Place of Origin:
China
Brand Name:
Liocrebif
Certification:
GJB 9001C-2017
Model Number:
LKF-MSI100
Introduction
The MSI100 MEMS Integrated Navigation System is a highly reliable, cost-effective MEMS inertial navigation system that can be widely used in navigation, control, and measurement applications in vehicles, ships, and drones.
The MSI100 series integrated navigation system integrates high-performance MEMS gyroscopes, MEMS accelerometers, and GNSS satellite receiver chips into its navigation calculation module. By measuring the angular velocity and acceleration of the carrier's motion, it continuously receives GNSS satellite signals via dual antennas or track angles, and calculates the current carrier's heading angle, three-dimensional velocity, position, and attitude information. The integrated navigation system has undergone full-temperature zero-point and full-temperature scale compensation for its internal IMU module, ensuring the reliability of the product.
Technical Specification
Liocrebif Company is a high-tech enterprise that has achieved a fully closed-loop system for fiber optic winding equipment, fiber optic winding manufacturing, IMU circuits, software, and IMU testing and calibration equipment. By comprehensively controlling upstream and downstream processes, the company can effectively improve product quality and reduce system costs. At the same time, the company implements the ISO9001 quality system and adopts strict processes to ensure the reliability and consistency of product performance.
The products offer various configuration options to accommodate different platforms, such as airborne, vehicle-mounted, and ship-mounted applications. When vehicle-mounted, the system incorporates vehicle constraints to ensure long-term measurement accuracy of attitude.
Table 1 Performance parameters of LKF-MSI100
|
MEMS Gyroscope |
|
|
Range (°/s) |
±500 |
|
Full-Scale Zero Drift (°/h, 1σ) |
≤180(X,Y),≤30(Z) |
|
Zero Offset Stability (°/h, 10s Smoothing) |
≤10(XY),≤5(Z) |
|
Zero Offset Instability (°/H, Allan) |
≤2(XY),≤0.5(Z) |
|
Zero Offset Repeatability (°/h) |
≤10(XY),≤5(Z) |
|
Angular Random Walk (°/√h) |
≤0.25 |
|
Scale Factor Nonlinearity (ppm) |
≤100 |
|
Cross-Coupling (Rad) |
≤0.001 |
|
Bandwidth (Hz) |
≥100 |
|
MEMS Accelerometer |
|
|
Range (G) |
±16 |
|
Zero Position (mg, 1σ) |
2 |
|
Zero Offset Stability (ug, 10s Smoothing) |
≤100 |
|
Zero Bias Stability (ug, Allan) |
≤50 |
|
Zero Bias Repeatability (Ug) |
≤100 |
|
Velocity Random Walk (mm/s/√h) |
≤40 |
|
Scale Factor Nonlinearity (ppm) |
≤300 |
|
Cross-Coupling (rad) |
0.001 |
|
Bandwidth (Hz) |
≥100 |
|
Combined Navigation Accuracy |
|
|
Combined Heading (°, 1σ, Real-Time) |
0.15 (1 m baseline, dual antenna), 0.5 (single antenna, dynamic) |
|
Combined Horizontal Attitude (°, 1σ, Real-Time) |
0.05° (dual antenna), 0.1° (single antenna) |
|
Combined Horizontal Position (m, 1σ) |
3 m (single point), 0.02+1 ppm (RTK) |
|
Combined Vertical Position (m, 1σ) |
5 m (single point), 0.03+1 ppm (RTK) |
|
Combined Horizontal Velocity (m/S, 1σ) |
0.1 |
|
Combined Vertical Velocity (m/S, 1σ) |
0.15 |
|
Pure Inertial Navigation Accuracy |
|
|
Horizontal Attitude (°, 1σ, Real-Time) |
0.05° (static), 0.5° (dynamic) |
|
Heading (°, 1σ, Real-Time) |
5° (dynamic) |
|
Dead Reckoning Accuracy (cm) |
5 |
|
Inertial/Odometer Combination Accuracy |
≤0.001D(60s) |
|
Electrical/Mechanical Interface |
|
|
Power Supply (V) |
9~36 |
|
Steady-State Power (W) |
≤3 |
|
Start-Up Time (s) |
≤2 |
|
Communication Interface |
1 RS-422 channel, 1 RS-232 channel, 1 CAN channel 1 TTL level synchronous input channel, 1 TTL level synchronous output channel |
|
Update Rate (Hz) |
200 (customizable) |
|
Dimensions (mm × mm × mm) |
83×66×24 |
|
Weight (G) |
<350 |
|
Operating Environment |
|
|
Operating Temperature (°C) |
-40~+85 |
|
Storage Temperature (°C) |
-55~+85 |
|
Vibration (G, RMS) |
20~2000HZ,4.08 |
|
Shock (G) |
1000g/1ms |
|
Reliability |
|
|
MTBF (h) |
100000 |
Main Features
Supports full GNSS frequency points, high positioning and orientation accuracy in complex environments.
High-precision gyroscope used for heading axis, high attitude maintenance accuracy after lock loss.
Self-correction algorithm when GNSS is unavailable, maintains horizontal attitude accuracy.
RTK differential can be connected.
Zero speed correction and vehicle constraint algorithm improve autonomous accuracy.
100% domestically produced components, high performance, small size, low weight.
Application
UAV/Vehicle/Ship/Boat position and attitude reference
Attitude control
Optical/photographic platform
Surveying and mapping
Stabilized platform
Underwater vehicle
Motion communication
Intelligent driving
Missile control
Fig. 1 Dimensions of the external structure
Send your inquiry directly to us
