Search Results for "Accelerometer "
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MMA7455 Three Axis Digital Tilt Accelerometer Sensor Module for Arduino
The MMA7455L is a Digital Output (I2C/SPI), low power, low profile capacitive micromachined accelerometer
60.50 EGP -
GY-45 MMA845 3-Axis Accelerometer Module
The MMA8452 is a smart low-power, three-axis accelerometer with 12 bits of resolution.
This accelerometer is packed with embedded functions with flexible user programmable options, configurable to two interrupt pins.
The MMA8452 has user selectable full scales of ±2g/±4g/±8g. The device can be configured to generate inertial wake-up interrupt signals allowing the MMA8452 to monitor events and remain in a low power mode during periods of inactivity.
This board breaks out the ground, power, I2C and two external interrupt pins.
100.00 EGPGY-45 MMA845 3-Axis Accelerometer Module
100.00 EGP -
GY-521 MPU6050 Triple 3-Axis Accelerometer Gyroscope I2C
The MPU6050 contains both a 3-Axis Gyroscope and a 3-Axis accelerometer allowing measurements of both independently, but all based around the same axes, thus eliminating the problems of cross-axis errors when using separate devices.
150.00 EGP -
GY-61 DXL335 3-Axis Accelerometer Module
GY-61 ADXL335 Module is a small, thin, low-power, complete 3-axis accelerometer with signal conditioned voltage outputs.
The ADXL335 Module 3-axis Analog Output Accelerometer measures acceleration with a minimum full-scale range of ±3 g.
It can measure the static acceleration of gravity in tilt-sensing applications, as well as dynamic acceleration resulting from motion, shock, or vibration.
This breakout board comes with an onboard voltage regulator and works at both 3.3V & 5V (3-5V).
An accelerometer is an electro-mechanical device that will measure acceleration forces.
These forces may be static, like the constant force of gravity pulling at your feet, or they could be dynamic – caused by moving or vibrating the accelerometer.
180.00 EGPGY-61 DXL335 3-Axis Accelerometer Module
180.00 EGP -
Luxonis OAK-D Lite Camera “A00483”
Combines high performance and economy, providing all the superpowers offered by RVC2 core and DepthAI API in an affordable package. Won AI and Vision Alliance’s Best camera award in 2022.
- 4 TOPS of processing power
- 13 MP central RGB camera available in auto-focus and fixed-focus variants
- BMI270 IMU, 6-axis sensor combining accelerometer and gyroscope
- USB2 / USB3 for power delivery and communication
OAK-D Lite : is the ultimate camera for robotic vision that perceives the world like a human by combining stereo depth camera and high-resolution color camera with an on-device Neural Network inferencing and Computer Vision capabilities. It uses USB-C for both power and USB3 connectivity.
Hardware Specifications
This OAK camera uses USB-C cable for communication and power. It supports both USB2 and USB3 (5Gbps / 10Gbps).
RVC2 inside
This OAK device is built on top of the RVC2. Main features:
- 4 TOPS of processing power (1.4 TOPS for AI – RVC2 NN Performance)
- Run any AI model, even custom- architecture/built ones – models need to be converted.
- Encoding: H.264, H.265, MJPEG – 4K/30FPS, 1080P/60FPS
- Computer vision: warp/dewarp, resize, crop via ImageManip node, edge detection, feature tracking. You can also run custom CV functions
- Stereo depth perception with filtering, post-processing, RGB-depth alignment, and high configurability
- Object tracking: 2D and 3D tracking with ObjectTracker node
OAK-D vs OAK-D-Lite
OAK-D-Lite is smaller, lighter and uses less power; compared to OAK-D. The main differences are:
- Mono cameras have lower resolution (640×480 instead of 1280×800)
- Initial versions of OAK-D-Lites (KickStarter batch) had no IMU. Current batches have BMI270.
- There is no power jack, as most users just used the USB-C for power delivery, which provides 900mA at 5V and is enough for most use-cases. However some functions (e.g. inference, video encoding) can lead to large current spikes, so there is a chance hosts like RPi won’t be able to provide enough power. In that case, you should use Y-adapter.
Additionally, the more technical differences are the following:
- Robotics Vision Core 2 chip-down design, instead of connecting the OAK-SoM to the baseboard (like it is done on OAK-D)
- In collaboration with ArduCam, we developed custom camera sensor connectors, which are shorter and take up less space
Fixed-focus vs Auto-focus
When ordering the OAK-D-Lite, you can select whether you want
Fixed-focus
(FF) orAuto-focus
(AF) on the color camera. You should select FF if you are mounting OAK camera to something that vibrates. You should select AF when you need things closer than ~50cm to be in focus. More information can be found at Auto-Focus vs Fixed-Focus.Dimensions and Weight
- Width: 91 mm
- Height: 28 mm
- Length: 17.5 mm
- Baseline: 75 mm
- Weight: 61 g
Stereo depth perception
This OAK camera has a baseline of 7.5cm – the distance between the left and the right stereo camera. Minimal and maximal depth perception (MinZ and Max) depends on camera FOV, resolution, and baseline – more information here.
- Ideal range: 40cm – 6m
- MinZ: ~20cm (480P, extended), ~35cm (480P)
- MaxZ: ~10 meters with a variance of 10% (depth accuracy evaluation)
Extended means that Stereo Depth node has Extended disparity mode enabled.
12,000.00 EGPLuxonis OAK-D Lite Camera “A00483”
12,000.00 EGP -
GY-88 IMU 10DOF MPU6050 + HMC5883L + BMP085
This IMU 10DOF is a motion tracking module. Its design is based on the sensor MPU6050,HMC5883L and BMP085.
The sensor MPU6050 which is the world’s first integrated 6-axis Motion Tracking device, that combines a 3-axis gyroscope, 3-axis accelerometer, and a Digital Motion Processor (DMP).
The Honeywell’s HMC5883L which is a 3-axis digital compass.
The BMP085 is a high-accuracy chip to detect barometric pressure and temperature.You can uses it in your DIY or your product,for example, Quadcopter, Self-Balancing Robot and so on.
220.00 EGPGY-88 IMU 10DOF MPU6050 + HMC5883L + BMP085
220.00 EGP -
GY-291 ADXL345 3-Axis Accelerometer
GY-291 ADXL345 3-Axis is a small and efficient sensor with a high resolution (13-bit) that can measure an acceleration of up to ± 16g.
The module can be accessed via the I2C or SPI protocol and can be supplied with a voltage between 3V and 5V.
60.50 EGPGY-291 ADXL345 3-Axis Accelerometer
60.50 EGP