The MappyDot can be used for example to prevent your drone from colliding with objects or optimise its landing, make star trek like door sensors to open doors automatically, create vibration sensors for the blind or even fashion unique musical instruments.
The MappyDot is part of a planned suite of enhanced sensor breakouts that offer additional measurement filtering, an easy to use I2C interface, crosstalk reduction and an automatic bus addressing scheme. This helps you integrate the sensor easily compared to its standalone counterpart, which require a complicated bus multiplexing setup, large processing overheads, a code and memory heavy API and a difficult to use I2C interface.
MappyDots provide distance measurements up to 2 meters at a non-interpolated rate up to 50Hz, with a 25 degree field of view. Multiple MappyDots can be chained together easily to gather multi-dimentional data about an area much like radar, without reducing sampling rate due to processing overheads. They are also calibrated out-of-the-box to within ±1mm, and can be easily re-calibrated if integrated into a commercial enclosure. The MappyDot also performs low pass filtering on the motion data that arrives from the sensor, to provide you with the clearest picture of the environment around it. While distance measurement is the name of the game, the MappyDot also offers the following features:
- Auto addressed bus scheme for chaining up to 112 devices.
- A 2.8-5V signalling and operating voltage range which will work with your platform of choice.
- A simplified I2C interface for easy integration into new or existing projects with next to zero code and processing requirements.
- Reduced device initialisation and upkeep times. Many devices can now share the same bus with the fastest possible update rates. For example, you can poll 112 MappyDots, 50 times each, every second for a total of 5600 measurements per second (depending on your host processing speed).
- Inter-sensor crosstalk reduction and measurement synchronisation to reduce measurement errors.
- Low pass, real-time filtering to reduce background noise effects.
- Automatic mode switching to get optimal measurements depending on the environment.
- More advanced features and device pass-through for complex applications.
- In-service firmware upgradability via I2C. There’s no need to disconnect already deployed and integrated devices.
- Open source sensor firmware.
- Threshold controlled, PWM or interrupt output from an onboard GPIO pin for standalone or distributed applications.
- A tiny footprint – 13×17.8mm (0.51×0.70″).
- An easy to solder standard 2.54mm (0.1″) pinout that can be used for either soldering directly to production boards or to header pins or wires for prototyping and breadboarding.
- A user controllable LED (PWM, threshold, measurement or manual modes).
- Device naming for easy recognition.
- Precalibration for plug and play use, as well as auto user calibration.
All this is possible, without the need for any additional processing on your platform of choice.
Read more: MappyDot – Micro Smart LiDAR Sensor