OEM-HG1930

OEM-HG1930 MEMS IMU

The HG1930 is a small, low cost Micro Electromechanical Systems (MEMS) Inertial Measurement Unit (IMU) manufactured by Honeywell. It provides tactical grade performance for unmanned vehicles and other commercial and/or military guidance applications. When integrated with NovAtel's Synchronous Position, Attitude and Navigation (SPAN) technology, this IMU is ideal for airborne and ground applications that require accurate 3D position, velocity and attitude data.

Features


  • MEMS gyros and accelerometers
  • Small size and light weight
  • 10-30 VDC power input1
  • 100 Hz data rate
  • Long MTBF
  • SPAN INS functionality

 

Benefits


  • Ideal for unmanned vehicles
  • Easy integration with SPAN receivers
  • Ideal for size-constrained applications

 

Attributes


General Info Width/Diameter (mm) 64.80
  Height (mm) 35.70
  Weight (g)
200.00
  Typical Power Consumption (w)
3.00
IMU Data Rate 100 Hz
Gyro Type MEMS
 IMU Info ITAR Control  
Performance Gyro Bias In-run Stability (±deg/hr):  2
  Gyro Bias Offset (deg/hr): 20
  Gyro Angular Random Walk (deg/√hr): 0.125
  Gyro Scale Factor (ppm): 300
  Gyro Range (±deg/s): 1000
  Accelerometer Bias (mg): 3
  Accelerometer Scale Factor (ppm): 300
  Accelerometer Range (±g): 30

 

Combining SPAN and MEMS Technology

A proprietary MEMS Interface Card (MIC) couples the HG1930 with SPAN receivers, offering a unique, powerful GNSS+INS system for weight and size constrained applications. Designed as a board stack configuration for ease of integration, the MIC can interface directly with NovAtel's small form factor OEM615™ SPAN receiver.

The HG1930 is also available as a stand alone product so integrators can easily pair it with an existing SPAN receiver.

Require Higher Accuracy?

NovAtel's CORRECT™ with RTK and satellite augmentation systems such as SBAS can be used to improve real-time performance and accuracy. For the most demanding applications, Inertial Explorer® post-processing software from our Waypoint® Products Group offers the highest level of accuracy.

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