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Found 15 Results For "
3 axis inertial gyroscope
"
Three Axis Fiber Optic Gyroscope
Model F3X50B High Accury There-axis Fiber Optic Gyroscope With 0.5 /hr Bias Drift 1. Product Introduction 1.1 Working Principle and Function This product is an inertial angular rate sensor based on the principle of Sagnac effect, which is used to measure the angular rate movement of the carrier around the sensitive axis of this sensor. This unit takes the fiber optic coil as the angular rate sensitive unit and the closed-loop detection circuit as the basis. Two beams from a
Navigation Grade TDFG120S Fiber Optic Gyroscope with High Accuracy, Compact 120mm×120mm×38mm Dimensions, and All-Solid-State Design
Navigation Grade TDFG120S Fiber Optic Gyroscope The TDFG120S is a high-precision fiber optic gyroscope utilizing advanced all-digital closed-loop detection technology. This angular velocity sensor outputs real-time carrier angular velocity data via serial port, making it ideal for demanding inertial navigation applications. Technology Overview Based on the optical Sagnac effect, this fiber optic gyroscope provides precise angular velocity measurement. Available as three
Advanced Navigation Grade TDFG120T Fiber Optic Gyroscope 0.003°/h Accuracy
Navigation Grade TDFG120T Fiber Optic Gyroscope 1 Introduction The fiber optic gyroscope (FOG) is an angular velocity sensor operating on the optical Sagnac effect. Equipped with high-performance all-digital closed-loop detection technology, it outputs real-time angular velocity data of the carrier through serial communication. For inertial navigation systems, either three orthogonal single-axis high-precision FOGs or an integrated three-axis FOG configuration serves as
High Accuracy & Stability TDF42IMU-D Fiber Optic Inertial Unit Single & Dual-Axis Modulation
High Accuracy & Stability TDF42IMU-D Fiber Optic Inertial Unit Single & Dual-Axis Modulation Overview Fiber optic inertial units have the advantages of small size, light weight, low power consumption, and high accuracy. They can be used to design pure strapdown, single axis, and dual axis modulation inertial units, meeting the needs of new unmanned platforms, water/torpedo weapons, as well as land and airborne weapon platforms for small size and high-precision inertial unit
Small Size TDF37IMU0 Fiber Optic Inertial Unit Low Power Consumption
Small Size TDF37IMU0 Fiber Optic Inertial Unit Low Power Consumption Overview Fiber optic inertial units have the advantages of small size, light weight, low power consumption, and high accuracy. They can be used to design pure strapdown systems, meet the needs of new unmanned platforms, water/torpedo weapons, as well as land, airborne, and missile weapon platforms for small size and high-precision inertial unit equipment, and have dynamic measurement functions for carrier
Three Axis Navigation Grade Fiber Optic Gyroscope TDFG60T
Navigation Grade TDFG60T Fiber Optic Gyroscope 1 Introduction Fiber optic gyroscope is a kind of angular velocity sensor based on optical Sagnac effect, internal high-performance all-digital closed-loop detection technology, real-time carrier angular velocity information can be output through the serial port. Three single-axis high-precision fiber-optic gyroscopes or three-axis integrated fiber-optic gyroscopes can be used as the core sensors of inertial navigation solution,
Navigation Grade TDFG40T Fiber Optic Gyroscope Highly Sensitive
Navigation Grade TDFG40T Fiber Optic Gyroscope 1 Introduction Fiber optic gyroscope is a kind of angular velocity sensor based on optical Sagnac effect, internal high-performance all-digital closed-loop detection technology, real-time carrier angular velocity information can be output through the serial port. Three single-axis high-precision fiber-optic gyroscopes or three-axis integrated fiber-optic gyroscopes can be used as the core sensors of inertial navigation solution,
Single Axis Fiber Optic Gyroscope
Model F120HC High Accury Single-axis Fiber Optic Gyroscope With 0.002 /hr Bias Drift 1.Product introduction 1.1 Working Principle and Function This product is an inertial angular rate sensor based on the principle of Sagnac effect, which is used to measure the angular rate movement of the carrier around the sensitive axis of this sensor. This unit takes the fiber optic coil as the angular rate sensitive unit and the closed-loop detection circuit as the basis. Two beams from
