Accelerometer Gyro Sensor
FOG North Finder with 0.3°Accuracy True Finder with RS422 Interface
FOG North Finder with 0.3° Accuracy True Finder with RS422 Interface The Fiber Optic Gyroscope North Finder provides precise true-north orientation for navigation, mapping, and weapon guidance systems. This all-in-one device automatically detects the Earth's rotational rate and computes accurate azimuth and attitude data within 3 minutes. The system integrates a high-accuracy FOG, accelerometer, motorized turntable, and embedded computer. With ≤0.3° north-seeking accuracy and
High Accuracy 0.3° Fiber Optic Gyro North Finder with Fast Start-Up
High Accuracy 0.3° Fiber Optic Gyro North Finder with Fast Start-Up The NF701 Fiber Optic Gyroscope North Finder is a compact, high-precision north-seeking system that determines true north autonomously without GNSS. It measures the Earth's rotation rate through a fiber optic gyroscope and computes azimuth and attitude information for mobile platforms. Featuring north-seeking accuracy of ≤0.3° (1σ), alignment time under 3 minutes, and RS-422 interface, it integrates a FOG,
RS422 Output North Seeker Fiber Optic Gyroscope Sensor for Tunnel Mining
RS422 Output North Seeker Fiber Optic Gyroscope Sensor for Tunnel Mining The NF701 Fiber Optic North Finder delivers fast, accurate true-north orientation for navigation and targeting systems. Using a high-performance fiber optic gyroscope to detect the Earth's rotation, it computes azimuth and attitude angles automatically within 3 minutes. Compact (115 * 90 * 110 mm) and lightweight (≤2 kg), the system integrates a FOG, accelerometer, rotation control device, and embedded
Integrated Fiber Optic North Finder for Inertial Navigation and Attitude Reference
Integrated Fiber Optic North Finder for Inertial Navigation and Attitude Reference Engineered for defense, surveying, and autonomous navigation, the Fiber Optic Gyroscope North Finder provides rapid, high-accuracy true-north determination. The system derives the Earth's rotation angular rate using an advanced FOG sensor, ensuring excellent azimuth accuracy and stability. With a compact structure (115 × 90 × 110 mm) integrating a gyroscope, accelerometer, rotation control unit
FOG North Finder Module for Autonomous Navigation and Inertial Alignment
FOG North Finder Module for Autonomous Navigation and Inertial Alignment The FOG North Finder is an advanced north-seeking instrument that determines true north without magnetic interference. Utilizing a fiber optic gyroscope to measure the Earth's rotation rate, it calculates azimuth and attitude angles with exceptional stability and speed. This all-in-one electromechanical system combines a FOG sensor, precision accelerometer, servo rotation control, and embedded computer.
Tactical Grade MEMS Gyroscope Chip for Inertial Measurement Unit IMU INS
Tactical Grade MEMS Gyroscope Chip for Inertial Measurement Unit IMU INS 0.5°/h bias stability for marine and stabilization applications Key Specifications Attribute Value Range 150°/s Bias Stability (10 s smoothing) 0.5°/h Bias @ 25℃ 15°/h Angle Random Walk 0.06°/√h Bias Repeatability 2°/h Scale Factor Repeatability 30ppmx Non-linearity @ Full Scale (FS) 100ppm Bandwidth 30Hz Product Overview The MGC series single-axis MEMS gyroscope chips are high-performance angular rate
Motion Tracking MEMS Gyroscope Chip with SPI Output Fast Response
Motion Tracking MEMS Gyroscope Chip with SPI Output Fast Response Key Specifications Measurement Range 150°/s Bias Stability (10 s smoothing) 0.5°/h Bias at 25℃ 15°/h Angle Random Walk 0.06°/√h Bias Repeatability 2°/h Scale Factor Repeatability 30ppmx Non-linearity @ Full Scale (FS) 100ppm Bandwidth 30Hz Product Overview The MGC series single-axis MEMS gyroscopes are high-precision angular rate sensors designed for advanced motion sensing and control applications. These gyros
MEMS Gyro Chip with Low Noise and High Sensitivity for IMU Integration
MEMS Gyro Chip with Low Noise and High Sensitivity for IMU Integration Key Specifications Attribute Value Measurement Range 150°/s Bias Stability (10 s smoothing) 0.5°/h Bias at 25℃ 15°/h Angle Random Walk 0.06°/√h Bias Repeatability 2°/h Scale Factor Repeatability 30ppmx Non-linearity @ Full Scale (FS) 100ppm Bandwidth 30Hz Product Overview The MGC series single-axis MEMS gyroscopes are high-precision angular rate sensors designed for advanced motion sensing and control
Low Cost OEM MEMS gyroscope chips Factory Price for Inertial Measurement Unit
Low Cost OEM MEMS Gyroscope Chips Factory price inertial measurement unit components with high precision and stability Key Specifications Attribute Value Range 150°/s Bias Stability (10 s smoothing) 0.5°/h Bias @ 25℃ 15°/h Angle Random Walk 0.06°/√h Bias Repeatability 2°/h Scale Factor Repeatability 30ppmx Non-linearity @ Full Scale (FS) 100ppm Bandwidth 30Hz Product Description MGC series single-axis MEMS gyroscopes deliver highly stable and low-noise angular velocity
Single-axis MEMS Gyroscope Chip Angular Rate Sensor for Petroleum exploration
Single-axis MEMS Gyroscope Chip Angular Rate Sensor for Petroleum Exploration Key Specifications Attribute Value Measurement Range 150°/s Bias Stability (10 s smoothing) 0.5°/h Bias at 25℃ 15°/h Angle Random Walk 0.06°/√h Bias Repeatability 2°/h Scale Factor Repeatability 30ppmx Non-linearity @ Full Scale (FS) 100ppm Bandwidth 30Hz Product Overview The MGC series single-axis MEMS gyroscopes are high-precision angular rate sensors designed for advanced motion sensing and
High Precise Gps Imu Sensor 0.3m/S Anti Disturbance Reliable
High precise IMU with GPS, barometer, reliable GPS IMU, INS integrate SINS and GPS Introduction This product adopts highly integrated fiber optic gyroscope and high precision quartz accelerometer IMU. GPS-OEM board, barometric altimeter, magnetometer and other multi-purpose sensors use Kalman filtering technology to integrate SINS and GPS information and output stable and reliable navigation parameters such as heading, attitude, speed and position. Gyroscopes mainly include
Dynamic Navigation Accelerometer Gyro Sensor High Update Rate IMU
Dynamic navigation sensor, high update rate IMU, inertial attitude sensor Introduction It is a self-developed inertial attitude measurement system. Inertial navigation technology is used to provide pitch angle and roll angle information for vehicles in real time. The product has unique design, high precision, high stability, high data update frequency and high performance, which is an ideal attitude measurement product for rotating motion carrier. Applications It is used for
Three Axis Integrated Fiber Optic Gyroscope DC28V UAV Navigation
three-axis integrated small fiber optic gyroscope UAV navigation,antenna system stabilization gyro Introduction This type of product is composed of three-axis integrated small fiber optic gyroscope, which has the characteristics of small size, light weight and strong anti-vibration performance, and has a good application prospect in tactical missiles, UAV navigation systems and other inertial precision applications. Applications Antenna system stabilization, UAV navigation
Coriolis Vibratory Accelerometer Gyro Sensor Quartz Micromechanical
high reliability acceleration Gyro, quartz micromechanical gyroscope, Coriolis vibratory gyroscope Product features All-solid-state high reliability Small size, light weight low power consumption Impact resistance good environmental adaptability Product introduction The AVIC3-1 quartz micromechanical gyroscope is a single-axis output Coriolis vibratory gyroscope. Its sensitive device is made of quartz crystal and processed by MEMS technology. The product has the characterist
10m CEP Accelerometer Gyro Sensor Anti Disturbance High Performance Mems Gyro
anti-disturbance gyro accelerometer, high accuracy gyro accelerometer sensor. MEMS accelerometer gyro Product features ■ Small size, light weight, low cost, strong environmental adaptability, anti-disturbance, suitable for harsh use environment ■ High accuracy and large measurement range Product introduction This product adopts highly integrated MEMS gyroscope and accelerometer IMUs GPS-OEM board, barometric altimeter, magnetometer and other multi-purpose sensors, uses Kalman