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
The SG-Link® -LXRS® is a small, low-power, two-channel analog input sensor node with many sampling options.
Product Highlights
- One differential and one single-ended analog input channel 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
- User-programmable sample rates up to 4096 Hz
- IP65/66 environmental enclosures available
The SG-Link®-OEM-LXRS® is a small, wireless, low-cost, extended range, two-channel analog input sensor node ready for OEM integration.
Product Highlights
- One differential and one single-ended analog input channel 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
- User-programmable sample rates up to 4096 Hz
- Comprehensive SDK and OEM form factor for rapid integration
- Simultaneously transmit real-time data and log to memory
The 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
The SG-Link® -RGD -LXRS® ia a versatile, ruggedized four-channel analog sensor node with integrated triaxial accelerometer.
Product Highlights
- Four analog input channels, integrated three-axis accelerometer, and an internal temperature sensor
- Integrated strain sensor signal conditioning, embedded processing, and environmentally hardened form factor ideal for permanently mounting over strain gauges
- Supports conventional bonded foil, piezoelectric-resistive, Wheatstone bridge, and modular Columbia Research
- Labs-type strain gauges
- Integrated triaxial accelerometer with MEMS technology and +/- 16 g range
- User-programmable sample rates up to 4096 Hz
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
Wireless Simplicity, Hardwired Reliability
High Performance
- 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
- 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
Wireless Simplicity, Hardwired Reliability
High Performance
- 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
- Low power consumption allows extended use.
- Wide range of sample rates and duty cycles
- Optional web-based SensorCloud™ interface optimizes data storage, viewing, and analysis.
Cost Effective
- Out-of-the box wireless sensing solution reduces development and deployment time.
- Volume discounts
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
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
Ease of Use
- Flex bonding cable and node form factor allow quick installation over existing strain gauges
- Low profile, environmentally sealed enclosure
- On-board shunt calibration
Cost Effective
- Reduction of costs associated with wiring
- Out-of-the box wireless sensing solution reduces development and deployment time.
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 |
General |
|
---|---|
Sensor input channels |
Differential analog, 1 channel Single-ended analog, 1 channel |
Integrated sensors |
Internal temperature, 1 channel |
Data storage capacity |
2 M bytes (up to 1,000,000 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 |
12 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 104 to 1800 |
Integrated Temperature Channel |
|
Measurement range |
-40 °C to 85 °C |
Accuracy |
± 2 °C (at 25 °C) typical |
Resolution |
12 bit |
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.- limited to 10dBm (10mW) |
Range for bi-directional RF link |
70 m to 2 km line of sight with RF power setting |
RF communication protocol |
IEEE 802.15.4 |
Power source |
Internal: 3.7 V dc, 250 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 |
58 mm x 50 mm x 21 mm |
Weight |
42 grams |
Environmental rating |
Indoor use (IP65/66 enclosures available) |
Enclosure material |
ABS plastic |
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 channel |
Software |
SensorCloud™, SensorConnect™, Node Commander®, Windows 7 (or newer) |
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 |
General |
|
---|---|
Sensor input channels |
Differential analog, 1 channel Single-ended analog, 1 channel |
Integrated sensors |
Internal temperature, 1 channel |
Data storage capacity |
2 M bytes (up to 1,000,000 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 |
12 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 104 to 2560 |
Integrated Temperature Channel |
|
Measurement range |
-40 °C to 85 °C |
Accuracy |
± 2 °C (at 25 °C) typical |
Resolution |
12 bit |
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.- limited to 10dBm (10mW) |
Range for bi-directional RF link |
70 m to 2 km line of sight with RF power setting |
RF communication protocol |
IEEE 802.15.4 |
Power source |
External: +3.2 to +9.0 V dc (9 V dc alkaline battery provided) |
Power consumption |
See power profile : http://files.microstrain.com/SG-Link-OEM- LXRS-Power-Profile.pdf |
Operating temperature |
-40 ˚C to + 85 ˚C (excluding 9 V battery) |
Acceleration limit |
500 g standard (high g option available) |
MTBF | 1,300,000 hours (Telcordia method, SR332) |
Physical Specifications |
|
Dimensions |
56 mm x 20 mm x 6 mm |
Weight |
7 grams |
Integration |
|
Compatible gateways |
All WSDA® base stations and gateways |
Compatible sensors |
Bridge type analog sensors, 0 to 3 V dc analog sensors |
Connectors |
Solder pads or screw terminal connector |
Shunt calibration |
Internal shunt calibration resistor 499 KΩ, differential channel |
Software |
SensorCloud™, SensorConnect™, Node Commander®, Windows 7 (or newer) |
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 |
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.
General | |
---|---|
Sensor input channels |
Differential analog, 4 channels |
Integrated sensors |
Triaxial MEMS accelerometer, 3 channels Internal temperature, 1 channel |
Data storage capacity |
2 M bytes (up to 1,000,000 data points, data type dependent) |
Analog Input Channels | |
Measurement range |
Differential: full-bridge, ≥ 350 Ω (factory configurable) |
Accuracy and resolution |
± 0.1% full scale typical, 16 bit resolution |
Anti-aliasing filter bandwidth |
Single-pole Butterworth -3 dB cutoff @ 250 Hz |
Bridge excitation voltage |
+2.7 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 104 to 1800 |
Integrated Accelerometer Channels | |
Measurement range |
± 16 g |
Accuracy and resolution |
± 4 mg, 13 bit resolution |
Integrated Temperature Channel | |
Measurement range |
-40 °C to 85 °C |
Accuracy and resolution |
± 2 °C (at 25 °C) typical, 16 bit resolution |
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.- limited to 10dBm (10mW) |
Range for bi-directional RF link |
70 m to 2 km line of sight with RF power setting |
RF communication protocol |
IEEE 802.15.4 |
Power source |
Replaceable 3.7 V dc, 1.7 Ah Tadiran TL-5935 1/6 D-cell battery |
Power consumption |
960 uA ( 3.46 mW) @ 3.6 V dc, 32 HZ, 3 ch, no duty cycling 10.6 mA (38.16 mW) @ 3.6 V dc, 256 Hz, 3 ch, no duty cycling 4.0 mA (14.4 mW) @ 3.6 V dc, 256 Hz, 1 ch, no duty cycling |
Operating temperature |
-40 ˚C to + 85 ˚C |
Acceleration limit |
500 g standard (high g option available) |
Physical Specifications | |
Dimensions |
101 mm x 46 mm x 26 mm |
Weight |
150 g (including battery) |
EMI/EMC rating |
MIL-STD-461F |
Enclosure material |
Clear polycarbonate |
Integration | |
Compatible gateways |
All WSDA® base stations and gateways |
Compatible sensors> |
Bridge type analog sensors |
Connectors |
Flex cable terminal/solder pads (flex cable included) |
Shunt calibration |
Internal shunt calibration resistor 499 KΩ, differential channels< |
Software< |
SensorCloud™, SensorConnect™, Node Commander®, Windows 7 (or newer) |
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 |
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
- SG-Link®-LXRS® Product Datasheet
- SG-Link®-LXRS® Quick Start Guide
- SG-Link®-LXRS® User Manual
- Node Commander Wireless Sensing Software User Manual
- Wireless Products Comparison
Technical Notes
- Powering a Wireless Node with Sources Greater Than 9 Volts
- Measuring Voltages Above 3 Volts with SG-Link®-LXRS®
- Using a Load Cell with SG-Link®-LXRS®
- LXRS® Firmware Upgrades
- Control a Relay with a Wireless Node
- Measuring Small Current
- Outputting a 4 to 20 mA Current Loop
- Using Pressure Transducers
- Battery Use and Replacement
- SG-Link® 350 Ohm Tester Board
- SG-Link® 1000 Ohm Tester Board
- IP and NEMA Rated Enclosures for Wireless Nodes
- SG-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
- Differential Analog Input Frequency Response Testing
- Distance Measurement with an IR Sensor
- Using Differential Inputs for a RTD
Mechanical Drawings (uncontrolled)
- SG-Link®-LXRS® Dimensional Drawing
- 6309-3000 SG-Link-IP66-ENCL
- 6309-4000 SG-Link-IP66-XL-ENCL
- 6309-5000 SG-Link-IP65-XXL-ENCL
- 6309-3000 IP66/NEMA4X Enclosure for SG-Link®-LXRS®
- 6309-4000 IP66/NEMA4X Enclosure for SG-Link®-LXRS® (1 battery)
- 6309-5000 IP65/NEMA4X Enclosure for SG-Link®-LXRS® (3 batteries)
Videos
General Documentation
- SG-Link®-OEM-LXRS® Product Datasheet
- SG-Link®-OEM -LXRS® Quick Start Guide
- Node Commander Wireless Sensing Software User Manual
- Wireless Products Comparison
Software Development Kit
Technical Notes
- Powering a Wireless Node with Sources Greater Than 9 Volts
- LXRS® Firmware Upgrades
- Outputting a 4 to 20 mA Current Loop
- SG-Link®-OEM -LXRS® Power Profile
- Using Pressure Transducers
- Battery Use and Replacement
- SG-Link® 350 Ohm Tester Board
- SG-Link® 1000 Ohm Tester Board
- 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
- Measuring Small Currents
Videos
- NC QSG #1 General Communications
- NC QSG #2 Node Configuration
- NC QSG #3 Real-Time Streaming
- NC QSG #4 Legacy Low Duty Cycle
- NC QSG #5 Synchronized Sampling
- NC QSG #6 Armed Data Logging
FAQ's
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
General Documentation
- SG-Link® -RGD -LXRS® Datasheet
- Node Commander Wireless Sensing Software User Manual
- Wireless Products Comparison
Mechanical Drawings (Uncontrolled)
- SG-Link® -RGD -LXRS® Mechanical Drawing
- SG-Link® -RGD -LXRS® Accelerometer Orientation
- SG-Link® -RGD -LXRS® Wiring Diagram
Technical Notes
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
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