Explore the MC34937, an industrial-grade 3-phase gate pre-driver for BLDC and PMSM motor control. The MC34937 can support 12V, 24V, and 36V motor control applications and easily interfaces to standard MCUs and DSPs. The demo shows the implementation of the MC34937 with Kinetis Microcontrollers E in a 36V battery-operated electric bike (eBike) application. This same system can be modified to be used in other industrial applications such as electric garden tools, industrial fans and pumps, and electric wheelchairs. Features Demo shows capability of Kinetis KE02 connecting to an MC34937 Motor Driver MC34937 able to drive 12V, 24V, 36V, 48V systems Featured NXP Products Kinetis E - KE02Z64 MC34937 3-phase gate pre-driver Block Diagram MC34937 Schematics and Software:

Demo Needs for insuring availability of Electrical Power is increasing. Batteries are spreading into automotive, electrical storage systems. This demo will demonstrate the Battery Management Product Family from NXP.   Most scalable and comprehensive battery management solutions Automotive robustness and in-house manufacturing process Designed for Functional Safety   Featured NXP Product 14-Channel Li-ion Battery Cell Controller IC|NXP   Target Applications Automotive Battery Chargers and Management 48V battery applications High-voltage battery management systems (> 800 V) Industrial Energy Storage Systems Uninterrupted power supply (UPS) E-bikes, E-scooters   Block Diagram

The demo from FirstView Consultants is a wearable medical EKG alert with Wi-Fi connection to enable Cloud reporting and diagnosis. The demo consists of an SCM-i.MX 6SoloX V-Link device (i.MX6SoloX/PF0100/512MB LPDDR2) + Firstview V-Link Top board with 802.11 b/g/n, Bluetooth     SCM V-Link technology is ideal for handheld/space-constrained applications allowing customers to integrate vertically.   Features: AFIB detection with diagnosis and report to Cloud via Wi-Fi. Top board contains: Wi-Fi/BT module (802.11 b/g/n), NXP 6-axis sensor and SPI NOR Flash 1 GB. Base SCM device: 15.5x15.5mm. ____________________________________________________________________________________________________ Featured NXP Products: Single Chip System Modules (SCM)|NXP Partner Firstview Consultants NXP FXOS8700CQ 6-axis Sensor

This NXP demo is a combination of two demos running on the MIMXRT1050-EVK board, showing USB Type-C power delivery and a GUI with touch interface running on the i.MXRT1050 MCU. See video of demo below.   First example is USBPD demo from the MCUXpresso Software Development Kit (SDK) for the kit. This SDK can be downloaded from https://mcuxpresso.nxp.com. The SDK USBPD project is included at \SDK_2.3.0_EVK-MIMXRT1050-OM13588\boards\evkmimxrt1050_om13588\usb_examples\usb_pd. This demo uses the FreeRTOS version. Generic description of this demo is included here in the SDK at \SDK_2.3.0_EVK-MIMXRT1050-OM13588\docs\usb\MCUXpresso SDK USB Type-C PD Stack User's Guide.pdf. Second example is a washing machine GUI using TouchGFX. This example is provided by Draupner Graphics with source code in their TouchGFX release, with more details shared here: https://touchgfx.com/nxp-semiconductors/i-mxrt1050-display-kit/ Here is a video overview of using this combined demo: Hardware Requirements ===================== For the full demo shown in the video, the following hardware is required: MIMXRT1050-EVK - eval kit for i.MXRT1050 MCU LCD - comes with MIMXRT1050-EVK OM13588 (x2) - USB Type-C shield board, two shields required FRDM-K64F - Kinetis K64 Freedom development board 0.1" female headers for Arduino connectors, not included Cables: USB Type-A to male micro-B (2 cables needed) USB Type-C male to Type-C male 9V power supply with barrel connector (2 supplies needed). Come with OM13588 kits Software Details ================ This demo was built with the following software versions: IAR Embedded Workbench for ARM v8.20.2 MCUXpresso SDK_2.3.0_EVK-MIMXRT1050-OM13588, Build Date: 2017-12-11 MCUXpresso SDK_2.3.0_FRDM-K64F-OM13588, Build Date: 2018-01-10 TouchGFX v4.9.0 Setup Video NXP Recommend Product Link USB Type-C Shield Board for Kinetis® Freedom and LPC Boards OM13588: USB Type-C Shield Board | NXP  i.MX RT1050 Evaluation Kit i.MX RT1050 Evaluation Kit | NXP  Freedom Development Platform for Kinetis® K64, K63, and K24 MCUs FRDM-K64F Platform|Freedom Development Board|Kinetis MCUs | NXP 

Demo Owner David Lopez This demo is an overview of our power management simulation and validation tools. Our tools will help you accelerate power management validation with ISO 26262 compliance. Through this demo you will discover how NXP develop innovative validation tool to cover multiple use case, and accelerate product validation in line with ISO26262. The leading device use to develop this tool is MC33908, System Basic Chip with DC/DC and highest functional safety level.  In addition this tool is also covering the validation of MCU and SBC attachment.  This tool contain a database made through the collection of different car OEM "non-ISO" pulse with fast execution.   Features Transient simulation tool platform Accelerate power management validation with ISO 26262 compliance Global OEM use cases database Featured NXP Products Analog and Power Management|NXP

Demo Owner: Mark Houston   Kinetis V series is a family of devices targeting motor and power control applications for the mass market with a strong focus on enablement. See two elements of that story: a product benchmark showing relative product performance and the Kinetis motor suite -- a tool that speeds your development time to market.       Features Motor speed capabilities Comparison to standard controllers Smooth transitions Featured NXP Products Kinetis V Kinetis V1 Kinetis V3 Kinetis V4 Development Tools Kinetis Motor Suite Design Resources Kinetis Motor Suite Fact Sheet

The Attach demo consists of a 3 board stack up using the Arduino connectors on the Kinetis FRDM-KL26Z board. The demo runs from a Li Ion polymer battery and consists of 1x FRDM-KL26Z board, 1x FRDM-BATT board (including battery and loudspeaker) and 1x Arduino LCD touch screen board. The code builds using either CodeWarrior V10.6 or IAR EWARM V7.20.2. The software uses eGUI to drive the Arduino LCD and runs demos for the following Sensors - FXOS8700 (combined 3-axis Accelerometer and Magnetometer) and FXAS21000 (3-axis MEMs Gyro). The demo also includes 7-element eCompass code for which full source code is available. Finally, the board also uses the MC34673 1.2A charger for Li Ion batteries, charging is accomplished via either of the USB ports on the FRDM-KL26Z. All datasheets, schematics, source code and bill of materials are included in the zip archive. NOTE: software update which now includes 10-element eCompass software and Kalman filtering code creating a far more accurate eCompass solution. Recommended Products Product Link Freedom Development Platform for Kinetis® KL16 and KL26 MCUs (up to 128 KB Flash) FRDM-KL26Z|Freedom Development Platform|Kinetis® MCU | NXP 

Demo Owner: b14714 The motor control development toolbox is a comprehensive set of tools that plug into the MATLAB™/Simulink™ model-based design environment for rapid application development on MCUs.  The SFIO Toolbox is a new addition that can control Simulink system models by SFIO algorithms running directly on NXP DSC and Kinetis MCU hardware. NXP FreeMASTER debug monitor and data visualization tool interfaces provide an interface to monitor signals in real time for data logging and signal calibration. Features The motor control development toolbox is a comprehensive set of tools that plug into the MATLAB™/Simulink™ model-based design Auto code generation straight to the Micro. NXP developed a library and embedded target to interface with MATLAB and SimuLink Customers can directly go from the model based environment to the MCU without having to write C code by hand Featured NXP Products Motor Control

本文探讨了如何解决i.MX8MP EMC测试遇到的问题，主要针对辐射超标问题。除了硬件方案，着重探讨了LVDS展频等软件方案。

  i.MXRT系列具有内部ROM，并且ROM中暴露出了一些功能接口可供用户直接使用。 本文介绍了Flexspi Nor ROM APIs, 并且列举了API相关的参数及示例程序。 通过这些API可以很方便的操作外部Flexspi Nor Flash。用户无需关系细节。   Products Product Category NXP Part Number URL MCU MIMXRT1060 https://www.nxp.com/products/processors-and-microcontrollers/arm-microcontrollers/i-mx-rt-crossover-... MCU MIMXRT600 https://www.nxp.com/products/processors-and-microcontrollers/arm-microcontrollers/i-mx-rt-crossover-...   Tools NXP Development Board URL i.MX RT1060 Evaluation Kit https://www.nxp.com/design/development-boards/i-mx-evaluation-and-development-boards/mimxrt1060-evk-... i.MX RT600 Evaluation Kit https://www.nxp.com/design/development-boards/i-mx-evaluation-and-development-boards/i-mx-rt600-eval...   SDK SDK Version URL MCUXpresso SDK Builder https://mcuxpresso.nxp.com/en/welcome

This is a quick video for demonstration purposes of the i.MX RT1060 Evaluation Kit capability for running an Embedded Wizzard GUI application and a Neural Network Model as an inference engine.

Demo      Features Detect fatigue using a camera via an algorithm based on optical absorption rate of facial blood vessels Efficient processing with up to 1.2MHz Quad ARM Cortex-A9 architecture with a NEON multimedia processing acceleration engine Video processing unit in i.MX 6Quad to record front camera video in H.264 format Face tracking algorithm to track the driver's head for a real driving use case   NXP Recommends i.MX6Q|i.MX 6Quad Processors|Quad Core

Built to automotive grade specifications, this Qi compliant wireless charging reference design charges up devices in the car. The devices can integrate into the dash or center console of car.     https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282648274001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blank   Features Wireless Charging Reference design for Automotive applications Integration into dash board or center console 5 Watts of power following Qi standard Near field Communication (NFC) Loop included   Featured NXP Products 5 Watt Wireless Automotive 5 Watt Wireless Industrial Links WCT-5WTXAUTO: Multi-Coil Wireless Charging Tr Block Diagram  

Demo   SCM-i.MX6D is the smallest single chip system module integrating NXPs high end apps processor along with memory PMIC and Flash. Demo will show this small yet powerful module running graphics, android applications as well as other IoT/ portable applications. The SCM will be integrated with an external WiFi along with a sensor hub and will be demonstrating the SCM capability along with WiFi.     Features Ultra-small SCM i.MX 6D includes i.MX 6Dual, 16 MB SPI NOR flash, PMIC PF0100, 109 discrete devices, and enabled for 1 or 2 GB LPDDR2 Single 17 mm x 14 mm x 1.7 mm footprint Displaying a video game and Miracast using a Wi-Fi connection to a Smart TV   Featured NXP Products Single Chip System Modules (SCM) Single Chip Module i.MX 6Dual

Demo Owner: Gregory Camuzat   Get a quick overview of the TWR-KV31F120M Tower System with the Kinetis KV3x microcontroller. This demonstration shows how to get the low-voltage 3-phase motor spinning using a PMSM sensorless FOC control algorithm and how to control its speed using the KV3 Tower System board and your Windows PC.       Features Get a quick overview of the TWR-KV31F120M Tower System with the Kinetis KV3x Microcontroller. This demonstration shows how to get the low-voltage 3-phase motor spinning using a PMSM Sensorless FOC control algorithm and how to control its speed using the KV3 Tower System board and your Windows PC Featured NXP Products Product Link Kinetis® KV3x Family Tower® System Module TWR-KV31F120M|Tower System Board|Kinetis® MCUs | NXP  FreeMASTER Run-Time Debugging Tool https://www.nxp.com/design/software/development-software/freemaster-run-time-debugging-tool:FREEMASTER?&tid=vanFREEMASTER Links PEMicro Windows USB Drivers IAR Embedded Workbench for ARM  

About this demo This demo shows the usage of a Neural Network (NN) applied for handwritten digit recognition, the NN model runs on the i.MX RT1060 MCU. The main idea of the demonstration is to show the i.MX RT capability to manage a graphical user interface while applying a NN model to recognize handwritten numbers to determine whether a password is correct or wrong. The demonstration is tested by setting a 4-digit password to a 4.3" LCD Panel, then the user must enter the correct password to unlock device; when the password is provided, the digits recognized by the NN are displayed on the screen. A 'Clear' button will erase the previous numbers for the user to try a new password to unlock the device. Technical Introduction and Acknowledgment The demo is available using two different approaches for the model creation and inference engines: TensorFlow Lite and CMSIS-NN using Caffe Framework.   TensorFlow Lite The application note AN12603 describes handwritten digit recognition on embedded systems through deep learning. The digit recognition is performed by a TensorFlow Lite model trained with the MINST dataset containing 60,000 handwritten grayscale images and 10,000 testing examples. This application note, deep dives into every step to achieve the application using Tensorflow Lite and build a GUI using Embedded Wizard.   CMSIS-NN using Caffee Framework The application note AN12781 explores the usage of Deep Neural Networks created in Caffe Framework, this framework allows creating a model and convert it to CMSIS-NN functions to be exported to the i.MX RT platform as source files. The model is also trained for the digit recognition using the MNIST dataset. The document describes the procedure to create, train and deploy the model; in the final step the model is exported a C source files using CMSIS-NN functions and weights that are exported to the i.MX RT1060 project. Video     Hardware setup   Recommended Products i.MX RT1060 Evaluation Kit | NXP  4.3" LCD Panel RK043FN02H-CT | NXP    Further Information                                           The NXP ® eIQ ™ software environment enables the use of ML algorithms on NXP MCUs, i.MX RT crossover MCUs, and i.MX family SoCs. eIQ software includes inference engines, neural network compilers and optimized libraries. Additionally,  the models can be optimized through techniques like quantization and pruning, AN12781 explores the possibility of optimization by creating a new model using Caffe with a quantization to simplify the floating-point data. By reducing the 32-bit floating-point data to an 8-bit and fixed-point format, the memory allocation got reduced and this resulted in a lower-processing power.   Transfer Learning Transfer learning gives machine learning models the ability to apply past experience to quickly and more accurately learn to solve new problems. This technique has become very important in deep learning. AN12892 describes how to perform transfer learning in TensorFlow and a use case example, which aims to improve the performance of the application from AN12603.    Useful Links   Links  AN12603 AN12603 Software AN12781 AN12781 Software AN12892 AN12892 Software eIQ™ for TensorFlow Lite | NXP  Caffe | Deep Learning Framework  Embedded Wizard | Simplify Your GUI Development  What is a Container? | App Containerization | Docker 

MC07XS6517 and MC17XS6500 single ICs provide comprehensive, cost-effective solutions for halogen, industrial lighting, LEDs, xenons, main switches and DC motor control. The eXtreme switch products are the latest achievement in DC motors and industrial lighting drivers. They belong to an expanding family to control and diagnose various types of loads, such as incandescent bulbs or light emitting diodes (LEDs), with enhanced precision. The products combine flexibility through daisy chainable SPI at 5.0 MHz, extended digital and analog feedbacks, which supports safety and robustness. This new generation of our high-side switch products family facilitates electronic control unit designs supported by the use of compatible MCU software and PCB footprints, for each device variant.     Features Operating voltage range of 7.0 V to 18 V, with sleep current <5.0 μA 5.0 MHz 16-bit SPI control of overcurrent profiles, channel control including 8-bit PWM duty-cycles, output -ON and -OFF open load detections, thermal shutdown and pre-warning, and fault reporting Output current monitoring with programmable synchronization signal and supply voltage feedback Programmable overcurrent trip levels Enhance output current sense with programmable synchronization signal and battery voltage feedback Watchdog and limp home mode External smart power switch control -16 V reverse polarity and ground disconnect protections Compatible PCB foot print and SPI software driver among the family Programmable Penta high-side switches Wide range diagnostic, current sensing and very low Rdson Up to 30% smaller PCB and 50% lower component count MC07XS6517 and MC17XS6500 eXtreme Switch applications include halogen, industrial lighting, LEDs, xenons, main switches and DC motor control   Featured NXP Products MC17XSF500: MC17XSF500, Penta 17 mOhm High Side Switch - Data Sheet MC07XSF517: MC07XSF517, Triple 7.0 mOhm and Dual 17 mOhm High Side Switch - Data sheet Block Diagram  

Video   NXP’s Touch Sense Interface (TSI) offers a complete solution to help easily integrate this growing ‘touch’ requirement on your next design. NXP’s touch software, offered as a middleware as part of the MCUXpresso SDK, is optimized to work with the Kinetis KE15Z MCU to deliver an easy-to-implement solution. Product features Advanced EMC robustness, pass IEC61000-4-6 standard test Support both of Self-cap sensor and Mutual-cap sensor, up to 36 touch keys Low BOM cost per touch key, no need for external devices Adjustable touch sensing resolution and sensitivity, high performance for waterproof Low power support NXP recommends the following links for additional information Product Link NXP Touch Solution for Kinetis KE15Z MCU Family NXP Touch-Based User Interface Solutions for Kinetis KE15Z MCU Family | NXP  Touch Module for Freedom Board FRDM-TOUCH|Touch Module for Freedom Board | NXP  Freedom Development Platform for Kinetis® KE1xMCUs FRDM-KE15Z Platform|Freedom Development Board | NXP 

Smart Pump Monitor Demo This demo shows a small water pump rig consisting of a water pump and 3 valves put together to collect data for supervised machine learning. Normal operation as well as abnormal conditions may be simulated with the rig. There are 2 sensor boards attached by clamps to the water pipe. Each sensor board has many sensors on it, but only the accelerometer will be used to gather the data. One board is used for data logging.  The other runs a model which was generated via machine learning based on data logged from the first board.  Pump vibration measurements are processed through the model by the MCU on that board to determine the operating state of the system Features Use of accelerometer to measure pipe vibration Sensing algorithm detects when the pump is clogged or drawing on air How to find patterns in data taken by NXP Sensors Links Sensor Fusion 10-Axis Sensor Data Logger http://www.nxp.com/files/sensors/doc/user_guide/RD-KL25-AGMP01-UG.pdf Related demos NXP Sensor Toolbox Demo Vibration Monitoring - Prediction using NXP Sensors Sensor Fusion for Kinetis MCUs

Overview NXP ®  offers solutions for the growing unmanned vehicle market in both civil and defense designs, supporting functions such as control, motion, vision, navigation, and communication. Target applications include: Unmanned Aerial Vehicle Unmanned Ground Vehicle Unmanned Underwater Vehicle Construction, demolition, inspection, or mining robot Firefighting or rescue robot Reference Designs NXP Product Link PX4 Robotic Drone FMU https://www.nxp.com/design/designs/px4-robotic-drone-fmu-rddrone-fmuk66:RDDRONE-FMUK66  KV Series Quad Motor Control https://www.nxp.com/design/designs/kv-series-quad-motor-control:KINETIS-DRONE-REFERENCE-DESIGN Block Diagram Recommended Products NXP Product Link MCU Kinetis® V Series: Real-time Motor Control & Power Conversion MCUs based on Arm® Cortex®-M0+/M4/M7 | NXP  LPC54000|Power Efficient 32-bit Microcontrollers (MCUs)|Cortex®-M4 Core | NXP  i.MX RT1060 MCU/Applications Crossover MCU | Arm® Cortex®-M7, 1MB SRAM | NXP  i.MX 6Solo Applications Processors | Single Arm® Cortex®-A9 @ 1GHz | NXP  i.MX 6Dual Applications Processors | Dual Arm® Cortex®-A9 @1.2GHz | NXP  i.MX 6Quad Applications Processors | Quad Arm® Cortex®-A9 | NXP  Wireless Connectivity Bluetooth®Smart/Bluetooth Low Energy | NXP  Interfaces In-Vehicle Network | NXP  I²C, SPI, Serial Interface Devices | NXP  USB Interfaces | NXP  NFC Reader NFC Readers | NXP  Wireless Power Wireless Power | NXP  Motor Driver GD3000 |3-phase Brushless Motor Pre-Driver | NXP  Voltage Regulator Linear Voltage Regulators | NXP  Switch Detector Signal Conditioners | NXP  Sensors Sensors | NXP  Tools and Software NXP Product Link i.MX RT1060 Evaluation Kit i.MX RT1060 Evaluation Kit | NXP  i.MX RT1020 Evaluation Kit i.MX RT1020 Evaluation Kit | NXP  SABRE Board for Smart Devices Based on the i.MX 6Quad Applications Processors i.MX 6Quad SABRE Development Board | NXP  i.MX RT1064 Evaluation Kit i.MX RT1064 Evaluation Kit | NXP  Kinetis® KV3x TWR-KV31F120M|Tower System Board|Kinetis® MCUs | NXP  i.MX RT1015 i.MX RT1015 Evaluation Kit | NXP  3-Phase Motor Control Low-Voltage, 3-Phase Motor Control Tower System Module | NXP  i.MX RT1050 Evaluation Kit i.MX RT1050 Evaluation Kit | NXP  NXP HoverGames drone kit including RDDRONE-FMUK66 and peripherals KIT-HGDRONEK66: NXP drone kit | NXP  Kinetis KV4x TWR-KV46F150M|Tower System Board|Kinetis MCUs | NXP  BSP, Drivers, and Middleware NXP Product Link Android OS for i.MX Applications Processors Android OS for i.MX Applications Processors | NXP  Embedded Linux for i.MX Applications Processors Embedded Linux for i.MX Applications Processors | NXP  MCUXpresso Software Development Kit (SDK) MCUXpresso SDK | Software Development for Kinetis, LPC, and i.MX MCUs | NXP  MCUXpresso Config Tools - Pins, Clocks, Peripherals MCUXpresso Config Tools|Software Development for NXP Microcontrollers (MCUs) | NXP