+ GNSS | Inertial
Inertial simulator
Inertial simulator
CAST Navigation - IMU Modeling and Simulation
DETAIL
System Features
• Systems are designed to provide precise dynamic signals for stimulation of EGI and GNSS/INS devices in a laboratory
environment
• Provides an accurate synchronized simulation of navigation signals to loosely, tightly, and ultra-tightly coupled signals
to stimulate EGI and GNSS/INS systems
• Operates as a stand-alone system or can be integrated into a laboratory environment to provide stimulus, based on
6-DOF trajectory data received
• Customizable and expandable solutions allows confi guration of your GNSS/INS system to meet current and future
equirements
Inertial Platform Types
• Strapdown
• Locally-Level Gimballed
• Space Stabilized
Maximum Inertial Rates
• Angular Rate: 15π rad/s
• Angular Acceleration: 2900π rad/s2
• Velocity: ±120,000 m/s
• Acceleration: ±192,600 m/s2
• Jerk: 510 g/sec (±890,400 m/s3)
• Angular Rate: 15π rad/s
• Angular Acceleration: 2900π rad/s2
Maximum Dynamics
• Velocity: > 60,000 m/s
• Acceleration: ± 150,000 m/s2
• Jerk: ± 150,000 m/s3
IMU Interface Types
LN-100G, LN-200, LN-251, LN-260, LN-270
H-764G, HG-1700, HG-1900, NAV-100
SD500
STANAG 4572
Customized SDLC Communications
Customized RS-422 Communications