Features
Battery Cell Controller, Advanced, 6 Channels, TPL, LQFP48.
Package
HLQFP48 LQFP64, plastic, low profile quad flat package; 64 terminals; 0.5 mm pitch; 10 mm x 10 mm x 1.4 mm body.
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Battery Cell Controller, Advanced, 6 Channels, TPL, LQFP48.
HLQFP48 LQFP64, plastic, low profile quad flat package; 64 terminals; 0.5 mm pitch; 10 mm x 10 mm x 1.4 mm body.
Mobile Robotics Buggy3 Kit Including RDDRONE-FMUK66 and Peripherals
12NC: 935430567598
Details
Order
Part/12NC | PbFree | EU RoHS | Halogen Free | REACH SVHC | Weight (mg) |
---|---|---|---|---|---|
MR-BUGGY3-KIT(935430567598) | Not Available | Compliant | Not Available | Compliant | 453592.0 |
Part/12NC | Safe Assure Functional Safety |
---|---|
MR-BUGGY3-KIT (935430567598) | No |
Part/12NC | Harmonized Tariff (US)Disclaimer | Export Control Classification Number (US) |
---|---|---|
MR-BUGGY3-KIT (935430567598) | 950300 | EAR99 |
The MR-BUGGY3 kit provides the mechanical and other components needed to build a small robotic Buggy and evaluate the RDDRONE-FMUK66. The platform includes a brushed motor controller and RC Remote, as well as a robust mechanical platform offering two layers to support expansion with other electronics and Mobile Robotics board solutions.
This developer kit may be used as part of HoverGames/RoverGames, and contains the components needed for these coding challenges. Note that this is a professional developer kit, and as shipped is not a complete functional system. It includes no NXP software, the flight management unit (FMU) is supported by the mainline branch of the business-friendly open source PX4.org vehicle stack. A separate suitable hobby-type LiPo battery and country-specific telemetry radio will be required for a complete working system.
When assembled the frame has appropriate additional space in order to mount other components such as UCANS32K146, UCABS32K1SIC, RDDRONE-T1ADAPT, NXP Freedom boards. A companion computer such as NavQPlus based on i.MX 8M plus, or i.MX 8M Mini can be used as a vision processor running Linux and ROS/ROS2. The rover development platform is very flexible, fully open for development of robotics, control algorithms, security networking and communications protocols, and can include another add-on component, companion computer, software or associated solutions.