Demo This demonstration features an Unmanned Aerial Vehicle (UAV) using the powerful Kinetis KV46 MCU controlling four GD3000 Brushless DC pre-drivers to spin the four motors which drive the propellers.   Features KV5x 240MHz ARM Cortex-M7 MCU with high speed ADCs & timers controlling all 4 BLDC motors GD3000 BDLC motor pre-driver featuring fast switching to drive low Q MOSFETs Single MCU solution unique in the market – reduced component count and BOM cost with superior performance   Featured NXP Products KV5x|Kinetis KV5x Connected Control MCUs|NXP 3-Phase Brushless Motor Pre-Driver|NXP   Links Quadcopter Demonstrating UAV Speed Control Using Kinetis KV5x MCUs and GD3000 Motor Pre-Drivers

MCAT is a graphical tool for automatic calculation and real-time tuning of selected motor control structure parameters. MCAT can be used with fixed or floating point 16- or 32-bit data so can be used for MPC5xxx Microcontrollers, Kinetis Microcontrollers, Digital Signal Controllers, and The specified item was not found.. It also acts as a plug-in tool for Freemaster which allows real-time monitoring, tuning and parameter updating in a target application. This Tool is a HMTL-based user-friendly graphical plug-in tool for NXP's FreeMASTER. It is intended for the development of PMSM FOC applications, real-time control structure parameter tuning, and will aid motor control users in adapting our MC solutions to their motors without a detailed knowledge of PI controller constant calculations. https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282488626001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blankFeatures Up to three motor application support with independent access to each motor Utilizing a pole placement method for control parameter estimation Real-time tuning and updating of control parameters Preview of the static configuration of tuned parameters Generic output file with static configuration of tuned parameters Plug-in tool for FreeMASTER, not available as a standalone tool Offers basic and expert tuning mode Modular S/W concept, easy configurable Featured NXP Products MC56F84XXX Qorivva MPC56xx ARM® Cortex®-M4 High Performance MCUs: Kinetis K  Series ARM® Cortex®-M0+/M4 Motor Control MCUs: Kinetis V Series

Demo Owner: Dominic Selvaraj Firstview Consultants' Dominic Selvaraj demonstrates a custom dashboard application for an 18-wheel truck using i.MX 6 processor at the FTF Americas 2014.     https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282651084001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blank  Features Showcasing a secondary dashboard application for 18 wheeler trucks The dashboard features a touchscreen interface and runs Android operating system It has 4 cameras in a model truck (360 view around the vehicle) The gauges have been transformed into virtual gauges driven by vector graphics Co-pilot navigation and multimedia radio on vehicle   Featured NXP Products ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Links NXP Connect - Firstview  

In BLE spec there is no standard wireless pass through profile, so different chip vendors have their own implementations, which is also called Proprietary Profile, the compatibility is a big challenge. There are two wireless pass through demos in NXP BLE demos. For QN90XX chip, it’s called QPP. For KW3X, it’s called wireless UART. The wireless UART is more complex. It doesn’t support always-connection and have many limitations for the app. The common BLE debug tool app on phone side cannot communicate with it, while the QPP can work well.  This demo code is target to port the QPP profile to KW3X SDK, which can simplify user’s development.

Watch this demonstration that shows designing made easy with NXP's MMPF0100 and MMPF0200. These devices are optimized for i.MX 6 applications processors. Power-sensitive applications include portable medical devices, gateways, routers, home security systems, e-readers, tablets, and home energy management solutions.   Features MMPF0100 and MMPF0200 (PMIC) evaluation kit PMICs are optimized for i.MX 6 applications processors Light-Load Efficiency Exceptional Quiescent current Large amount of One-Time Programmable memory on board Flexibility: Programming kit connects the device via USB port and user can set up the start-up frequency, voltage levels, current limit and the timing of each regulator on the device Featured NXP Products MMPF0100 MMPF0200https://community.nxp.com/external-link.jspa?url=http%3A%2F%2Fwww.nxp.com%2Fproducts%2Fpower-management%2Fpmics%2Fpmics-for-i.mx-processors%2F12-channel-configurable-power-management-ic%3AMMPF0200 Block Diagrams

Demo Owner: Neil Krohn NXP's MM9Z1_638 is a fully integrated battery monitoring device for mission critical automotive and industrial applications. An S12Z microcontroller, SMARTMOS analog control IC, CAN protocol module and LIN interface for communications functions are embedded into this single-package soltuion. The MM9Z1_^38 battery sensor measures key battery parameters for monitoring state of health, state of charge and state of function for early batteries as well as emerging battery applications, such as 14 V stacked cell Li-Ion, high voltage junction boxes, and 24 V truck batteries.     Features The MM9Z1_638 is a fully integrated battery monitoring device for mission critical automotive and industrial applications. An S12Z microcontroller, SMARTMOS analog control IC, CAN protocol module and LIN interface for communications functions are embedded into this single-package solution. The MM9Z1_38 battery sensor measures key battery parameters for monitoring state of health, state of charge and state of function for early batteries as well as emerging battery applications, such as 14 V stacked cell Li-Ion, high voltage junction boxes, and 24 V truck batteries. Featured NXP Products MM9Z1_638: Battery Sensor with CAN and LIN Product Features: Wide range battery current measurement; on-chip temperature measurement Four battery voltage measurements with internal resistor dividers, and up to five direct voltage measurements for use with an external resistor divider Measurement synchronization between voltage channels and current channels Five external temperature sensor inputs with internal supply for external sensors Low-power modes with low-current operation Links Freescale Concept Car