IMU Accelerometer Gyro
High Stability Adis16497 10-Axis Inertial Measurement Unit for Autonomous Vehicle Positioning
High Stability ADIS16497 10-Axis Inertial Measurement Unit Designed for autonomous vehicle positioning and high-performance applications Product Overview The 16488HB IMU is a MEMS-based inertial measurement unit engineered for demanding applications requiring precision and reliability. With a dynamic range of ±2000º/s and ±200g, this unit is ideal for unmanned motion carriers, mobile communication systems, and stabilization platforms. It serves as a direct replacement for the
Next-Generation 10-Axis Inertial Measurement Unit for Precision Navigation
Next-Generation 10-Axis Inertial Measurement Unit for Precision Navigation Product Overview The 16488HB IMU features built-in high-performance MEMS sensors that deliver exceptional motion sensing capabilities. Advanced temperature calibration and compensation algorithms ensure high accuracy in dynamic environments. This unit serves as an ideal alternative to the Adis 16497 , offering superior performance for unmanned motion carriers and mapping systems. Product Features Three
ADIS16475 Fully-Calibrated IMU with Temperature and Misalignment Compensation
ADIS16475 Fully-Calibrated IMU with Temperature and Misalignment Compensation The 16488HB IMU delivers highly accurate motion sensing, featuring a three-axis MEMS gyroscope and accelerometer. With a high MTBF and rugged design, this unit can replace the Adis 16497 in applications requiring reliable motion tracking, such as surveying, unmanned vehicles, and communication in motion. Product Features Three-Axis Digital Gyroscope ±2000°/s dynamic measurement range Zero bias
Two-Axis Gyroscope Inertial Sensor for Camera Gimbal Stabilization
Two-Axis Gyroscope Inertial Sensor for Camera Gimbal Stabilization This dual-axis gyroscope assembly delivers superior performance with an angular rate measurement range of ±500°/s, zero-bias instability as low as 0.05°/h, and random walk of 0.02°/√h. All error compensation processes, including temperature and misalignment corrections, are handled internally, ensuring reliable output for attitude control and precision applications. Weighing just 20g and operating within a
Two Axis MEMS Gyroscope with Built-in Compensation for Angular Rate Measurement
Two Axis MEMS Gyroscope with Built-in Compensation This dual-axis gyroscope assembly is a precision angular rate sensor featuring a domestic MEMS gyroscope with independent intellectual property rights. The integrated system includes drive pickup circuitry, temperature sensor, digital signal processing, and mechanical structure. It provides real-time measurement of two horizontal axial angular rates, outputting compensated data via RS-422 serial communication with comprehensi
All-in-One 10-Axis Smart IMU with Integrated Sensor Fusion Algorithm
All-in-One 10-Axis Smart IMU with Integrated Sensor Fusion Algorithm The 16488HB IMU is a complete inertial measurement system combining a three-axis gyroscope, accelerometer, magnetometer, and pressure sensor. Featuring error compensation for temperature, misalignment, and other factors, it provides accurate and reliable measurements for dynamic and static analysis, outputting data via SPI or UART. Technical Specifications Parameter Test conditions Minimum value Typical
Next-Generation 10-DOF MEMS IMU with Low Power Consumption
Next-Generation 10-DOF MEMS IMU with Low Power Consumption Compact Inertial Measurement Unit for Dynamic Applications Ideal for dynamic and motion-sensitive applications, the 16488HB IMU integrates advanced gyroscopes, accelerometers, magnetometers, and barometers to measure key environmental parameters. With built-in error correction algorithms and high sensitivity, it provides accurate data outputs in demanding conditions. Technical Specifications Parameter Test conditions
10-Axis Inertial Navigation Sensor IMU with 3-Axis Accelerometer Gyro Magnetometer Barometer
10-Axis Inertial Navigation Sensor IMU Featuring 3-axis accelerometer, gyroscope, magnetometer, and barometer for comprehensive motion and environmental sensing. All-in-One Inertial Measurement Unit The 16488HB IMU is a complete inertial measurement unit equipped with 3-axis gyroscope, accelerometer, magnetometer, and barometer. It compensates for temperature variations, misalignment, and nonlinearities, ensuring high accuracy and reliable data output via SPI or UART
Adis16488 Inertial Sensor IMU for UAV and Drone Stabilization System with Magnetometer
ADIS16488 Inertial Sensor IMU for UAV and Drone Stabilization System with Magnetometer The ADIS16488HB multi-degree-of-freedom inertial measurement unit is a complete inertial system featuring a three-axis gyroscope, three-axis accelerometer, three-axis magnetometer, and pressure sensor. This advanced IMU measures three-axis angular rate, acceleration, three-axis magnetic field, air pressure, and other critical parameters. The unit outputs error-compensated data (including
Customizable Inertial Measurement Unit with 3°/hr Bias Stability
Customizable Inertial Measurement Unit with 3°/hr Bias Stability IMU6-36 delivers high-accuracy motion tracking, capable of handling a variety of complex applications. With a bandwidth of over 100Hz and a high-resolution angular rate range of ±480°/s, the IMU6-36 is designed for systems requiring rapid and precise motion feedback, such as real-time control systems and precision instrumentation. Gyroscope Technical Specifications Parameter Unit Test Conditions IMU6-36
Real-Time Inertial Measurement Unit for Robotics and Automation
Real-Time Inertial Measurement Unit for Robotics and Automation The IMU6-36 Inertial Measurement Unit delivers precise measurements of three-axis angular rates and accelerations. This rugged unit integrates a 3-axis gyroscope, 3-axis accelerometer, temperature sensor, and signal processing board, outputting data with advanced error compensations including temperature and installation misalignment angle corrections. Designed for applications requiring high stability and
High-Performance Inertial Measurement Unit for Inertial Navigation System INS
High-Performance Inertial Measurement Unit for Inertial Navigation System INS Composition and Function The inertial measurement unit consists of a three-axis gyroscope, three-axis accelerometer, temperature sensor, signal processing board, structural components, and essential software. It measures the three-axis angular rate and acceleration of the carrier, outputting compensated data including temperature compensation, installation misalignment angle compensation, and
Navigation Grade MEMS IMU with 3 Axis Accelerometer Gyroscope
Navigation Grade MEMS IMU with 3-Axis Accelerometer & Gyroscope Composition and Function The inertial measurement unit integrates multiple precision sensors and processing components: Three-axis gyroscope for angular rate measurement Three-axis accelerometer for acceleration measurement Three-axis tilt angle sensor (optional) Temperature sensor for environmental compensation Signal processing board with advanced algorithms Robust mechanical structure Comprehensive software
MEMS Dual-Axis Gyroscope for Accurate Angular Velocity Measurement
MEMS Dual-Axis Gyroscope for Accurate Angular Velocity Measurement High-performance MEMS Dual-Axis Angular Rate Sensor designed for precision navigation and mapping applications. Product Overview The Dual-axis MEMS Gyroscope delivers real-time angular rate measurement along two horizontal axes. Utilizing advanced MEMS technology with proprietary intellectual property, this sensor integrates a driving circuit, temperature sensor, digital signal processing unit, and comprehensi
MEMS Dual-Axis Angular Rate Sensor for Navigation and Mapping
MEMS Dual-Axis Angular Rate Sensor for Navigation and Mapping Product Overview This dual-axis MEMS gyroscope features proprietary MEMS technology combined with drive pickup circuitry, temperature sensing, digital signal processing, and specialized software. It provides real-time measurement of angular rates along two horizontal axes, delivering compensated angular rate data via RS-422 serial interface. High precision dual-axis angular rate measurement Comprehensive error
Real-Time 6-Axis IMU with Full Error Compensation for Navigation
Real-Time 6-Axis IMU with Full Error Compensation for Navigation Product Overview The IMU115 is a high-performance inertial measurement unit (IMU) based on micro-mechanical MEMS technology, featuring built-in gyroscopes and accelerometers that output 3-axis angular velocities and 3-axis accelerations. Designed for exceptional reliability and environmental adaptability, this unit is suitable for intelligent driving, mobile communications, mapping, and stabilization platforms.
Low Price MEMS Inertial Measurement Unit
Product Description The 16475C is a high-precision, miniaturized MEMS motion sensor module containing three-axis gyroscope and three-axis accelerometer. Each inertial sensor in the 16475C is combined with signal conditioning circuitry to provide a simple interface for data acquisition and configuration control using an SPI interface and register structure. The 16475C is available in a 100-ball BGA package that measures approximately 15 mm x 11 mm x 11 mm. Technical Specificat
ADIS16475 MEMS Inertial Measurement Unit Module with SPI Interface
Miniature MEMS Inertial Measurement Unit Module ADIS16475 The ADIS16475C is a high-precision, miniaturized MEMS motion sensor module containing a three-axis gyroscope and three-axis accelerometer. Each inertial sensor is combined with signal conditioning circuitry to provide a simple interface for data acquisition and configuration control using an SPI interface and register structure. The module is available in a 100-ball BGA package measuring approximately 15 mm * 11 mm *
ADIS16475 MEMS IMU Module with ±500°/s Gyro and ±8g Accelerometer
Miniature MEMS Inertial Measurement Unit Module ADIS16475 The ADIS16475C is a high-precision, miniaturized MEMS motion sensor module containing a three-axis gyroscope and three-axis accelerometer. Each inertial sensor is combined with signal conditioning circuitry to provide a simple interface for data acquisition and configuration control using an SPI interface and register structure. The module is available in a 100-ball BGA package measuring approximately 15 mm × 11 mm ×
Miniaturized MEMS IMU for Motion Sensing
Product Description The 16475C is a high-precision, miniaturized MEMS motion sensor module containing three-axis gyroscope and three-axis accelerometer. Each inertial sensor in the 16475C is combined with signal conditioning circuitry to provide a simple interface for data acquisition and configuration control using an SPI interface and register structure. The 16475C is available in a 100-ball BGA package that measures approximately 15 mm x 11 mm x 11 mm. Technical Specificat