IMU Accelerometer Gyro
Full Compensation 6-Axis MEMS Inertial Measurement Unit with RS422 Data Interface
Full Compensation 6-Axis MEMS Inertial Measurement Unit with RS422 Data Interface The HG4930 IMU is a compact six-axis MEMS sensor that integrates gyroscope and accelerometer functionality. It delivers fully compensated angular rate, acceleration, and inclination measurements via RS-422 interface, including temperature and alignment corrections. With specifications including ±200°/s gyro range, ±30 g accelerometer range, 0.2°/h bias stability, and rugged operation from -45°C
Industrial Grade 9-DOF Inertial Measurement Unit IMU with Magnetometer for Stabilization
Industrial Grade 9-DOF Inertial Measurement Unit IMU with Magnetometer for Stabilization The 16488HA MEMS IMU provides six-axis inertial sensing with a three-axis gyroscope and three-axis accelerometer, featuring ±450°/s angular rate and ±20 g acceleration measurement ranges. With exceptional zero-bias instability as low as 0.3°/h (gyroscope) and 0.25 mg (accelerometer), this unit delivers low random walk and high scale factor repeatability. Full temperature, misalignment,
High Accuracy 6-Axis IMU MEMS Gyroscope & Accelerometer Module for Robotics UAV
High Accuracy 6-Axis IMU MEMS Gyroscope & Accelerometer Module for Robotics UAV The 16488HA MEMS Inertial Measurement Unit is a high-precision six-axis sensor integrating a three-axis gyroscope and three-axis accelerometer. It delivers exceptional performance with angular rate measurement up to ±450°/s and linear acceleration up to ±20 g, featuring low zero-bias instability (0.3°/h for gyro, 0.25 mg for accelerometer) and minimal random walk (0.15°/√h for gyro, 0.029 m/s/√h
High-Precision MEMS IMU 6-Axis Inertial Measurement Unit with ARW 0.02°/√h
High-Precision MEMS IMU 6-Axis Inertial Measurement Unit with ARW 0.02°/√h The HG4930 MEMS IMU offers precision six-axis inertial sensing with three-axis gyroscope and accelerometer. It provides fully compensated angular rate, acceleration, and tilt data through RS-422, correcting temperature, misalignment, and nonlinear errors. Compact, low-power, and rugged, with ±200°/s gyro, ±30 g accelerometer, 0.2°/h bias stability, it is ideal for UAVs, robotics, autonomous vehicles,
IMU115 MEMS IMU for Precise Vehicle Positioning and Orientation
IMU115 MEMS IMU for Precise Vehicle Positioning and Orientation IMU115 integrates a 3-axis gyroscope and 3-axis accelerometer for accurate 6-axis motion sensing. With ±250°/s gyro, ±4g accelerometer, and built-in compensation algorithms, it delivers reliable performance in harsh temperature, vibration, and shock conditions for UAVs, stabilized platforms, and intelligent driving. Product Features Three-axis digital gyroscope: ±250º/s dynamic measuring range (500º/s optional)
High-Stability IMU for Advanced Driver Assistance Systems ADAS
High-Stability IMU for Advanced Driver Assistance Systems (ADAS) The IMU115 MEMS inertial unit integrates 3-axis gyro and accelerometer, providing precise angular velocity and linear acceleration measurements. Features include ±250°/s gyro, ±4g accelerometer, and built-in compensation for temperature and installation errors. Compact and reliable, ideal for UAV navigation, autonomous driving, mapping, and stabilization. Product Features Three-axis digital gyroscope: ±250º/s
6-DOF IMU Sensor for Autonomous Driving Systems
6-DOF IMU Sensor for Autonomous Driving Systems IMU115 integrates 3-axis MEMS gyro and accelerometer, offering ±250°/s gyro, ±4g accel, zero-bias 6°/h and 0.12 mg, bandwidth 80 Hz. Operates 200-1000 Hz UART, 5 V, 0.35 W. Compact and reliable in harsh environments (-40°C~80°C, vibration 3g, shock 1000g). Perfect for UAV navigation, intelligent driving, and stabilized platforms. Product Features Three-axis digital gyroscope: ±250º/s dynamic measuring range (500°/s optional)
Advanced Inertial Measurement Unit with 3-Axis Gyroscope & Accelerometer
Advanced Inertial Measurement Unit with 3-Axis Gyroscope & Accelerometer IMU115 is a MEMS-based 6-axis IMU with 3-axis gyroscope ±250°/s, zero-bias 6°/h, 3-axis accelerometer ±4g, zero-bias 0.12 mg. Sampling 200-1000 Hz via UART, bandwidth 80 Hz, power 0.35 W. Built-in temperature and alignment compensation ensures accuracy under -40°C~80°C, vibration 3g, shock 1000g. Ideal for UAVs, autonomous driving, and platform stabilization. Product Features Three-axis digital gyroscope
Low Cost 200$ 6-Axis IMU for Autonomous Driving Platform
Low Cost $200 6-Axis IMU for Autonomous Driving Platform IMU115 is a high-performance 6-axis MEMS IMU offering real-time compensated measurements of angular rate and acceleration. Gyroscope ±250°/s, accelerometer ±4g (configurable 16g). Built-in temperature and misalignment correction ensures accuracy in harsh environments, making it suitable for intelligent vehicles, UAVs, and stabilized platforms. Product Features Three-axis digital gyroscope: ±250º/s dynamic measuring
High-Precision IMU for Autonomous Vehicles – 6-Axis Gyro & Accelerometer
High-Precision IMU for Autonomous Vehicles – 6-Axis Gyro & Accelerometer IMU115 is a high-precision 6-axis MEMS inertial measurement unit integrating a 3-axis gyroscope and a 3-axis accelerometer. It provides real-time compensated measurements of angular rate (±250°/s, optional ±500°/s) and linear acceleration (±4g, configurable up to 16g) via a 1-way UART interface. The unit features temperature, installation misalignment, and nonlinear compensation, ensuring accurate motion
High-Performance 6-Axis IMU Inertial Sensor for Inertial Navigation
High-Performance 6-Axis IMU Inertial Sensor for Inertial Navigation HG4930 MEMS Inertial Measurement Unit features a six-axis sensor with three-axis gyroscope and accelerometer. It provides temperature-compensated, misalignment-corrected, and fully compensated angular rate, acceleration, and tilt data over RS-422. Compact 120 g, low-power 1.5 W, with ±200°/s gyro, ±30 g accelerometer, and rugged design, it is perfect for UAVs, robotics, aerospace, defense, and autonomous
Power Consumption 1.5w Integrated Motion Accelerometer 15MHz Baud Rate
Product Description: The Integrated Motion Accelerometer Gyro (IMU) is a high-performance, low-power motion sensing solution that provides precise acceleration and angular rate measurements for a wide range of applications. With an impressive scale factor accuracy of 0.3%, this IMU packs a lot of power into a compact size of 47×44×14mm and an incredibly lightweight 50g. It can be powered by a voltage ranging from 3V to 3.6V, making it ideal for use in a variety of settings.
Precision Motion Sensing Integrated IMU Accelerometer And Gyroscope
Technical Parameters: Parameter Value Gyro Scale Factor Accuracy 0.3% Baud Rate 15MHz Gyro Measure Range 450deg/s Accelerometer Zero-Bias Stability 0.03mg Size 47×44×14 Accelerometer Measure Range 16g Weight 50g MTBF >20000h Power Consumption 1.5w Gyro Scale Factor Nonlinearity 0.01%FS
Inertial System IMU Accelerometer Gyro 16488H Inertial Measurement Unit
Product Description: The 16488H inertial measurement unit is a complete inertial system with a built-in three-axis gyroscope and a three-axis accelerometer, which is used to measure the three-axis angular rate, acceleration and other parameters of the carrier, and output the data after error compensation (including temperature compensation, installation misalignment angle compensation, nonlinear compensation, etc.) through SPI according to the communication protocol. Features
Integrated Measurement IMU Gyro And Accelerometer 0.01%FS Nonlinearity
Technical Parameters: Parameter Specification Zero-bias stability 0.8°/h Accelerometer allan variance 0.015mg Gyro scale factor nonlinearity 0.01%FS Weight 50g Working temperature -40 ~ 70℃ Accelerometer measure range 16g Baud rate 15MHz Power Supply Voltage 3V ~ 3.6V Power Consumption 1.5w Gyro measure range 450deg/s
15MHz High Performance Accelerometer To Measure Vibration 47x44x14mm Size
Product Description: The 16488H inertial measurement unit is a complete inertial system with a built-in three-axis gyroscope and a three-axis accelerometer, which is used to measure the three-axis angular rate, acceleration and other parameters of the carrier, and output the data after error compensation (including temperature compensation, installation misalignment angle compensation, nonlinear compensation, etc.) through SPI according to the communication protocol. Features
three axis Gyro Accelerometer Integrated IMU complete inertial system
Product Description: The 16488H inertial measurement unit is a complete inertial system with a built-in three-axis gyroscope and a three-axis accelerometer, which is used to measure the three-axis angular rate, acceleration and other parameters of the carrier, and output the data after error compensation (including temperature compensation, installation misalignment angle compensation, nonlinear compensation, etc.) through SPI according to the communication protocol.
16488H IMU Accelerometer Gyro 0.3% Gyrp Scale Factor
16488H IMU Accelerometer Gyro 0.3% Gyro Scale Factor Product Overview The 16488HB inertial measurement unit is a complete inertial system featuring a built-in three-axis gyroscope and three-axis accelerometer. This advanced unit measures three-axis angular rate, acceleration, and other critical parameters, outputting error-compensated data (including temperature compensation, installation misalignment angle compensation, and nonlinear compensation) via SPI communication
Baud Rate 15MHz IMU Accelerometer Gyro With 450deg/S Measure Range
Product Description: The 16488H inertial measurement unit is a complete inertial system with a built-in three-axis gyroscope and a three-axis accelerometer, which is used to measure the three-axis angular rate, acceleration and other parameters of the carrier, and output the data after error compensation (including temperature compensation, installation misalignment angle compensation, nonlinear compensation, etc.) through SPI according to the communication protocol. Features
Small Size Integrated Motion Sensor Based on MEMS Technology
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