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MEMS Inertial Navigation Systems

18 Results
High Accuracy Dual Antenna MEMS Inertial Navigation System -- Apogee-D Dual GNSS/INS
from SBG Systems SAS

Apogee-D is a highly accurate Inertial Navigation System with dual antenna GNSS receiver for real-time and post-processing operations. The ITAR Free Apogee-D is the most accurate Dual GNSS/INS based on the robust and cost-effective MEMS technology. High Accuracy: 0.008 ° Roll & Pitch (RTK). [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 100
Motion Tracker -- IMT40
from Imego

The IMT40 isdesigned for measuring all details of rapid, violent motions. Themotion tracker is completely based on MEMS components, which results insmall size, ruggedness, shock tolerance, and cost effectiveness. Thesystem is built around the proven Imego digital Butterfly Gyroscope(IBG20). IMT40... [See More]

  • Linear Acceleration Technology: MEMS; Piezoresistive
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 0.0 to 6000
Attitude Heading Reference System (AHRS) -- 3DM-GX4-25™
from LORD MicroStrain Sensing Systems

The 3DM-GX4 -25 ™ is a miniature high end industrial Attitude Heading and Reference System (AHRS), utilizing the highest performance MEMS sensor technology. It combines a triaxial accelerometer, triaxial gyro, triaxial magnetometer, temperature sensors, pressure altimeter and dual on-board... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 300
High Accuracy MEMS Inertial Navigation System with Embedded GNSS Receiver -- Apogee-N GNSS/INS
from SBG Systems SAS

Apogee-N is a highly accurate Inertial Navigation System with embedded GNSS receiver for real-time and post-processing operations. The ITAR Free Apogee-N is the most accurate INS/GNSS based on the robust and cost-effective MEMS technology. High Accuracy: 0.008 ° Roll & Pitch (RTK). 0.02... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 100
Motion Tracker -- IMT41
from Imego

The IMT40 isdesigned for measuring all details of rapid, violent motions. Themotion tracker is completely based on MEMS components, which results insmall size, ruggedness, shock tolerance, and cost effectiveness. Thesystem is built around the proven Imego digital Butterfly Gyroscope(IBG20). IMT40... [See More]

  • Linear Acceleration Technology: MEMS; Piezoresistive
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 0.0 to 6000
GNSS-Aided Inertial Navigation System -- 3DM-GX5-45™
from LORD MicroStrain Sensing Systems

The LORD Sensing 3DM-GX5 ® family of industrial grade inertial sensors provides a wide range of triaxial inertial measurements and computed attitude and navigation solutions. The 3DM-GX5-45 all-in-one navigation solution features a high performance integrated multi-constellation GNSS receiver... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 300
High Accuracy MEMS Motion Sensor -- Apogee-A AHRS
from SBG Systems SAS

Apogee-A is a highly accurate Motion Sensor or MRU (Motion Reference Unit). The ITAR Free Apogee-A is the most accurate motion sensor based on the robust and cost-effective MEMS technology. High Accuracy: Up to 0.008 ° Roll & Pitch (RTK). 0.15 ° Heading (Depends on aiding source). 5 cm... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 100
GPS-Aided Inertial Navigation System (IMU) -- 3DM-GX4-45™
from LORD MicroStrain Sensing Systems

The 3DM-GX4-45 ™ is a miniature, industrial-grade GPS Aided Inertial Navigation System (GPS/INS), utilizing the highest performance MEMS sensor technology. It combines a triaxial accelerometer, triaxial gyro, triaxial magnetometer, temperature sensors, pressure altimeter, and dual on-board... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 300
High Accuracy Versatile MEMS Inertial Navigation System -- Apogee-E Ext. Aided INS
from SBG Systems SAS

Apogee-E is a highly accurate Inertial Navigation System that connects to a SplitBox GNSS or any survey grade external GNSS receiver for optimal navigation. The ITAR Free Apogee-E is the most accurate and versatile INS based on the robust and cost-effective MEMS technology. High Accuracy: 0.008... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 100
High-Performance, Miniature Attitude Heading Reference System -- 3DM-GX3® -25
from LORD MicroStrain Sensing Systems

Miniature Attitude Heading Reference System (AHRS). Overview. The 3DM-GX3 ® -25 is a high-performance, miniature Attitude Heading Reference System (AHRS), utilizing MEMS sensor technology. It combines a triaxial accelerometer, triaxial gyro, triaxial magnetometer, temperature sensors, and an... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 50 to 1200
High Performance MEMS Attitude and Heading Reference System -- Ekinox-A AHRS
from SBG Systems SAS

Ekinox-A is an ITAR Free Attitude & Heading Reference System (AHRS) or MRU (Motion Reference Unit). It combines high end gyroscopes, accelerometers, magnetometers, and runs an enhanced Extended Kalman Filter (EKF) to provide Roll, Pitch, Heading, and Heave. High performance for a cost-effective... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 400
High-Performance, Miniature Attitude Heading Reference System -- 3DM-GX3® -25-OEM
from LORD MicroStrain Sensing Systems

Miniature Attitude Heading Reference System. Overview. The 3DM-GX3 ® -25-OEM is a high-performance, miniature Attitude Heading Reference System (AHRS), utilizing MEMS sensor technology. It combines a triaxial accelerometer, triaxial gyro, triaxial magnetometer, temperature sensors, and an... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 50 to 1200
High Performance MEMS Externally Aided Inertial System -- Ekinox-E Ext. Aided INS
from SBG Systems SAS

Ekinox-E is an ITAR Free Inertial Navigation System which accepts aiding data from external equipment. It combines an Inertial Measurement Unit (IMU), runs an enhanced on-board Extended Kalman Filter (EKF) which fuses in real-time inertial data with aiding information for the best performance. High... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 400
High-Performance, Miniature Attitude Heading Reference System -- 3DM-GX3® -35
from LORD MicroStrain Sensing Systems

Miniature Attitude Heading Reference System (AHRS). Overview. The 3DM-GX3 ® -35 high-performance, miniature Attitude Heading Reference System (AHRS) with GPS, combines MEMS sensor technology and a highly sensitive embedded GPS receiver. It incorporates a triaxial accelerometer, triaxial gyro,... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 50 to 1200
High Performance MEMS ITAR Free Inertial Navigation System with integrated Dual Antenna GNSS receiver -- Ekinox-D Dual GPS INS
from SBG Systems SAS

Ekinox-D is an ITAR Free Inertial Navigation System with integrated Dual Antenna GNSS receiver. It combines an Inertial Measurement Unit (IMU), and runs an enhanced on-board Extended Kalman Filter (EKF) to fuse in real-time inertial data with internal GPS information. High Performance for a... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 400
High-Performance, Miniature GPS-Aided Inertial Navigation System -- 3DM-GX3® -45
from LORD MicroStrain Sensing Systems

Miniature GPS-Aided Inertial Navigation System. Overview. The 3DM-GX3 ® -45 high-performance, miniature GPS-Aided Inertial Navigation System (GPS/INS) combines MEMS inertial sensors, a highly-sensitive embedded GPS receiver, and a complex Extended Kalman Filter to generate optimal position,... [See More]

  • Linear Acceleration Technology: MEMS
  • Bandwidth: 440
  • Rated Angular / Rotary Rates: 50 to 1200
  • Rated Linear Acceleration: -50 to 50
High Performance MEMS ITAR Free Inertial Navigation System with integrated GPS + GLONASS receiver. -- Ekinox-N GPS Aided INS
from SBG Systems SAS

Ekinox-N is an ITAR Free Inertial Navigation System with integrated GPS + GLONASS receiver. It combines an Inertial Measurement Unit (IMU), runs an enhanced on-board Extended Kalman Filter (EKF) which fuses in real-time inertial data with internal GPS information. High performance for a... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 400
High-Performance, Miniature Inertial Measurement Unit and Vertical Gyro -- 3DM-GX3® -15-OEM
from LORD MicroStrain Sensing Systems

Overview. The 3DM-GX3 ® -15-OEM is a high-performance, miniature Inertial Measurement Unit and Vertical Gyro, utilizing MEMS sensor technology. It combines a triaxial accelerometer, triaxial gyro, temperature sensors, and an on-board processor running a sophisticated sensor fusion algorithm to... [See More]

  • Linear Acceleration Technology: MEMS
  • Linear Axes: Triaxial
  • Angular / Rotary Axes: Triaxial
  • Rated Angular / Rotary Rates: 50 to 1200