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Motion Sensors - IMUs (Inertial Measurement Units)

Image Part Number Description / PDF Quantity Rfq
BMI085

BMI085

Bosch Sensortec

ACCELEROMETER 2-8G

0
ADIS16365BMLZ

ADIS16365BMLZ

Analog Devices, Inc.

IMU ACCEL/GYRO 3-AXIS SPI 24ML

57
ICM-42605

ICM-42605

TDK InvenSense

IMU ACCEL/GYRO/TEMP I2C/SPI LGA

8175
MPU-6000

MPU-6000

TDK InvenSense

IMU ACCEL/GYRO I2C/SPI 24QFN

5999
N580-A125

N580-A125

Honeywell Aerospace

HGUIDE N580 INERTIAL GNSS NAVIGA

0
N380-A253

N380-A253

Honeywell Aerospace

HGUIDE N380 INERTIAL/GNSS NAVIGA

3
I300AA50

I300AA50

Honeywell Aerospace

IMU ACCEL/GYRO RS-422,5V TTL,CAN

2
FXOS8700CQR1

FXOS8700CQR1

NXP Semiconductors

IMU ACCEL/MAG 3-AXIS I2C/SPI QFN

0
ADIS16480BMLZ

ADIS16480BMLZ

Analog Devices, Inc.

MODULE GYRO/ACCELEROMETER 24LEAD

0
MTI-20-2A8G4

MTI-20-2A8G4

Xsens

IMU ACCEL/GYRO/MAG UART/USB

0
ADIS16475-1BMLZ

ADIS16475-1BMLZ

Analog Devices, Inc.

6 DOF PREC IMU, 8G (125 DPS DNR)

0
BHI160

BHI160

Bosch Sensortec

IMU ACCEL/GYRO 3-AXIS I2C 24LGA

78
ISC-IC400-000K

ISC-IC400-000K

Thales Visionix, Inc.

INERTIACUBE4 SENSOR 3-DOF

6
OPENIMU300ZI

OPENIMU300ZI

Aceinna Inc.

OPEN SOURCE IMU 9DOF - UART/SPI

10
MTI-10-4A8G4

MTI-10-4A8G4

Xsens

IMU ACCEL/GYRO/MAG UART/USB

0
I300BA50

I300BA50

Honeywell Aerospace

IMU ACCEL/GYRO RS-422,5V TTL,CAN

0
ICG-20660L

ICG-20660L

TDK InvenSense

6-AXIS MOTIONTRACKING DEVICE THA

72
6DF-1N6-C2-HWL

6DF-1N6-C2-HWL

Honeywell Sensing and Productivity Solutions

IMU ACCEL/GYRO 3-AXIS CAN BUS

7
KMX62-1031-FR

KMX62-1031-FR

ROHM Semiconductor

TRI-AXIS ACCELEROMETER(SELECTABL

53
IAM-20680HP

IAM-20680HP

TDK InvenSense

6 AXIS GYROSCOPE

0

Motion Sensors - IMUs (Inertial Measurement Units)

1. Overview

Inertial Measurement Units (IMUs) are electronic devices that measure and report specific force, angular rate, and orientation. They combine multiple sensors (typically accelerometers, gyroscopes, and sometimes magnetometers) to provide six degrees of freedom (6-DoF) data. IMUs are critical in navigation systems, robotics, and motion tracking, enabling precise spatial awareness in applications ranging from aerospace to consumer electronics.

2. Main Types and Functional Classification

TypeFunctional FeaturesApplication Examples
6-Axis IMUCombines 3-axis accelerometer and 3-axis gyroscopeSmartphones, wearable devices
9-Axis IMUAdds 3-axis magnetometer for heading accuracyAR/VR headsets, navigation systems
Tactical-Grade IMUHigh-precision MEMS with temperature compensationUnmanned aerial vehicles (UAVs), industrial robotics
Consumer-Grade IMULow-cost, low-power MEMS sensorsIoT devices, gaming controllers

3. Structure and Components

A typical IMU consists of:

  • Accelerometer: Measures linear acceleration using micro-electromechanical systems (MEMS)
  • Gyroscope: Detects angular velocity via Coriolis effect in MEMS structures
  • Magnetometer (optional): Provides heading reference using Earth's magnetic field
  • Signal Conditioning Circuitry: Analog-to-digital converters and temperature sensors
  • Microcontroller: Executes sensor fusion algorithms (e.g., Kalman filters)

4. Key Technical Specifications

ParameterDescriptionImportance
Measurement RangeMaximum acceleration/angular rate detectableDetermines suitability for high-dynamic environments
Accuracy (Bias/Noise)Error margins under static/dynamic conditionsImpacts long-term stability and precision
Data Update RateSampling frequency (Hz)Higher rates improve real-time responsiveness
Power ConsumptionOperating current/voltage requirementsCrucial for battery-powered devices
Operating TemperatureFunctional temperature rangeAffects reliability in harsh environments

5. Application Fields

  • Autonomous Vehicles: Navigation, lane-keeping, collision avoidance
  • Consumer Electronics: Gesture control in smartphones and gaming consoles
  • Healthcare: Motion analysis in rehabilitation devices
  • Industrial: Predictive maintenance of rotating machinery
  • Aerospace: Flight control systems in drones and satellites

6. Leading Manufacturers and Products

ManufacturerProduct SeriesKey Features
STMicroelectronicsLSM6DSOX6-axis IMU with AI motion recognition engine
Analog DevicesADIS16495Tactical-grade IMU with 40g range and 0.005 /hr bias instability
Invensense (TDK)ICM-206896-axis IMU with 8 MHz SPI interface for gaming applications
Bosch SensortecBMI270Low-power 6-axis IMU for wearables with step detection

7. Selection Guidelines

Key considerations:

  • Application Requirements: Consumer vs. industrial grade
  • Environmental Factors: Vibration, temperature extremes
  • Integration Complexity: Communication protocols (I2C/SPI), mounting constraints
  • Cost vs. Performance: Trade-offs between precision and budget
  • Calibration Needs: Factory calibration vs. field adjustment

8. Industry Trends

Emerging developments include:

  • Integration of AI accelerators for edge computing
  • Miniaturization through advanced MEMS packaging (e.g., 3D wafer-level bonding)
  • Multi-sensor fusion with GNSS and LiDAR for enhanced navigation
  • Increased adoption in medical wearables for fall detection
  • Advancements in fiber optic gyroscopes (FOGs) for defense applications

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