Close
Main Categories
    Filters
    Preferences
    Search

    navX-Micro Robotics Navigation Sensor for FTC & FRC

    The navX-Micro Robotics Navigation Sensor for FTC Robotics designed for use with the Android-Based FIRST Technology Challenge (FTC) Robotics Control System.  navX-Micro is based on the same core technology within the navX-MXP sensor now in use by hundreds of FIRST Robotics Challenge (FRC) teams.

    Super-charge your robot:

    • Field-Oriented Drive
    • Auto-balance
    • Auto-rotate to angle
    • Motion Detection
    • Collision Detection

    navX-Micro features a 32-bit ARM processor, the Invensense MPU-9250 sensor system-on-chip, and software algorithms which include enhanced sensor calibration, data fusion combining gyro, accelerometer and magnetometer data into a “9-axis heading”, and high-quality magnetometer calibration including magnetic disturbance detection. In addition to being an Inertial Measurement Unit, navX-Micro capabilities are referred to within the aerospace industry as an “Attitude/Heading Reference System” (AHRS). Kauailabs brings this high-tech AHRS capability to FIRST FTC teams – to use, learn and explore. navX-Micro is a key component of Kauai Labs’ ongoing efforts to make state-of-the-art navigation technologies used in drones and autonomous vehicles (e.g., the Google Car) available to robotics students and enthusiasts as low-cost, open-source products.

    The navX-Micro FTC library is also compatible with the currentlyavailable navX-MXP sensor for those teams wishing to get started immediately.

    Open Source schematics, firmware source code, FTC library source code and example code is available online.  For those desiring an enclosure, a 3D-printable enclosure is also available for those wishing to create their own, or can be purchased separately online.

    navX-Micro Robotics Navigation Sensor for FTC & FRC - With Case

    The navX-Micro Robotics Navigation Sensor for FTC Robotics designed for use with the Android-Based FIRST Technology Challenge (FTC) Robotics Control System.  navX-Micro is based on the same core technology within the navX-MXP sensor now in use by hundreds of FIRST Robotics Challenge (FRC) teams.

    Super-charge your robot:

    • Field-Oriented Drive
    • Auto-balance
    • Auto-rotate to angle
    • Motion Detection
    • Collision Detection

    navX-Micro features a 32-bit ARM processor, the Invensense MPU-9250 sensor system-on-chip, and software algorithms which include enhanced sensor calibration, data fusion combining gyro, accelerometer and magnetometer data into a “9-axis heading”, and high-quality magnetometer calibration including magnetic disturbance detection. In addition to being an Inertial Measurement Unit, navX-Micro capabilities are referred to within the aerospace industry as an “Attitude/Heading Reference System” (AHRS). Kauailabs brings this high-tech AHRS capability to FIRST FTC teams – to use, learn and explore. navX-Micro is a key component of Kauai Labs’ ongoing efforts to make state-of-the-art navigation technologies used in drones and autonomous vehicles (e.g., the Google Car) available to robotics students and enthusiasts as low-cost, open-source products.

    The navX-Micro FTC library is also compatible with the currentlyavailable navX-MXP sensor for those teams wishing to get started immediately.

    Open Source schematics, firmware source code, FTC library source code and example code is available online.  For those desiring an enclosure, a 3D-printable enclosure is also available for those wishing to create their own, or can be purchased separately online.

    MFR Part #: 71040-2
    $88.95
    navX-Micro Robotics Navigation Sensor for FTC & FRC - No Case

    The navX-Micro Robotics Navigation Sensor for FTC Robotics designed for use with the Android-Based FIRST Technology Challenge (FTC) Robotics Control System.  navX-Micro is based on the same core technology within the navX-MXP sensor now in use by hundreds of FIRST Robotics Challenge (FRC) teams.

    Super-charge your robot:

    • Field-Oriented Drive
    • Auto-balance
    • Auto-rotate to angle
    • Motion Detection
    • Collision Detection

    navX-Micro features a 32-bit ARM processor, the Invensense MPU-9250 sensor system-on-chip, and software algorithms which include enhanced sensor calibration, data fusion combining gyro, accelerometer and magnetometer data into a “9-axis heading”, and high-quality magnetometer calibration including magnetic disturbance detection. In addition to being an Inertial Measurement Unit, navX-Micro capabilities are referred to within the aerospace industry as an “Attitude/Heading Reference System” (AHRS). Kauailabs brings this high-tech AHRS capability to FIRST FTC teams – to use, learn and explore. navX-Micro is a key component of Kauai Labs’ ongoing efforts to make state-of-the-art navigation technologies used in drones and autonomous vehicles (e.g., the Google Car) available to robotics students and enthusiasts as low-cost, open-source products.

    The navX-Micro FTC library is also compatible with the currentlyavailable navX-MXP sensor for those teams wishing to get started immediately.

    Open Source schematics, firmware source code, FTC library source code and example code is available online.  For those desiring an enclosure, a 3D-printable enclosure is also available for those wishing to create their own, or can be purchased separately online.

    MFR Part #: 71039
    $79.00
    navX-Micro Robotics Navigation Sensor for FTC & FRC - Case for NavX-Micro

    The navX-Micro Robotics Navigation Sensor for FTC Robotics designed for use with the Android-Based FIRST Technology Challenge (FTC) Robotics Control System.  navX-Micro is based on the same core technology within the navX-MXP sensor now in use by hundreds of FIRST Robotics Challenge (FRC) teams.

    Super-charge your robot:

    • Field-Oriented Drive
    • Auto-balance
    • Auto-rotate to angle
    • Motion Detection
    • Collision Detection

    navX-Micro features a 32-bit ARM processor, the Invensense MPU-9250 sensor system-on-chip, and software algorithms which include enhanced sensor calibration, data fusion combining gyro, accelerometer and magnetometer data into a “9-axis heading”, and high-quality magnetometer calibration including magnetic disturbance detection. In addition to being an Inertial Measurement Unit, navX-Micro capabilities are referred to within the aerospace industry as an “Attitude/Heading Reference System” (AHRS). Kauailabs brings this high-tech AHRS capability to FIRST FTC teams – to use, learn and explore. navX-Micro is a key component of Kauai Labs’ ongoing efforts to make state-of-the-art navigation technologies used in drones and autonomous vehicles (e.g., the Google Car) available to robotics students and enthusiasts as low-cost, open-source products.

    The navX-Micro FTC library is also compatible with the currentlyavailable navX-MXP sensor for those teams wishing to get started immediately.

    Open Source schematics, firmware source code, FTC library source code and example code is available online.  For those desiring an enclosure, a 3D-printable enclosure is also available for those wishing to create their own, or can be purchased separately online.

    MFR Part #: 71039-C
    $9.99
    Write your own review
    • Product can be reviewed only after purchasing it
    • Only registered users can write reviews
    • Bad
    • Excellent