The MicroStrain 3DM-GX5-IMU is the smallest and lightest industrial IMU available. It features a fully calibrated and temperature compensated triaxial accelerometer and gyroscope to achieve the optimum combination of measurement qualities under all dynamic conditions.
The 3DM-GX5-IMU is ideally suited for a wide range of applications, including platform stabilization, balancing robots, antenna pointing, and usage monitoring.
Datasheet
Manual
The 3DM-GX5-IMU is ideally suited for a wide range of applications, including platform stabilization, balancing robots, antenna pointing, and usage monitoring.
The 3DM®GX5-GNSS/AHRS all-in-one navigation solution features a high performance integrated multi-constellation GNSS receiver utilizing the GPS, GLONASS, BeiDou, and Galileo satellite constellations. Sensor measurements are fully calibrated, temperature-compensated, and mathematically-aligned to an orthogonal coordinate system for highly accurate outputs.
The 3DM-GX5-35 provides an economical combination of AHRS and GNSS outputs for use in customer supplied Kalman Filters.
Datasheet
Manual
The 3DM-GX5-35 provides an economical combination of AHRS and GNSS outputs for use in customer supplied Kalman Filters.
The MicroStrain 3DM®CV5-AHRS is the smallest and lightest industrial AHRS with an Adaptive Kalman Filter available. It features a fully calibrated and temperature compensated triaxial accelerometer, gyroscope, and magnetometer to achieve the optimum combination of measurement qualities under all dynamic conditions. Additionally, the dual on-board processors run a exclusive Auto-Adaptive Extended Kalman Filter (EKF) for outstanding dynamic attitude estimates, making it ideal for a wide range of applications, including platform stabilization, autopilots, robotics, and vehicle health and usage monitoring.
The 3DMCV5-AHRS is a value focused AHRS designed to balance cost and performance.
Datasheet
Manual
The 3DMCV5-AHRS is a value focused AHRS designed to balance cost and performance.
The MicroStrain 3DM®CV5-AR is the smallest and lightest industrial attitude reference available. It features a fully calibrated and temperature compensated triaxial accelerometer and gyroscope to achieve the optimum combination of measurement qualities under all dynamic conditions.
The 3DM-CV5-AR is designed to balance cost and performance, and is ideally suited for a wide range of applications, including platform stabilization, balancing robots, antenna pointing, and usage monitoring.
Datasheet
Manual
The 3DM-CV5-AR is designed to balance cost and performance, and is ideally suited for a wide range of applications, including platform stabilization, balancing robots, antenna pointing, and usage monitoring.
The MicroStrain 3DM-CV5-IMU is the smallest and lightest industrial IMU available. It features a fully calibrated and temperature compensated triaxial accelerometer and gyroscope to achieve the optimum combination of measurement qualities under all dynamic conditions.
This value focused IMU is designed to balance cost and performance, and is ideally suited for a wide range of applications, including platform stabilization, balancing robots, antenna pointing, and usage monitoring.
Datasheet
Manual
Software
This value focused IMU is designed to balance cost and performance, and is ideally suited for a wide range of applications, including platform stabilization, balancing robots, antenna pointing, and usage monitoring.
The MicroStrain 3DM-GX5-AR is the smallest and lightest industrial VRU available. It features a triaxial accelerometer, gyroscope, and temperature sensors to achieve the optimum combination of measurement qualities.
The 3DM-GX5-AR is ideally suited for a wide range of applications, including platform stabilization antenna pointing and usage monitoring.
Datasheet
Manual
The 3DM-GX5-AR is ideally suited for a wide range of applications, including platform stabilization antenna pointing and usage monitoring.
The MicroStrain 3DM®GX5-AHRS is the smallest and lightest precision industrial AHRS available. It features a fully calibrated and temperature compensated triaxial accelerometer, gyroscope, and magnetometer to achieve the optimum combination of measurement qualities under all dynamic conditions. The dual on-board processors run an exclusive Auto-Adaptive Extended Kalman Filter (EKF) for outstanding dynamic attitude estimates, making it ideal for a wide range of applications, including platform stabilization, robotics, and vehicle health and usage monitoring.
Datasheet
Manual
The MicroStrain 3DM®GX5-GNSS/INS all-in-one navigation solution features a high performance integrated multi-constellation GNSS receiver utilizing the GPS, GLONASS, BeiDou, and Galileo satellite constellations. Sensor measurements are fully calibrated, temperature-compensated, and mathematically-aligned to an orthogonal coordinate system for highly accurate outputs. The highly linear sensor performance and auto-adaptive estimation filter algorithm produces highly accurate computed outputs under real-world dynamic conditions.
Datasheet
The 3DM®-GQ4-45 is a compact, tactical-grade all-in-one navigation solution with an integrated multi-constellation GNSS receiver utilizing the GPS, GLONASS, BeiDou, and Galileo satellite constellations. Sensor measurements are fully calibrated, temperature-compensated, and mathematically-aligned to an orthogonal coordinate system. The highly linear sensor performance and auto-adaptive estimation filter algorithm produces extremely accurate computed outputs under real-world dynamic conditions.
Datasheet
Manual
The 3DM-GX3® -25-OEM is a lower cost, miniature, industrial-grade attitude heading and reference system (AHRS) with integrated magnetometers, and OEM form factor.
Product Highlights
- High performance integrated MEMS sensor technology provide direct and computed AHRS outputs in a small package.
- Triaxial accelerometer, gyroscope, magnetometer, and temperature sensors achieve the best combination of measurement qualities.
- On-board processor runs a sophisticated Complimentary Filter (CF) fusion algorithm for precise attitude estimates and inertial measurements
- Sampling rates up to 30 KHz and data output up to 1 KHz
- Small size, lightweight packaging, and header connector interface ideal for OEM integration
Pages
Best in Class Performance
- Fully calibrated, temperature-compensated, and mathematically-aligned to an orthogonal coordinate system for highly accurate outputs
- High-performance, low-drift gyros with noise density of 0.005°/sec/√Hz and VRE of 0.001°/s/g2RMS
- Accelerometer noise as low as 25 ug/√Hz
Ease of Use
- Easy integration via comprehensive and fully backwards-compatible communication protocol
- Robust, forward compatible MIP packet protocol
Cost Effective
- Out-of-the box solution reduces development time
- Volume discounts
Best in Class Performance
- Fully calibrated, temperature-compensated, and mathematically-aligned to an orthogonal coordinate system for highly accurate outputs
- High-performance, low-drift gyros with noise density of 0.005°/sec/√Hz and VRE of 0.001°/s/g2RMS
- Accelerometer noise as low as 25 ug/√Hz
Ease of Use
- Easy integration via comprehensive and fully backwards-compatible communication protocol
Cost Effective
- Out-of-the box solution reduces development time
- Volume discounts
Best in Class Performance
- Bias tracking, error estimation, threshold flags, and adaptive noise modeling allow for fine tuning to conditions in each application
- Smallest and lightest industrial AHRS with Adaptive Kalman Filter available
- High-performance, low-cost solution
- Direct PCB mount or chassis mount with ribbon cable
- Precision mounting alignment features
Ease of Use
- User-defined sensor-to-vehicle frame transformation
- Easy integration via comprehensive and fully backwards-compatible communication protocol
- Common protocol between 3DM-GX3, GX4, RQ1, GQ4, GX5, and CV5
Cost Effective
- Out-of-the box solution reduces development time
- Volume discounts
Features for Our Lower Cost Vertical Reference Units
Expect a Best in Class Performance with Each Miniature Vertical Reference Unit
- Fully calibrated, temperature-compensated, and mathematically-aligned to an orthogonal coordinate system for highly accurate outputs
- High-performance, low-cost solution
- Precision mounting alignment features
- Bias tracking, error estimation, threshold flags, and adaptive noise modeling
- Bias tracking, error estimation, threshold flags, and adaptive noise modeling allow for fine tuning to conditions in each application
Ease of Use for These 3DM® -CV5-15 Units
- Easy integration via comprehensive and fully backwards-compatible communication protocol
- Robust, forward compatible MIP packet protocol
- Common protocol between 3DM-GX3, GX4, RQ1, GQ4, GX5, and CV5
Cost Effectiveness
- Out-of-the box solution reduces development time
- Volume discounts
Features of Our Lower Cost Inertial Measurement Units
Provides a Best in Class Performance
- High-performance, low-cost solution
- Direct PCB mount or chassis mount with ribbon cable
- Precision mounting alignment features
- Fully calibrated, temperature-compensated, and mathematically-aligned to an orthogonal coordinate system for highly accurate outputs
Ease of Use for Each 3DM-CV5-10 Miniature Inertial Unit
- Easy integration via comprehensive and fully backwards-compatible communication protocol
- Robust, forward compatible MIP packet protocol
- Common protocol between 3DM-GX3, GX4, RQ1, GQ4, GX5, and CV5
A Cost Effective Solution for Your Company
- Out-of-the box solution reduces development time
- Volume discounts available for these low cost inertial measurement units
Best in Class Performance
- Fully calibrated, temperature-compensated, and mathematically-aligned to an orthogonal coordinate system for highly accurate outputs
- Bias tracking, error estimation, threshold flags, and adaptive noise modeling allow for fine tuning to conditions in each application
- High-performance, low-drift gyros with noise density of 0.005°/sec/√Hz and VRE of 0.001°/s/g2RMS
- Accelerometer noise as low as 25 ug/√Hz
Ease of Use
- User-defined sensor-to-vehicle frame transformation
- Common protocol between 3DM-GX3, GX4, RQ1, GQ4, GX5, and CV5
- Robust, forward compatible MIP packet protocol
Cost Effective
- Out-of-the box solution reduces development time
- Volume discounts
Best in Class Performance
- Bias tracking, error estimation, threshold flags, and adaptive noise modeling allow for fine tuning to conditions in each application
- Accelerometer noise as low as 25 ug/√Hz
- Smallest and lightest industrial AHRS with Adaptive Kalman Filter available
Ease of Use
- Automatic magnetometer calibration and anomaly rejection eliminates the need for field calibration
- Automatically compensates for vehicle noise and vibration
- Easy integration via comprehensive and fully backwards-compatible communication protocol
- Common protocol between 3DM-GX3, GX4, RQ1, GQ4, GX5, and CV5 inertial sensor families for easy migration
Cost Effective
- Out-of-the box solution reduces development time
- Volume discounts
Best in Class Performance
- Fully calibrated, temperature-compensated, and mathematically-aligned to an orthogonal coordinate system for highly accurate outputs
- High performance, low drift gyros with noise density of 0.005°/sec/√Hz and VRE of 0.001°/s/g²2RMS
- Accelerometer noise as low as 25 µg/√Hz
- Common protocol between 3DM®-GX3, GX4, RQ1, GQ4, GX5, and CV5
Ease of Use
-
Automatic magnetometer calibration and anomaly rejection eliminates the need for field calibration
-
Automatically compensates for vehicle noise and vibration
- Easy integration via comprehensive and fully backward-compatible communication protocol
Cost Effective
- Out-of-the-box solution reduces development time
- Volume discounts
Best in Class Performance
- Fully calibrated, temperature-compensated, and mathematically aligned to an orthogonal coordinate system for highly accurate outputs
- Bias tracking, error estimation, threshold flags, and adaptive noise, magnetic, and gravitational field modeling allow for fine tuning to conditions in each application
- High performance, low drift gyros with noise density of 0.002°/sec/√Hz and VRE of 0.001°/s/g2RMS
- Smaller and lighter than most tactical grade GNSS/INS units
-
Ease of Use
- User-defined sensor-to-vehicle frame transformation
- Easy integration via comprehensive SDK
- Common protocol between 3DM-GX3, GX4, RQ1, GQ4, GX5, and CV5
-
Cost Effective
- Out-of-the box solution reduces development time
- High performance tactical grade outputs at an industrial grade price
Best in Class Performance
- Fully calibrated, temperature compensated, and mathematically aligned to an orthogonal coordinate system for highly accurate outputs
- Bias tracking, error estimation, threshold flags, and adaptive noise modeling allow for fine tuning to conditions in each application.
Ease of Use
- Easy integration via comprehensive SDK
- Common protocol with the 3DM-GX4® and 3DM-RQ1™ sensor families for easy migration
Cost Effective
- Out-of-the box solution reduces development time.
- Volume discounts
Pages
Sensor
-
High Performance Accelerometer
- 25 µg/√Hz (8g option)
- 80 µg/√Hz (20g option)
-
Super-stable Gyro
- 8 dph in-run bias (-40 to +85°C)
- Offset temperature hysteresis 0.05°/s
- ARW 0.3°/√hr
Operation
- Adjustable sampling rates up to 1000Hz
- Configurable IMU outputs
- Forward compatible MIP Protocol optimizes bandwidth
- SensorConnect software for configuration, control, display, and logging
Package
- CNC Anodized Aluminum
- Precision alignment features
-
Highly compact and low profile
- 36.0 mm x 36.6 mm x 11 mm
- 16.5 grams
- RS-232 (up to 921600 BAUD) interfaces
- –40 to +85 °C operating temperature range
Sensor
- Multi-Constellation receiver tracks up to 32 satellites
-
High Performance Accelerometer
- 25 µg/√Hz (8g option)
- 80 µg/√Hz (20g option)
-
Super-stable Gyro
- 8 dph in-run bias (-40 to +85°C)
- Offset temperature hysteresis 0.05°/s
- ARW 0.3°/√hr
Operation
- Adjustable sampling rates up to 500Hz
- Independently configurable IMU and GNSS outputs
- Forward compatible MIP Protocol optimizes bandwidth
- SensorConnect software for configuration, control, display, and logging
Package
- CNC Anodized Aluminum
- Precision alignment features
- Highly compact and low profile
- 44.2 mm x 36.6 mm x 11 mm
- 20.0 grams
- USB and RS-232 (up to 921600 BAUD)interfaces
- –40 to +85 °C operating temperature range
Sensor
-
High Performance Accelerometer
- 100 µg/√Hz (8g standard)
- 2g, 4g, 20g, 40g options
-
Super-stable Gyro
- 8 dph in-run bias (-40 to +85°C)
- Offset temperature hysteresis 0.05°/s
- ARW 0.3°/√hr
Operation
- IMU sampling rate up to 1000Hz
- Auto-adaptive EKF output rate up to 500Hz
- In-run auto-mag calibration features
- Independently configurable IMU and EKF outputs
- SensorConnect software for configuration, control, display, and logging
Package
- CNC Anodized Aluminum
- Precision alignment features
- Highly compact and low profile
- 38.0 mm x 24.0 mm x 9.7 mm
- 13.0 grams
- USB and TTL UART interface (up to 921600 BAUD)
- –40 to +85 °C operating temperature range
Sensor
-
High Performance Accelerometer
- 100 µg/√Hz (8g standard)
- 2g, 4g, 20g, 40g options
-
Super-stable Gyro
- 8 dph in-run bias (-40 to +85°C)
- Offset temperature hysteresis 0.05°/s
- ARW 0.3°/√hr
Operation
- IMU sampling rate up to 1000Hz
- Auto-adaptive EKF output rate up to 500Hz
- Independently configurable IMU and EKF outputs
- Forward compatible MIP Protocol optimizes bandwidth
- SensorConnect software for configuration, control, display, and logging
Package
- CNC Anodized Aluminum
- Precision alignment features
- Highly compact and low profile
- 38.0 mm x 24.0 mm x 9.7 mm
- 11.0 grams
- TTL UART interface (up to 921600 BAUD)
- –40 to +85 °C operating temperature range
Sensor
-
High Performance Accelerometer
- 100 µg/√Hz (8g standard)
- 2g, 4g, 20g, 40g options
-
Super-stable Gyro
- 8 dph in-run bias (-40 to +85°C)
- Offset temperature hysteresis 0.05°/s
- ARW 0.3 °/√hr
Operation
- Adjustable sampling rates up to 1000Hz
- Forward compatible MIP Protocol optimizes bandwidth
- Configurable IMU outputs
- SensorConnect software for configuration, control, display, and logging
Package
- CNC Anodized Aluminum
- Precision alignment features
-
Highly compact and low profile
- 38.0 mm x 24.0 mm x 9.7 mm
- 11.0 grams
- TTL UART interface (up to 921600 BAUD)
- –40 to +85 °C operating temperature range
Sensor
-
High Performance Accelerometer
- 25 µg/√Hz (8g option)
- 80 µg/√Hz (20g option)
-
Super-stable Gyro
- 8 dph in-run bias (-40 to +85°C)
- Offset temperature hysteresis 0.05°/s
- ARW 0.3°/√hr
- Pitch-roll static/dynamic accuracy ±0.25°/0.4°
Operation
- IMU sampling rate up to 1000Hz
- Auto-adaptive EKF output rate up to 500Hz
- Independently configurable IMU and EKF outputs
- Forward compatible MIP Protocol optimizes bandwidth
- SensorConnect software for configuration, control, display, and logging
Package
- CNC Anodized Aluminum
- Precision alignment features
-
Highly compact and low profile
- 36.0 mm x 36.6 mm x 11 mm
- 16.5 grams
- USB and RS-232 (up to 921600 BAUD) interfaces
- –40 to +85 °C operating temperature range
Sensor
-
High Performance Accelerometer
- 25 µg/√Hz (8g option)
- 80 µg/√Hz (20g option)
-
Super-stable Gyro
- 8 dph in-run bias (-40 to +85°C)
- Offset temperature hysteresis 0.05°/s
- ARW 0.3°/√hr
- Pitch-roll static/dynamic accuracy ±0.25°/0.4°
Operation
- IMU sampling rate up to 1000Hz
- Auto-adaptive EKF output rate up to 500Hz
- Independently configurable IMU and EKF outputs
- Forward compatible MIP Protocol optimizes bandwidth
- SensorConnect software for configuration, control, display, and logging
Package
- CNC Anodized Aluminum
- Precision alignment features
-
Highly compact and low profile
- 36.0 mm x 36.6 mm x 11.1 mm
- 16.5 grams
- USB and RS-232 (up to 921600 BAUD) interfaces
- –40 to +85 °C operating temperature range
Sensor
- Multi-Constellation receiver tracks up to 32 satellites
-
High Performance Accelerometer
- 25 µg/√Hz (8g option)
- 80 µg/√Hz (20g option)
-
Super-stable Gyro
- 8 dph in-run bias (-40 to +85°C)
- Offset temperature hysteresis 0.05°/s
- ARW 0.3°/√hr
- Pitch-roll Dynamic Accuracy ±0.2°
Operation
- Adjustable sampling rates up to 500Hz
- 34 state auto-adaptive EKF
- Independently configurable IMU, GNSS, EKF outputs
- Forward compatible MIP Protocol optimizes bandwidth
- SensorConnect software for configuration, control, display, and logging
Package
- CNC Anodized Aluminum
- Precision alignment features
- Highly compact and low profile
- 44.2 mm x 36.6 mm x 11 mm
- 20 grams
- USB and RS-232 interfaces
- –40 to +85 °C operating temperature range
Sensor
- Multi-Constellation receiver tracks up to 32 satellites
-
High Performance Accelerometer
- 50 µg/√Hz (+-5g option)
-
Super-stable Gyro
- 5 dph in-run bias (-40 to +85°C)
- Non-linearity ±0.02% fs
- ARW 0.2 °/√hr
- Attitude repeatability 0.1°
Operation
- Adjustable sampling rates up to 500Hz
- 34 state auto-adaptive EKF
- Independently configurable IMU, GNSS, EKF outputs
- Forward compatible MIP Protocol optimizes bandwidth
- SensorConnect software for configuration, control, display, and logging
Package
- Anodized Aluminum
- Precision alignment features
- Highly compact and low profile
- 76.2mm x 65.4mm x 18.9mm
- 105 grams
- USB and RS-232 interfaces
- –40 to +85 °C operating temperature range
|
General |
|||
|---|---|---|---|
|
Integrated sensors |
Triaxial accelerometer, triaxial gyroscope, triaxial magnetometer, and temperature sensors, |
||
|
Data outputs |
Inertial Measurement Unit (IMU) outputs: acceleration, angular rate, magnetic field , deltaTheta, deltaVelocity Computed outputs: attitude estimates (in Euler angles, quaternion, orientation matrix), |
||
|
Resolution |
16 bit SAR oversampled to 17 bits |
||
|
Inertial Measurement Unit (IMU) Sensor Outputs |
|||
|
Accelerometer |
Gyroscope |
Magnetometer |
|
|
Measurement range |
±5 g (standard) ±1.7±16, and ±50 g (option) |
300°/sec (standard) ±50, ±600,±1200 °/sec (options) |
±2.5 Gauss |
|
Non-linearity |
±0.1 % fs |
±0.03 % fs |
±0.4 % fs |
|
Bias instability |
±0.04 mg |
18°/hr |
-- |
|
Initial bias error |
±0.002 g |
±0.25°/sec |
±0.003 Gauss |
|
Scale factor stability |
±0.05 % |
±0.05 % |
±0.1 % |
|
Noise density |
80 µg/√Hz |
0.03°/sec/√Hz |
100 µGauss/√Hz |
|
Alignment error |
±0.05° |
±0.05° |
±0.05° |
|
Adjustable bandwidth |
225 Hz (max) |
440 Hz (max) |
230 Hz (max) |
|
IMU filtering |
Digitally filtered (user adjustable) and scaled to physical input; coning and sculling integrals computed at 1 kHz |
||
|
Sampling rate |
30 kHz |
30 kHz |
7.5 kHz |
|
IMU data output rate |
1 Hz to 1000 Hz |
||
|
Computed Outputs |
|||
|
Attitude accuracy |
±0.5° roll, pitch, and heading (static, typ), ±2.0° roll, pitch, and heading (dynamic, typ) |
||
|
Attitude heading range |
360° about all axes |
||
|
Attitude resolution |
< 0.01° |
||
|
Attitude repeatability |
0.2° (typ) |
||
|
Calculation update rate |
1000 Hz |
||
|
Computed data output rate |
1 Hz to 500 Hz |
||
|
Operating Parameters |
|||
|
Communication |
USB 2.0, TTL (3.3 V dc, 9,600 bps to 921,600 bps, default 115,200) |
||
|
Power source |
+ 3.1 to + 5.5 V dc |
||
|
Power consumption |
80 mA at 5 V dc (USB) |
||
|
Operating temperature |
-40 °C to +70 °C |
||
|
Mechanical shock limit |
500 g |
||
|
Physical Specifications |
|||
|
Dimensions |
38 mm x 24 mm x 11.6 mm |
||
|
Weight |
11.6 grams |
||
|
Regulatory compliance |
ROHS |
||
|
Integration |
|||
|
Connectors |
Data/power output: Samtec FTSH Series (FTSH-105-01-F-D-K) |
||
|
Software |
MIP™ Monitor, Windows XP/Vista/7/8 compatible |
||
|
Compatibility |
Protocol compatibility with 3DM-RQ1™ and 3DM- GX4® sensor families. |
||
|
Software development kit (SDK) |
MIP™ data communications protocol with sample code available (OS and computing platform independent) |
||
Pages
General Documentation
General Documentation
General Documentation
Technical Notes
- Interface Control Drawing
- C-Series Connectivity Board Interface Control Document
- Inertial product comparison
- Inertial Sensor Utils User Manual
- Auto-Adaptive Dynamic Roll & Pitch Performance
- When to use “Capture Gyro Bias”
- Using a GX5 with Bluetooth RS-232 Adapters
- Using a Hardware Datalogger with Inertial Sensors
General Documentation
Technical Notes
- Interface Control Drawing
- C-Series Connectivity Board Interface Control Document
- Inertial product comparison
- Auto-Adaptive Dynamic Roll & Pitch Performance
- When to use “Capture Gyro Bias”
- Overview of All Inertial Products
- Inertial Sensor Utils User Manual
- Using a Hardware Datalogger with Inertial Sensors
General Documentation
General Documentation
Technical Notes
- Product Comparison: GX5 Series vs. GV7 Series
- Inertial product comparison
- Inertial Sensor Utils User Manual
- Migrating from 3DM-GX4 to 3DM-GX5 Series
- Using a GX5 with Bluetooth RS-232 Adapters
- Auto-Adaptive Dynamic Roll & Pitch Performance
- When to use “Capture Gyro Bias”
- Using a Hardware Datalogger with Inertial Sensors
General Documentation
Technical Notes
- Product Comparison: GX5 Series vs. GV7 Series
- Migrating from 3DM-GX4 to 3DM-GX5 Series
- Inertial product comparison
- Inertial Sensor Utils User Manual
- Using a GX5 with Bluetooth RS-232 Adapters
- When to use “Capture Gyro Bias”
- Auto-Adaptive Dynamic Roll & Pitch Performance
- Using a Hardware Datalogger with Inertial Sensors
General Documentation
Technical Notes
- Product Comparison: GX5 Series vs. GV7 Series
- Migrating from 3DM-GX4 to 3DM-GX5 Series
- Using a GX5 with Bluetooth RS-232 Adapter
- Auto-Adaptive Dynamic Roll & Pitch Performance
- When to use “Capture Gyro Bias”
- Inertial Product Comparison
- Inertial Sensor Utils User Manual
- Using a Hardware Datalogger with Inertial Sensors
General Documentation
General Documentation
- 3DM-GX3® -25 OEM Product Datasheet
- 3DM-GX3® -25 OEM Mounting and Connector Information
- 3DM-GX3® -25 MIP Quick Start Guide
- 3DM-GX3® -25 Single Byte Quick Start Guide
- MIP Hard and Soft Iron Calibration Quick Start Guide
- 3DM-GX3® -15,-25 MIP Data Communications Protocol
- 3DM-GX3-25 Single Byte Data Communications Protocol
- Dewesoft™ 3DM-GX3® -25 Single Byte Plugin Instructions
- 3DM-GX3® Data Communications Protocol Errata
- MIP Software Downloads
- Firmware Upgrades for 3DM-GX3®
- Inertial product comparison
Technical Notes
- 3DM-GX3® Importing Magnetic Vectors
- Extending the USB Cable
- Using an Hardware Datalogger with Inertial Sensors
- 3DM-GX3® Startup Settings
- Using Dataloggers with Inertial Sensors
- Phihong PSA05R-090 Power Supply
- 3DM-GX3® -25 Up and North Compensation
- Working with the 3DM-GX3® -25 Update Mode
- Using the 3DM-GX3® -25 Capture Gyro Bias Function
- 3DM-GX3® -25 Coning and Sculling
- Operating the 3DM-GX3® -25 Software on the Mac OS X
Mechanical Prints (Uncontrolled)
Video
Pages
Software/Firmware
Software/Firmware
More
- Tallysman TW4721 GNSS Antenna Datasheet
- Micro D-to-USB Communication and Power Cable
- Micro D-to-RS232 Communication and Power Cable
- PSA-05R-090 9 Volt DC Power Supply for RS-232 Cable
- Craft Cable with Micro DB9 and Flying Leads
- 3DM-GX5-35 Drawing (STP File)
- Dewesoft Inertial Sensor Manual
- 6212-3000 CONNECTIVITY KIT, RS232, GNSS
- 6212-3002 CONNECTIVITY KIT USB, GNSS
Software/Firmware
More
- Micro D-to-USB Communication and Power Cable
- Micro D-to-RS232 Communication and Power Cable
- Craft Cable with Micro DB9 and Flying Leads
- C-Series Connectivity Board Drawing (STP File)
- 3DMCV5 3D Model (STP File)
- Dewesoft Inertial Sensor Manual
- 6212-3006 OEM Cable Kit
- 6212-3010 DEVELOPMENT KIT, RS232, INERTIAL C-SERIES
- 6212-3009 DEVELOPMENT KIT, USB, INERTIAL C-SERIES
Software/Firmware
More
- Micro D-to-USB Communication and Power Cable
- Micro D-to-RS232 Communication and Power Cable
- Craft Cable with Micro DB9 and Flying Leads
- C-Series Connectivity Board Drawing (STP File)
- 3DMCV5 3D Model (STP File)
- Dewesoft Inertial Sensor Manual
- 6212-3006 OEM Cable Kit
- 6212-3010 DEVELOPMENT KIT, RS232, INERTIAL C-SERIES
- 6212-3009 DEVELOPMENT KIT, USB, INERTIAL C-SERIES
Software/Firmware
Software/Firmware
More
- Micro D-to-USB Communication and Power Cable
- Micro D-to-RS232 Communication and Power Cable
- PSA-05R-090 9 Volt DC Power Supply for RS-232 Cable
- Craft Cable with Micro DB9 and Flying Leads
- 3DM-GX5-15 Drawing (STP File)
- Dewesoft Inertial Sensor Manual
- 6212-3004 CONNECTIVITY KIT, USB, AHRS/IMU
- 6212-3001 CONNECTIVITY KIT, RS232, AHRS/IMU
Software/Firmware
More
- Micro D-to-USB Communication and Power Cable
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Software/Firmware
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Software
