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Wuxi Bewis Sensing Technology LLC

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City:wuxi

Province/State:jiangsu

Country/Region:china

Contact Person:MsZhang

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BW-5122-High-Precision-MEMS-Intergrated Navigation System

Name: BW5122HighPrecisionMEMSIntergrated Navigation System
Brand: BWSENSING
Price: 5000 USD

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Brand Name :BWSENSING

Model Number :BW5122

Place of Origin :Jiangsu,China

MOQ :1 PCS

Price :USD 5000-1000

Payment Terms :T/T

axis :3 axis inertial system

Triaxial GyroscopeDynamic range :±500°/s (customizable up to ±4000°/s)

Triaxial Gyroscope Bias stability :5°/h (GJB standard, 10-second average)

Triaxial Accelerometer Dynamic range :±16g

Operating temperature :-40°C～+85°C

Triaxial Accelerometer Bias stability :0.2 mg (GJB standard, 10-second average)

Interfaces :RS-232, CAN/CAN-FD, PPS, and EVENT

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Product Overview

BW-5122 is a compact, high-precision MEMS intergrated navigation systemindependently. It integrates a high-performance MEMS IMU (Inertial Measurement Unit) and supports external GNSS data input. Utilizing multi-source Kalman filter fusion algorithms, it delivers continuous, reliable high-accuracy positioning and navigation information in complex environments. Applications include drones, military training equipment, and stabilization platforms

Key Technical Features

MEMS IMU Specifications

Triaxial Gyroscope Dynamic range: ±500°/s (customizable up to ±4000°/s)

Triaxial Gyroscope Bias stability: 5°/h (GJB standard, 10-second average)

Triaxial Accelerometer:

Triaxial Accelerometer Dynamic range: ±16g

Triaxial Accelerometer Bias stability: 0.2 mg (GJB standard, 10-second average)

Calibration: Factory-level temperature and dynamic calibration

Advanced Algorithms

Adaptive Static/Dynamic Alignment: Optimizes orientation accuracy in motion or stationary states.

System-Level Error Compensation: Automatically corrects installation misalignment and wheel speed ratio errors

Multi-Source Kalman Filter Fusion: Integrates GNSS and IMU data for robust performance in signal-blocked environments (e.g., tunnels, urban canyons)

Performance in Challenging Environments

Lock Loss Positioning Accuracy: ≤0.2% × D (distance traveled) during GNSS signal loss

Interfaces: RS-232, CAN/CAN-FD, PPS, and EVENT protocols for flexible system integration.

Core Functions

Continuous Navigation Output: Combines factory-calibrated IMU data with external GNSS (e.g., odometer and steering inputs) to generate high-frequency position, velocity, and attitude updates.

Adaptive Data Validation: Self-assesses data reliability through source effectiveness screening and error compensation

Complex Scenario Adaptability: Maintains precision in environments like dense urban areas, forests, and tunnels via multi-sensor fusion and dynamic calibration

Applications

Drone Navigation: High-precision hovering and trajectory tracking.

Military Training: Stabilized platform control and mission simulation.

Autonomous Vehicles: Sub-meter positioning in GNSS-denied zones.

Industrial Machinery: Precision motion control for heavy equipment.

Competitive Advantages

Miniaturized Design: Optimized for space-constrained applications (e.g., UAVs, robotics).

Cost-Effective Integration: Compatible with industrial-grade MEMS sensors and standard interfaces

Military-Grade Reliability: Operates in extreme temperatures (-40°C to +85°C) and withstands shock/vibration

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