BNO086 VR IMU 센서 -가속도계, 자이로, 자기계
(SparkFun VR IMU Breakout - BNO086 (Qwiic))
개요
- 본 제품은 BNO086 VR IMU 센서 -가속도계, 자이로, 자기계 입니다.
- 가속도계, 자이로, 자기계, 32비트 ARM Cortex M0+를 결합한 BNO086 IMU 센서를 기반으로 디자인된 제품입니다.
- 두개의 I2C Qwiic 커넥터를 장착하고 있습니다.
특징
- Operating Voltage
- 2.4V - 3.6V
- Typically 3.3V via Qwiic cable
- I2C (Default): Up to 400kHz
- SPI: Up to 3MHz
- UART: 3Mbps
- Rotation Vector
- Dynamic Error: 3.5°
- Static Error: 2.0°
- Gaming Rotation Vector
- Dynamic Error: 2.5°
- Static Error: 1.5°
- Dynamic Heading Drift: 0.5° / min
- Geomagnetic Rotation Vector
- Dynamic Rotation Error: 4.5°
- Static Rotation Error: 3.0°
- Gravity Angle Error: 1.5°
- Linear Acceleration Accuracy: 0.35m/s2
- Accelerometer Accuracy: 0.3m/s2
- Gyroscope Accuracy: 3.1° / sec
- Magnetometer Accuracy: 1.4µT
- 2x Qwiic Connection Ports
- I2C Address: 0x4B (default), 0x4A
- I2C Pull-Up Resistors (2.2kΩ)
- Power LED
- Jumpers
- Power LED
- I2C Pull-up Resistors
- Address Select
- Protocol Selection 0
- Protocol Selection 1
- Board Dimensions: 1.0in. x 1.2in. (25.4mm x 30.48mm)
- Weight: 3g
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Virtual reality is in, but you shouldn't have to drop hundreds of dollars to gain access to the technology behind it. Luckily, that's where the SparkFun VR IMU Breakout comes in. At its heart is CEVA's BNO086, a combination triple-axis accelerometer/gyro/magnetometer System in Package (SiP) with a 32-bit ARM© Cortex™ M0+. The BNO086 Inertial Measurement Unit (IMU) produces accurate rotation vector headings, excellently suited for VR and other heading applications, with a two-degree or less static rotation error. The VR IMU is exactly what we've been waiting for; all the sensor data is combined and drift-corrected into meaningful, accurate IMU information. It's perfect for any project that needs to sense orientation or motion.
This IMU breakout board has also been equipped with two I2C Qwiic connectors to make interfacing with the tiny QFN package a bit easier. It's part of SparkFun's Qwiic connect system, so you won't have to do any soldering to figure out how things are oriented. However, we still have broken out 0.1"-spaced pins if you prefer to use a breadboard.
The BNO080 was designed to be implemented in Android-based cellular phones to handle all the computations necessary for virtual reality goggles using only your phone. With the BNO080 EOL, CEVA offers the drop-in replacement BNO086 with enhanced features (14-bit accelerometer fusion, reduced idle state power, and Interactive Calibration). The sensor is quite powerful, and with power comes a complex interface. Thanks to the solder jumpers on the board, you can select between two different I2C addresses. Still, if I2C is not your first communication choice, the sensor can communicate over SPI and UART! We've also written an I2C-based library that provides the rotation vector (the reading most folks want from an IMU), acceleration, gyro and magnetometer readings, step counting, and activity classifier (such as riding a bike).