Product no longer stocked – limited availability
Contact for pricing and lead time--a minimum order quantity may apply
Product no longer stocked – limited availability
Contact for pricing and lead time--a minimum order quantity may apply
Product no longer stocked – limited availability
Contact for pricing and lead time--a minimum order quantity may apply
Product no longer stocked – limited availability
Contact for pricing and lead time--a minimum order quantity may apply

The 3DM-GX3® -25-OEM is a lower cost, miniature, industrial-grade attitude heading and reference system (AHRS) with integrated magnetometers, and OEM form factor.

Product Highlights

  • High performance integrated MEMS sensor technology provide direct and computed AHRS outputs in a small package.
  • Triaxial accelerometer, gyroscope, magnetometer, and temperature sensors achieve the best combination of measurement qualities.
  • On-board processor runs a sophisticated Complimentary Filter (CF) fusion algorithm for precise attitude estimates and inertial measurements
  • Sampling rates up to 30 KHz and data output up to 1 KHz
  • Small size, lightweight packaging, and header connector interface ideal for OEM integration
Datasheet

Product no longer stocked – limited availability

Contact for pricing and lead time--a minimum order quantity may apply

The 3DM-GX3® -15-OEM is a lower cost, miniature, industrial-grade inertial measurement unit (IMU) and vertical reference unit (VRU) in an OEM form factor.

Product Highlights

  • High performance integrated MEMS sensor technology provide direct and computed IMU and VRU outputs in a small package.
  • Triaxial accelerometer, gyroscope, and temperature sensors achieve the best combination of measurement qualities.
  • On-board processor runs a sophisticated Complimentary Filter (CF) fusion algorithm for precise inclination estimates and inertial measurements
  • Sampling rates up to 30 KHz and data output up to 1 KHz
  • Small size, lightweight packaging, and header connector interface ideal for OEM integration

 

Product no longer stocked – limited availability

Contact for pricing and lead time--a minimum order quantity may apply

Datasheet

The G-Link2™ -LXRS® is a ruggedized wireless sensor node with high-speed sampling and optional integrated three-axis accelerometer or external single-axis accelerometer.

Product Highlights

  • On-board triaxial, or external single axis MEMS accelerometer with up to +/-200 g measurement range
  • Wireless framework is ideal for measuring vibration, and acceleration in remote applications.
  • High resolution data with 16-bit A/D converter
  • >User-programmable sample rates up to 10 KHz
  • Transmit real-time data or log to memory.
  • Small, lightweight IP67 enclosure
Datasheet Manual Software

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
Datasheet Manual Software

Best in Class Performance

  • Fully calibrated, temperature compensated, and mathematically aligned to an orthogonal coordinate system for highly accurate outputs
  • Bias tracking, error estimation, threshold flags, and adaptive noise modeling allow for fine tuning to conditions in each application.

Ease of Use

  • Easy integration via comprehensive SDK
  • Common protocol with the 3DM-GX4® and 3DM-RQ1™ sensor families for easy migration

Cost Effective

  • Out-of-the box solution reduces development time.
  • Volume discounts

Best in Class Performance

  • Fully calibrated, temperature compensated, and mathematically aligned to an orthogonal coordinate system for highly accurate outputs
  • Bias tracking, error estimation, threshold flags, and adaptive noise modeling allow for fine tuning to conditions in each application.

Ease of Use

  • Easy integration via comprehensive SDK
  • Common protocol with the 3DM-GX4® and 3DM-RQ1™ sensor families for easy migration

Cost Effective

  • Out-of-the box solution reduces development time.
  • Volume discounts

Wireless Simplicity, Hardwired Reliability

High Performance

  • Node-to-node synchronization up to ±32 microseconds
  • Scalable, long range wireless sensor networks up to 2 km
  • User-programmable filters for optimized anti-aliasing

Ease of Use

  • Internal or external accelerometer option for installation versatility
  • 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

  • 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

General

Integrated sensors

Triaxial accelerometer, triaxial gyroscope, triaxial magnetometer, and temperature sensors,

Data outputs

Inertial Measurement Unit (IMU) outputs: acceleration, angular rate, magnetic field , deltaTheta, deltaVelocity

Computed outputs: attitude estimates (in Euler angles, quaternion, orientation matrix),

Resolution

16 bit SAR oversampled to 17 bits

Inertial Measurement Unit (IMU) Sensor Outputs

 

Accelerometer

Gyroscope

Magnetometer

Measurement range

±5 g (standard)

±1.7±16, and ±50 g (option)

300°/sec (standard)

±50, ±600,±1200 °/sec (options)

±2.5 Gauss

Non-linearity

±0.1 % fs

±0.03 % fs

±0.4 % fs

Bias instability

±0.04 mg

18°/hr

--

Initial bias error

±0.002 g

±0.25°/sec

±0.003 Gauss

Scale factor stability

±0.05 %

±0.05 %

±0.1 %

Noise density

80 µg/Hz

0.03°/sec/Hz

100

µGauss/Hz

Alignment error

±0.05°

±0.05°

±0.05°

Adjustable bandwidth

225 Hz (max)

440 Hz (max)

230 Hz (max)

IMU filtering

Digitally filtered (user adjustable) and scaled to physical input; coning and sculling integrals computed at 1 kHz

Sampling rate

30 kHz

30 kHz

7.5 kHz

IMU data output rate

1 Hz to 1000 Hz

Computed Outputs

Attitude accuracy

±0.5° roll, pitch, and heading (static, typ), ±2.0° roll, pitch, and heading (dynamic, typ)

Attitude heading range

360° about all axes

Attitude resolution

< 0.01°

Attitude repeatability

0.2° (typ)

Calculation update rate

1000 Hz

Computed data output rate

1 Hz to 500 Hz

Operating Parameters

Communication

USB 2.0, TTL (3.3 V dc, 9,600 bps to 921,600 bps, default 115,200)

Power source

+ 3.1 to + 5.5 V dc

Power consumption

80 mA at 5 V dc (USB)

Operating temperature

-40 °C to +70 °C

Mechanical shock limit

500 g

Physical Specifications

Dimensions

38 mm x 24 mm x 11.6 mm

Weight

11.6 grams

Regulatory compliance

ROHS

Integration

Connectors

Data/power output: Samtec FTSH Series

(FTSH-105-01-F-D-K)

Software

MIPMonitor, Windows XP/Vista/7/8 compatible

Compatibility

Protocol compatibility with 3DM-RQ1and 3DM- GX4® sensor families.

Software development kit (SDK)

MIPdata communications protocol with sample code available (OS and computing platform independent)

 

General

Integrated sensors

Triaxial accelerometer, triaxial gyroscope, and temperature sensors

Data outputs

Inertial Measurement Unit (IMU) outputs: acceleration, angular rate, deltaTheta, deltaVelocity

Computed outputs: attitude estimates (Euler angles, quaternion, orientation matrix)

Resolution

16 bit SAR oversampled to 17 bits

Inertial Measurement Unit (IMU) Sensor Outputs

 

Accelerometer

Gyroscope

Measurement range

±5 g (standard)

±1.7, and ±50g. (option)

300°/sec (standard)

±50, ±600, ±1200°/sec (options)

Non-linearity

±0.1 % fs

±0.03 % fs

Bias instability

±0.04 mg

18°/hr

Initial bias error

±0.002 g

±0.25°/sec

Scale factor stability

±0.05 %

±0.05 %

Noise density

80 µg/Hz

0.03°/sec/Hz

Alignment error

±0.05°

±0.05°

Adjustable bandwidth

225 Hz (max)

440 Hz (max)

IMU filtering

Digitally filtered (user adjustable) and scaled to physical inputs; coning and sculling integrals computed at 1 kHz

Sampling rate

30 kHz

30 kHz

IMU data output rate

1 Hz to 1000 Hz

Computed Outputs

Roll and pitch accuracy

±0.5° (static, typ), ±2.0° (dynamic, typ)

Roll and pitch range

360° about all axes

Roll and pitch resolution

< 0.01°

Roll and pitch repeatability

0.2° (typ)

Calculation update rate

1000 Hz

Computed data output rate

1 Hz to 500 Hz

Operating Parameters

Communication

USB 2.0, TTL serial UART (3.3 V dc, 9,600 bps to

921,600 bps, default 115,200)

Power source

+ 3.1 to + 5.5 V dc

Power consumption

80 mA at 5 V dc (USB)

Operating temperature

-40 °C to +70 °C

Mechanical shock limit

500 g

Physical Specifications

Dimensions

38 mm x 24 mm x 11.6 mm

Weight

11.6 grams

Regulatory compliance

ROHS

Integration

Connectors

Data/power output: Samtec FTSH Series (FTSH-105-01-F-D-K)

Software

MIPMonitor, Windows XP/Vista/7/8 compatible

Compatibility

Protocol compatibility with 3DM-RQ1and 3DM- GX4® sensor families.

Software development kit (SDK)

MIPdata communications protocol with sample code available (OS and computing platform independent)

 

General

Sensor input channels

Single-axis MEMS accelerometer (option), 1 channel

Integrated sensors

Triaxial MEMS accelerometer (option), 3 channels

Data storage capacity

4 M bytes (up to 2,000,000 data points, data type dependent)

Accelerometer Channels (integrated or external)

Measurement range

± 2 g or ± 10 g standard (± 5 g, ± 30 g, ± 50 g, ±100 g, or ± 200 g options available)

Accelerometer bandwidth

0 to = 100 Hz @ -3 dB (high bandwidth option available)

Resolution

16 bit

Accuracy

0.3 % error (typical @ 25 Hz, 1/2 of dynamic range with sinusoidal input)

Noise

± 2 g: 130 µ g/vHz , ± 10 g: 420 µ g/vHz

(typical with 100 Hz anti- aliasing filter setting)

Anti-aliasing filter bandwidth

Fifth order low-pass Butterworth filter, user programmable bandwidth from 26 Hz to 1 KHz

Integrated Temperature Channel

Measurement range

-40 °C to 125 °C

Accuracy and resolution

± 5 °C (over full range) , 16 bit

Sampling

Sampling modes

Synchronized, low duty cycle, datalogging

Sampling rates

Continuous sampling: 1 32 to 512 Hz

Periodic burst sampling: 32 to 512 Hz

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

70 m to 2 km line of sight with RF power setting

RF communication protocol

IEEE 802.15.4

Power source

Internal: 3.6 V dc,2.6 Ah, AA replaceable lithium battery

External: 2.2 V dc to 5 V dc

Power consumption

1 channel: 20.1 mA (average)

3 channels: 34.9 mA (average)

Operating temperature

-40 ˚C to + 85 ˚C

Acceleration limit

tested to 380 g

MTBF

378,000 hours (Telcordia method, SR332)

Physical Specifications

Dimensions

Internal accelerometer:68 mm x 85 mm x 33.5 mm with mounting tabs

External accelerometer (option): 32 mm x 21.5 mm x 16 mm

Weight

Node with internal accelerometer and battery: 178 grams

Node with external accelerometer, cable and battery: 252 grams

Environmental rating

IP67

Enclosure material

Aluminum and clear polycarbonate

Integration

Compatible gateways

All WSDA® base stations and gateways

Compatible sensors

LORD MicroStrain® accelerometer (external accelerometer option)

Connectors

M5 screw-on IP67 connector (external accelerometer option)

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 :

http://files.microstrain.com/V-Link-LXRS-Power-Profile.pdf

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 Documentation

Technical Notes

Mechanical Drawings (Uncontrolled)

Videos