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Found 51 Results For "
optical gyroscope
"
Small Size Light Weight TDF71IMU0 Fiber Optic Inertial Unit with Low Power Consumption
Small Size Light Weight TDF71IMU0 Fiber Optic Inertial Unit Fiber optic inertial unit with low power consumption, designed for unmanned platforms, water/torpedo weapons, and land, airborne, and missile weapon platforms requiring small size and high-precision inertial measurement. Performance Specifications Gyroscope Performance Parameter Specification Value Notes Zero Bias Stability (100s) 0.01/h Zero Bias Stability (10s) 0.03/h Variable Temperature Zero Bias 0.05/h Full
High Precision Ring Laser Gyroscope TDLG50S with 0.015°/h Bias Stability and Wide Dynamic Range for Inertial Navigation
High Precision TDLG50S Ring Laser Gyroscope The TDLG50S Ring Laser Gyroscope operates on the Sagnac effect principle, measuring carrier angle increments by detecting laser interference phase differences within a ring glass cavity. This integrated gyroscope offers exceptional reliability, environmental adaptability, and stable performance, making it one of the most widely used high-precision inertial navigation sensors globally. Applications Ideal for inertial navigation
High Precision Ring Laser Gyroscope RLG with 0.015°/h Bias Stability and ≥±400°/s Dynamic Range
High Precision TDLG70S Ring Laser Gyroscope The TDLG70S Ring Laser Gyroscope operates on the Sagnac effect principle, utilizing interference phase differences between clockwise and counterclockwise laser beams within a closed resonant cavity to precisely measure angular increments. This advanced gyroscope features high integration, exceptional reliability, strong environmental adaptability, and stable operational performance, serving as a core sensor in high-precision
Model DINS-200 High Precision Single-Axis Rotating Laser Gyroscope Inertial Navigation System with International Standard
Model DINS-200 High Precision Single-Axis Rotating Laser Gyroscope Inertial Navigation System Product Overview The DINS-200 single-axis rotating laser gyroscope inertial navigation system represents high-performance inertial navigation and measurement equipment. Engineered with advanced high-precision laser gyroscope and quartz flexible accelerometer technology, this system delivers exceptional performance through sophisticated error calibration, temperature compensation, and
High Precision TDLG90S Ring Laser Gyroscope with 0.002°/h Bias Stability and Wide Dynamic Range
High Precision TDLG90S Ring Laser Gyroscope The TDLG90S Ring Laser Gyroscope operates on the Sagnac effect principle, utilizing interference phase differences between clockwise and counterclockwise laser beams within a closed resonant cavity to precisely measure angular increments. This gyroscope features high integration, exceptional reliability, strong environmental adaptability, and stable operational performance, making it a core sensor in high-precision inertial
Small Size TDFG99IMU Fiber Optic Inertial Unit with High Accuracy and Light Weight for Dynamic Measurement
Small Size TDFG99IMU Fiber Optic Inertial Unit This compact, lightweight fiber optic inertial unit delivers high precision with low power consumption. Featuring eight-point vibration damping, it ensures reliable performance in high-impact and high-vibration environments. Ideal for pure strapdown applications, it meets the demanding requirements of next-generation unmanned platforms, underwater/torpedo systems, and land, airborne, and missile weapon platforms that require
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 Accuracy TDF72IMU0 Fiber Optic Inertial Unit with Low Power Consumption and Small Size for Dynamic Measurement
High Accuracy TDF72IMU0 Fiber Optic Inertial Unit This advanced fiber optic inertial unit features eight-point vibration reduction, making it ideal for applications with significant impact and vibration. With its compact design, lightweight construction, low power consumption, and high precision, it provides dynamic measurement of carrier angular and linear motion information for various defense and aerospace platforms. Key Features Eight-point vibration reduction system
