sensor Input |
|
|
Sensor excitation |
Regulated sine wave, 150 kHz standard (other frequency options available) |
|
Low-pass filter |
250 Hz standard (factory configurable 10 Hz – 20 kHz) |
|
Resolution |
12 bit |
|
Signal-to-noise ratio |
1,000 to 1 typical (factory calibrated with DVRT® sensor) |
|
Integrated Temperature Channel |
|
|
Measurement Range |
-40 °C to 85 °C |
|
Accuracy |
± 2 °C (at 25 °C) typical |
|
Sampling |
|
|
Sampling modes |
Synchronized, low duty cycle, datalogging |
|
Sampling rates |
Continuous sampling: 1 sample/hour to 512 Hz Periodic burst sampling: 32 Hz to 4096 Hz Datalogging: 32 Hz to 4096 Hz |
|
Sample rate stability |
± 3 ppm |
|
Network capacity |
Up to 2000 nodes per RF channel (and per gateway) depending on the number of active channels and sampling settings. Refer to the system bandwidth calculator: http://www.microstrain.com/configure-your-system |
|
Synchronization between nodes |
± 32 μsec |
|
Operating Parameters |
|
|
Radio frequency (RF) transceiver carrier |
2.405 to 2.470 GHz direct sequence spread spectrum over 14 channels, license-free worldwide, radiated power programmable from 0 dBm (1 mW) to 16 dBm (39 mW); low power option available for use outside the U.S.A.- limited to 10 dBm (10 mW) |
|
RF communication protocol |
IEEE 802.15.4 |
|
Range for bi-directional RF link |
70 m to 2 km line of sight with RF power setting |
|
Power source |
Internal: 3.7 V dc, 250 mAh rechargeable Lithium polymer battery External: 3.2 V dc to 9.0 V dc |
|
Power consumption |
See power profile : http://files.microstrain.com/DVRT-Link- LXRS-Power-Profile.pdf |
|
Operating temperature |
-20 ˚C to + 60 ˚C (extended temperature range available with custom battery and enclosure, -40 ˚C to + 85 ˚C electronics only) |
|
Maximum acceleration limit |
500 g standard (high g option available) |
|
Physical Specifications |
|
|
Dimensions |
61 mm x 61 mm x 27 mm |
|
Weight |
58 grams |
|
Enclosure material |
ABS plastic |
|
Integration |
|
|
Compatible gateways |
All WSDA® base stations and gateways |
|
Compatible sensors |
All LORD MicroStrain DVRT® sensors. Other inductive displacement transducers possible (contact LORD MicroStrain Technical Support) |
|
Connectors |
LORD MicroStrain DVRT® sensor connector |
|
Sensor warm-up time |
30 seconds recommended |
|
Software |
SensorCloud™, Node Commander®, WSDA® Data Downloader, Live Connect™, Windows XP/Vista/7 compatible |
|
Software development |
Open-source MicroStrain Communications Library (MSCL) with sample code available in C++,Python,and.NET formats (OS and computing platform independent): http://lord-microstrain.github.io/MSCL/ |
|
Regulatory compliance |
FCC (U.S.), IC (Canada), ROHS |
Compensates for a temperature gradient across the sensor
|
Sensor types |
inductive (DVRT®) |
|
Excitation |
regulated sinewave, 70 KHz typical |
|
Demodulation |
synchronous, DC output |
|
Output |
± 4.5 volts typical |
|
Gain |
factory adjustable 10-10,000 |
|
Low pass filter |
2 pole, active Butterworth, 3 dB down @ 1 KHz standard; factory adjustable 10 Hz-8 Khz |
|
Supply voltage |
motherboard supplies power (typical), ± 6.5 volts min, ± 16 volts max (when used without motherboard) |
|
Supply current |
30 milliamps per rail |
|
Warm-up time |
15 minutes recommended |
|
Operating temperature |
-40 to 85˚C |
|
PC board size |
120mm x 48mm x 20mm (thick) |
|
Connectors |
10 pin, .1" pitch header (power, ground); LEMO 4 pin receptacle (bridge points); BNC (analog output) |
|
Trimmers |
offset (std.) |
Signal Conditioner
- Sensor Types: Parker LORD inductive LVDT (formerly DVRT®) sensors
- Excitation: Regulated sinewave, 150 kHz standard (other frequencies available on request)
- Demodulation: Asynchronous, DC output
- Gain: Factory adjustable from 10 to 10,000
- Low-Pass Filter: 2 Pole, 3dB down @ 800Hz standard, factory adjustable 10Hz to 20kHz for higher bandwidth (lower resolution) or higher resolution (lower bandwidth)
Operation
- 0 to 5V typical, digitally trimmed
- Unique calibration curves provided with each unit for optimal accuracy
- Supply Voltage: +6 to +16 VDC
- Supply Current: 22 mA typical (~15 mA when modified for use with V-Link-200 wireless node)
- Warm-Up Time: 30 seconds recommended
Package
- Operating Tempurature: -40 to +85°C
- Enclosure Size: 65.7mm x 19.9mm x 8.3mm
- Connector:
- Interface: micro-D (MIL-C-83513/5) mating connector included for power supply, ground, analog output
- Sensor: 4-pin PEEK LEMO connector
- Weight: 12g
Sensor
- 1.0, 2.5 millimeter calibrated stroke ranges available
- Accurate output: up to +/-0.2% FS with included non-linear calibration
- Balanced coil inherently temperature compensated
- Offset: 0.0029% FS/°C (typical)
- Span: 0.030% FS/°C (typical)
Operation
- Designed for use with LORD high performance signal conditioners
- Analog outputs (Demod-DC, Demod-DVRT-2):
- 0-5V, 0-10V
- 800 Hz bandwidth (typical), factory adjustable 10hz to 20kHz for higher bandwidth (lower resolution) or higher resolution (lower bandwidth)
- Unique calibration curves provided with each unit for optimal accuracy
- Digital Outputs (Demod-DIGITAL)
- High resolution, linearized, engineering unit output
- 10Hz bandwidth, 100 samples/sec
- RS232 serial communications
- 24-bit A/D
- SensorConnect display and data logging software
Package
- 316 SST body material (400 series option)
- 3.8x19, 10.7x19 millimeter (diameter x length) Sensor Body
- 1.8mm diameter Teflon-coated cable
- -55°C to 175°C operating temperature range
Sensor
- Sub-millimeter to ±19 millimeter calibrated stroke ranges available
- High stroke to body length ratio: typically 1:6
- Accurate output: up to +/-0.1% FS with included calibration
- Balanced coil inherently temperature compensated
- Offset: 0.0029% FS/°C (typical)
- Span: 0.030% FS/°C (typical)
Operation
- Designed for use with LORD high performance signal conditioners
- Analog outputs (Demod-DC, Demod-DVRT-2):
- 0-5V, 0-10V
- 800 Hz bandwidth (typical), factory adjustable 10hz to 20kHz for higher bandwidth (lower resolution) or higher resolution (lower bandwidth)
- Unique calibration curves provided with each unit for optimal accuracy
- Digital Outputs (Demod-DIGITAL)
- High resolution, linearized, engineering unit output
- 10Hz bandwidth, 100 samples/sec
- RS232 serial communications
- 24-bit A/D
- SensorConnect display and data logging software
Package
- 316 SST body material (400 series option)
- 316 SST Core Material
- 6mm diameter sensor body
- 1mm diameter Teflon-coated cable
- Spring-loaded (extended), captured core
- -55°C to 175°C operating temperature range
Sensor
- Sub-millimeter to ±19 millimeter calibrated stroke ranges available
- High stroke to body length ratio: typically 1:3
- Accurate output: up to +/-0.1% FS with included calibration
- Balanced coil inherently temperature compensated
- Offset: 0.0029% FS/°C (typical)
- Span: 0.030% FS/°C (typical)
Operation
- Designed for use with LORD high performance signal conditioners
- Analog outputs (Demod-DC, Demod-DVRT-2):
- 0-5V, 0-10V
- 800 Hz bandwidth (typical), factory adjustable 10hz to 20kHz for higher bandwidth (lower resolution) or higher resolution (lower bandwidth)
- Unique calibration curves provided with each unit for optimal accuracy
- Digital Outputs (Demod-DIGITAL)
- High resolution, linearized, engineering unit output
- 10Hz bandwidth, 100 samples/sec
- RS232 serial communications
- 24-bit A/D
- SensorConnect display and data logging software
Package
- 316 SST body material (400 series option)
- 316 SST Core Material
- 4.8mm diameter sensor body
- 1.8mm diameter Teflon-coated cable
- -55°C to 175°C operating temperature range
Sensor
- Sub-millimeter to ±4.5 millimeter calibrated stroke ranges available
- High stroke to body length ratio: typically 1:6
- Accurate output: up to +/-0.1% FS with included calibration
- Balanced coil inherently temperature compensated
- Offset: 0.0029% FS/°C (typical)
- Span: 0.030% FS/°C (typical)
Operation
- Designed for use with LORD high performance signal conditioners
- Analog outputs (Demod-DC, Demod-DVRT-2):
- 0-5V, 0-10V
- 800 Hz bandwidth (typical), factory adjustable 10hz to 20kHz for higher bandwidth (lower resolution) or higher resolution (lower bandwidth)
- Unique calibration curves provided with each unit for optimal accuracy
- Digital Outputs (Demod-DIGITAL)
- High resolution, linearized, engineering unit output
- 10Hz bandwidth, 100 samples/sec
- RS232 serial communications
- 24-bit A/D
- SensorConnect display and data logging software
Package
- 316 SST body material (400 series option)
- Super elastic NiTi alloy core material
- 1.8mm diameter sensor body
- 1mm diameter Teflon-coated cable
- Spring-loaded (extended), captured core
- -55°C to 175°C operating temperature range
Sensor
- Sub-millimeter to ±4.5 millimeter calibrated stroke ranges available
- High stroke to body length ratio: typically 1:3
- Accurate output: up to +/-0.1% FS with included calibration
-
Balanced coil inherently temperature compensated
- Offset: 0.0029% FS/°C (typical)
- Span: 0.030% FS/°C (typical)
Operation
- Designed for use with LORD high performance signal conditioners
- Analog outputs (Demod-DC, Demod-DVRT-2):
- 0-5V, 0-10V
- 800 Hz bandwidth (typical), factory adjustable 10hz to 20kHz for higher bandwidth (lower resolution) or higher resolution (lower bandwidth)
- Unique calibration curves provided with each unit for optimal accuracy
- Digital Outputs (Demod-DIGITAL)
- High resolution, linearized, engineering unit output
- 10Hz bandwidth, 100 samples/sec
- RS232 serial communications
- 24-bit A/D
- SensorConnect display and data logging software
Package
- 316 SST body material (400 series option)
- Super elastic NiTi alloy core material
- 1.5mm diameter sensor body
- 1mm diameter Teflon-coated cable
- -55°C to 175°C operating temperature range
| General | |
|---|---|
|
Sensor input channels |
Differential analog, 4 channels Single-ended analog, 3 channels |
|
Integrated sensors |
Internal temperature, 1 channel |
|
Data storage capacity |
4 M bytes (up to 2,000,000 data points, data type dependent) |
| Analog Input Channels | |
|
Measurement range |
Differential: full-bridge, ≥ 350 Ω (factory configurable) Single-ended: 0 to 3 V dc |
|
Accuracy |
± 0.1% full scale typical |
|
Resolution |
16 bit |
|
Anti-aliasing filter bandwidth |
Single-pole Butterworth -3 dB cutoff @ 250 Hz (factory configurable) |
|
Bridge excitation voltage |
+3 V dc, 50 mA total for all channels (pulsed @ sample rates ≤ 16 Hz to conserve power) |
|
Measurement gain and offset |
User-selectable in software on differential channels gain values from 21 to 13074 |
| Integrated Temperature Channel | |
|
Measurement range |
-40 °C to 85 °C |
|
Accuracy |
± 2 °C (at 25 °C) typical |
|
Resolution |
16 bit |
| Sampling | |
|
Sampling modes |
Synchronized, low duty cycle, datalogging, event-triggered |
|
Sampling rates |
Continuous sampling: 1 sample/hour to 512 Hz Periodic burst sampling: 32 Hz to 10 KHz Datalogging: 32 Hz to 10 KHz |
|
Sample rate stability |
± 3 ppm |
|
Network capacity |
Up to 2000 nodes per RF channel (and per gateway) depending on the number of active channels and sampling settings. Refer to the system bandwidth calculator: http://www.microstrain.com/configure-your-system |
|
Synchronization between nodes |
± 32 μsec |
| Operating Parameters | |
|
Radio frequency (RF) transceiver carrier |
2.405 to 2.470 GHz direct sequence spread spectrum over 14 channels, license free worldwide, radiated power programmable from 0 dBm (1 mW) to 16 dBm (39 mW); low power option available for use outside the U.S.- limited to 10dBm (10mW) |
|
Range for bi-directional RF link |
Outdoor/line-of-sight: 2 km (ideal) *, 800 m (typical)** Indoor/obstructions: 50 m (typical)** |
|
RF communication protocol |
IEEE 802.15.4 |
|
Power source |
Internal: 3.7 V dc, 650 mAh lithium ion rechargeable battery External: +3.2 to +9.0 V dc |
|
Power consumption |
See power profile : |
|
Operating temperature |
-20 ˚C to + 60 ˚C (extended temperature range available with custom battery/enclosure, -40 ˚C to + 85 ˚C electronics only) |
|
Acceleration limit |
500 g standard (high g option available) |
| Physical Specifications | |
|
Dimensions |
74 mm x 79 mm x 21 mm |
|
Weight |
141 grams |
|
Environmental rating |
Indoor use (IP65/66 enclosures available) |
|
Enclosure material |
Anodized aluminum |
| Integration | |
|
Compatible gateways |
All WSDA® base stations and gateways |
|
Compatible sensors |
Bridge type analog sensors, 0 to 3 V dc analog sensors |
|
Connectors |
Screw terminal block |
|
Shunt calibration |
Internal shunt calibration resistor 499 KΩ, differential channels |
|
Software |
SensorCloud™, Node Commander®, Windows XP/Vista/7 |
|
Software development |
Open-source MicroStrain Communications Library (MSCL) with sample code available in C++,Python,and.NET formats (OS and computing platform independent): http://lord-microstrain.github.io/MSCL/ |
|
Regulatory compliance |
FCC (U.S.), IC (Canada), CE, ROHS |
*Measured with antennas elevated, no obstructions, and no RF interferers.
**Actual range varies depending on conditions such as obstructions, RF interference, antenna height, & antenna orientation.
Pages
General Documentation
- DVRT-Link™-LXRS® Product Datasheet
- DVRT-Link™-LXRS® Quick Start Guide
- Microminiature and Subminiature Gauging DVRT® Quick Start Guide
- Non-Contact DVRT® Quick Start Guide
- Node Commander Wireless Sensing Software User Manual
- Wireless Products Comparison
Technical Notes
- Powering a Wireless Node with Sources Greater Than 9 Volts
- LXRS® Firmware Upgrades
- Outputting a 4 to 20 mA Current Loop
- Wireless Sensor Node Power Profiles
- DVRT-Link™-LXRS® Power Profile
- Battery Use and Replacement
- DVRT-Link™-LXRS® Understanding the Calibration
- Using External Power With Wireless Sensor Nodes
- Synchronized Sampling on Startup
Mechanical Prints (Uncontrolled)
Videos
General Documentation
- DEMOD-DVRT-TC Datasheet
- Microminiature and Subminiature DVRT® Quick Start Guide
- Microminiature and Subminiature Gauging DVRT® Quick Start Guide
- Displacement System Chart
- Motherboard Quick Start Guide
Technical Notes
Mechanical Print (Uncontrolled)
General Documentation
General Documentation
Technical Notes
- LVDT Mounting Basics
- Displacement Temperature Coefficient
- DVRT vs. LVDT Comparison
- Using a Multimeter with the DEMOD-DC®
- LVDT-Link™-LXRS® Understanding the Calibration
- Using the DEMOD-DC® with V-Link®-LXRS™ and SG-Link®-LXRS™
- 1.0 Non-Contact LVDT
- 2.5 Non-Contact LVDT
- LEMO Connector Assembly pdf 6129-0000 CBL1
- LEMO Connector Wiring Diagram
General Documentation
Technical Notes
- LVDT Mounting Basics
- Displacement Temperature Coefficient
- DVRT vs. LVDT Comparison
- Using a Multimeter with the DEMOD-DC®
- LVDT-Link™-LXRS® Understanding the Calibration
- Field Calibration of the Gauging LVDT
- Using the DEMOD-DC® with V-Link®-LXRS™ and SG-Link®-LXRS™
- 4mm stroke Subminiature Gauging LVDT
- 8mm stroke Subminiature Gauging LVDT
- 24mm stroke Subminiature Gauging LVDT
- 38mm stroke Subminiature Gauging LVDT
- LEMO Connector Assembly 6129-0000 CBL1
- LEMO Connector Wiring Diagram
- SG-DVRT-8 Threaded Body
General Documentation
Technical Notes
- LVDT Mounting Basics
- Displacement Temperature Coefficient
- DVRT vs. LVDT Comparison
- Using a Multimeter with the DEMOD-DC®
- LVDT-Link™-LXRS® Understanding the Calibration
- Using the DEMOD-DC® with V-Link®-LXRS™ and SG-Link®-LXRS™
- Subminiature LVDT
- print showing stroke lengths and corresponding body lengths - Threaded subminiature LVDT
- print detailing the threaded body attachment option - Nano resolution LVDT
- print showing the body length of a nano resolution LVDT - 2000-0004 S-TCore-X
- LEMO Connector Assembly pdf 6129-0000 CBL1
- LEMO Connector Wiring Diagram
- 2003-0001 HS-DVRT-6 Dimensional Drawing
General Documentation
Technical Notes
- LVDT Mounting Basics
- Displacement Temperature Coefficient
- LVDT vs. LVDT Comparison
- Using a Multimeter with the DEMOD-DC®
- LVDT-Link-LXRS® Understanding the Calibration
- Field Calibration of the Gauging LVDT
- Using the DEMOD-DC® with V-Link®-LXRS™ and SG-Link®-LXRS™
- 6103-0000 MG- LVDT-3
- 6103-0100 MG- LVDT-6
- 6103-0200 MG- LVDT-9
- MG-DVRT-X
- MG-TBODY-X with MG-DVRT-X
- LEMO Connector Assembly pdf 6129-0000 CBL1
- LEMO Connector Wiring Diagram
- MG- LVDT Ball Tip
General Documentation
- V-Link®-LXRS® Product Manual
- V-Link®-LXRS® Product Datasheet
- V-Link®–LXRS® Quick Start Guide
- V-Link®-LXRS® Document of Conformity
- Node Commander Wireless Sensing Software User Manual
- Wireless Products Comparison
Technical Notes
- Powering a Wireless Node with Sources Greater Than 9 Volts
- High Cycle Vibration and Function Test
- Event Driven Sampling
- Measuring Voltages Above 3 Volts with V-Link®-LXRS®
- LXRS® Firmware Upgrades
- Using a 4 to 20 mA Pressure Transducer
- Control a Relay with a Wireless Node
- Measuring Small Current
- Measuring Small Voltages
- Outputting a 4 to 20 mA Current Loop
- Using Pressure Transducers
- Battery Use and Replacement
- V-Link®-LXRS® 350 Ohm Tester Board
- V-Link®-LXRS® 1000 Ohm Tester Board
- V-Link®-LXRS® Pin Assignments
- Using the 50g, 100g, 200g or 500g Triaxial Accelerometer Cube
- IP and NEMA Rated Enclosures for Wireless Nodes
- Calculating a Linear Slope with Microsoft Excel®
- Using a Load Cell with V-Link®-LXRS™ and SG-Link®-LXRS®
- V-Link®-LXRS® Power Profile
- Wireless Sensor Node Power Profiles
- Using External Power With Wireless Sensor Nodes
- Using the DEMOD-DC® with V-Link®-LXRS® and SG-Link®-LXRS®
- Synchronized Sampling on Startup
- Distance Measurement with an IR Sensor
- Using Differential Inputs for a RTD
Mechanical Drawings (Uncontrolled)
- V-Link®–LXRS® Dimensional Drawing
- 6313-3100 V-Link-IP66-XL-ENCL
- 6313-3100 IP66/NEMA4X Enclosure for V-Link®-LXRS® (2 batteries)
Videos
Pages
Software
- SensorConnect Data Acquisition Software (beta)
- Node Commander Data Acquisition Software
- MicroStrain Communication Library (MSCL)
- Software Systems Overview (link)
- SensorCloud Overview (link)
- MicroStrain SDK LabView Examples (legacy)
Firmware
Mechanical
There are no downloads for this product.
Software/Firmware
There are no software or firmware downloads for this product at this time.
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- Microminiature LVDT (2D)
- Microminiature LVDT threaded core (2D)
- Microminiature LVDT threaded body (2D)
- LEMO Connector/Cable Drawing (2D)
- M-LVDT-3 6101-0100 STP file
- M-LVDT-6 6101-0200 STP file
- M-LVDT-9 6101-0300 STP file
- M-TBODY-3 6102-0800 STP file
- M-TBODY-6 6102-0900 STP file
- M-TBODY-9 6102-1000 STP file
Software
- SensorConnect Data Acquisition Software (beta)
- Node Commander Data Acquisition Software
- MicroStrain Communication Library (MSCL)
- Software Systems Overview (link)
- SensorCloud Overview (link)
- MicroStrain SDK LabView Examples (legacy)
Firmware
Pages
Contact Sales
Please use the form below to contact us or call 802 862 6629.
