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Found 25 Results For "
3 axis inertial gyroscope
"
Compact Navigation Grade High Precision Fiber Optic Gyroscope TDFG70T
Compact Navigation Grade Optical Gyroscope TDFG70T Navigation Grade TDFG70T Fiber Optic Gyroscope The fiber optic gyroscope (FOG) is an angular velocity sensor that operates based on the optical Sagnac effect. Utilizing advanced all-digital closed-loop detection technology, this high-performance device outputs real-time angular velocity data of moving carriers through its serial communication interface. Available as three independent single-axis high-precision FOG units or a
Navigation Grade High Precision Compact Design Fiber Optic Gyroscope for Inertial Navigation Systems
Navigation Grade Fog Fiber Optic Gyroscope TDFG70S Product Overview The TDFG70S Fiber Optic Gyroscope is a high-performance angular velocity sensor utilizing optical Sagnac effect technology. Featuring advanced all-digital closed-loop detection, it provides real-time carrier angular velocity data via serial port output. Available as three single-axis units or a three-axis integrated configuration, it serves as the core sensor for inertial navigation systems. Applications
Navigation Grade TDFG50T Fiber Optic Gyroscope with High Precision and All-Solid-State Design for Accurate Navigation
Navigation Grade TDFG50T Fiber Optic Gyroscope Product Overview The TDFG50T Fiber Optic Gyroscope serves as a high-precision angular rate sensor utilizing the optical Sagnac effect. Featuring advanced all-digital closed-loop detection technology, it delivers real-time angular velocity data via serial communication interfaces. This device functions as a core component in inertial navigation systems, available in either three independent single-axis configurations or integrated
Precision Navigation Grade Fiber Optic Gyroscope with 0.003°/h Accuracy, ±400°/s Dynamic Range and All-Solid-State Design
Navigation Grade TDFG98T Fiber Optic Gyroscope The TDFG98T fiber optic gyroscope functions as an angular velocity sensor utilizing the optical Sagnac effect. Its advanced all-digital closed-loop control architecture enables real-time transmission of carrier angular velocity data via serial communication interfaces. In inertial navigation systems, three orthogonal single-axis high-precision FOGs or a single integrated triaxial FOG configuration serve as core sensing components
Low Power Consumption High Accuracy Small Size TDF42IMU0 Fiber Optic Inertial Measurement Unit
Low Power Consumption TDF42IMU0 Fiber Optic Inertial Unit This high-accuracy fiber optic inertial unit features compact design, lightweight construction, and low power consumption. It supports pure strapdown, single axis, and dual axis modulation configurations, making it ideal for unmanned platforms, torpedo weapons, and land/airborne weapon systems requiring dynamic measurement of angular and linear motion. Key Features Small size and lightweight design Low power consumptio
High-performance GLR-90M Inertial Navigation System with Ring Laser Gyro Technology, Combat Proven, and Anti-disturbance Self-alignment
High-performance GLR-90M Type Gyro Compass and Inertial Navigation System The GLR-90M Type Gyro Compass and Inertial Navigation System is a high-performance inertial navigation unit based on strap down digital ring-laser-gyro technology. Utilizing three single-axis Type-90 ring laser gyroscopes and quartz flexible accelerometers, this system delivers accurate data even in harsh combat situations. Key Characteristics Advanced ring laser gyro technology Combat proven reliabilit
High Accuracy Compact Size Low Power Consumption Inertial Measurement Unit (IMU) for Navigation and Robotics
Inertial Measurement Unit The Inertial Measurement Unit (IMU) features a compact size, light weight, low power consumption, and high precision. Designed for pure strapdown, single-axis, and dual-axis modulated inertial navigation systems, it meets the demand for small-size, high-precision inertial navigation equipment in new unmanned platforms, underwater/torpedo weaponry, as well as land-based and airborne weapon platforms. This unit provides dynamic measurement of carrier
High Accuracy Compact Size Low Power Consumption Inertial Measurement Unit (IMU) for Aerospace and Robotics
Inertial Measurement Unit (IMU) The Inertial Measurement Unit (IMU) features a compact size, light weight, low power consumption, and high precision. It enables the design of pure strapdown, single-axis, and dual-axis modulated inertial navigation systems, meeting the demand for small-size, high-precision inertial navigation equipment in new unmanned platforms, underwater/torpedo weaponry, and land-based/airborne weapon platforms. The unit provides dynamic measurement of
