The LORD MicroStrain® ENV-Link™ -Pro -LXRS® is a ruggedized environmental sensing node with inputs for two thermocouples, four single-ended 0 - 5 V sensors, and a relative humidity and temperature sensor (RHT).
Product Highlights
- Inputs for two thermocouples, four single-ended 0 to 5 V dc sensors, and a relative humidity/temperature (RHT) sensor
- Ideal for remote, long-term environmental monitoring including; measurements of solar irradiance, temperature, relative humidity, soil moisture, leaf wetness, precipitation, wind speed and direction, water level, barometric pressure, conductivity, strain, and more
- Simultaneously transmit real-time data and log to memory.
- Sealed IP67 enclosure for use outdoors and in harsh environments
LORD MicroStrain® LXRS® Wireless Sensor Networks enable simultaneous, high-speed sensing and data aggregation from scalable sensor networks. Our wireless sensing systems are ideal for sensor monitoring, data acquisition, performance analysis, and sensing response applications.
The gateways are the heart of the LORD MicroStrain wireless sensing system. They coordinate and maintain wireless transmissions across a network of distributed wireless sensor nodes . The LORD MicroStrain LXRS wireless communication protocol between LXRS nodes and gateways enable highspeed sampling, ±32 microseconds node- to- node synchronization, transmission range up to 2 kilometers, and lossless data throughput under most operating conditions.
Users can easily program nodes for data logging, continuous, and periodic burst sampling with the Node Commander ® software. The web- based SensorCloud™ interface optimizes data aggregation, analysis, presentation, and alerts for gigabytes of sensor data from remote networks.
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
High Performance
- Node-to-node sampling synchronization up to ±32 microseconds
- High resolution data with 24-bit A/D converter
- Scalable, long range wireless sensor networks up to 1 km
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, alerts, and analysis.
- Easy custom integration with comprehensive SDK
Cost Effective
- Out-of-the box wireless sensing solution reduces development and deployment time
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 |
Thermocouple inputs, 2 channels 0 to 5 V dc inputs,4 channels RHT sensor input, 1 channel each (temperature and humidity), integrated sensor optional |
Data storage capacity |
2 M bytes (up to 500,000 data points) |
Thermocouple inputs |
|
Measurement range |
-210 °C to 1820 °C (depending on the thermocouple type) |
Accuracy |
± 0.1 % FSO or ± 2 °C (not including error from sensor or wire) |
Resolution |
0.0625 °C, 24 bit |
Repeatability |
± 0.1 °C (does not include error from sensor or wire) |
0 to 5 V DC inputs |
|
Measurement range |
0 to 5 V dc |
Accuracy |
0.01 % typical (absolute accuracy) |
Resolution |
24 bit |
Sensor excitation |
2 or 3 V dc (user selectable) |
Relative Humidity and Temperature (RHT) Sensor Input |
|
Measurement range |
0 to 100 % RH, -40 °C to 123 °C |
Accuracy (RH) |
± 2 % (10 to 90 % RH), ± 4 % ( 0 to 10% RH and 90 to 100% RH) |
Accuracy (temperature) |
± 0.3 °C typical |
Resolution |
14 bit |
Sampling |
|
Sampling modes |
Synchronized, low duty cycle, datalogging |
Sampling rates |
1 sample/hour to 2 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) |
RF communication protocol |
IEEE 802.15.4 |
RF range |
70 m to 1 km line of sight with RF power setting |
Power source |
Internal: rechargeable 3.6 V dc, 740 mAh Lithium ion battery (standard), or size D-cell 3.6 V dc Lithium thionyl chloride battery (optional); External: 3.3 V dc to 9.0 V dc |
Operating temperature |
-20 ˚C to + 60 ˚C (with rechargeable Lithium ion battery) -40 ˚C to + 85 ˚C (electronics only) |
Physical Specifications |
|
Dimensions |
140 mm x 140 mm x 101 mm |
Weight |
1360 grams |
Environmental rating |
IP67 |
Enclosure material |
Fiberglass reinforced polyester |
Integration |
|
Compatible gateways |
All WSDA® base stations and gateways |
Compatible sensors |
Thermocouple inputs: all types 0 to 5 V dc inputs: pyranometers, photosynthetic photon flux, soil moisture, and leaf wetness sensors (all available from LORD MicroStrain® ), thermocouples, rain and strain gauges, anemometers, and other 0 to 5 V dc sensors RHT input: LORD MicroStrain® RHT sensor, others may work but have not been tested, RHT sensor integration optional |
Connectors |
Water-tight cable seals with terminal blocks inside enclosure |
Software |
SensorCloud™, Node Commander®, WSDA® Data Downloader, Live Connect™, Windows XP/Vista/7 compatible |
Software development kit (SDK) |
Data communications protocol available with EEPROM maps and sample code (OS and computing platform independent) http://www.microstrain.com/wireless/sdk |
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
- ENV-Link™-Pro-LXRS® Datasheet
- ENV-Link™-Pro -LXRS® Sensors Datasheet
- Node Commander Wireless Sensing Software User Manual
- MicroStrain Wireless Sensor Networks LXRS™ Data Communications Protocol
- Wireless Products Comparison
Software Development Kit
Technical Notes
- LXRS® Firmware Upgrades
- Outputting a 4 to 20 mA Current Loop
- Battery Use and Replacement
- Synchronized Sampling on Startup
FAQ's
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