Overview In this demo we show how to load an example of an NFC reader using the combination between the UDOO NEO card and the development kit for the PN7150. PN7150ARD kit is a high performance fully NFC compliant expansion board compatible with Arduino Compatible Interface platforms. It meets compliance with Reader mode, P2P mode and Card emulation mode standards. The board features an integrated high-performance RF antenna to insure high interoperability level with NFC devices. Video Required Items UDOO NEO Compatible MicroSD card of at least 4 or 8 Gb memory size Micro USB cable UDOO Neo demo image file PN7150 NFC Controller Board         Links   Step by Step guide (Inlclude all links): https://www.nxp.com/docs/en/application-note/AN11841.pdf    NXP Product Link Development Kits for PN7150 Plug’n Play NFC Controller NFC Development Kits for Arduino and more | NXP 

Description 3-phase high voltage motor control can drive today demanding BLDC, PMSM, and ACIM motor control designs with optimized MCU performance. The Kinetis V MCUs range from 75MHz to 240MHz to give product flexibility and to maximize reuse. Additionally, NXP provides a Kinetis motor software suite to reduce the motor control learning curve and accelerate time to market.   Block Diagram Products Category Name 1: MCU Product URL 1 Arm® Cortex®-M0+|Kinetis® KV1x Motor Control MCUs | NXP  Product Description 1 The Kinetis® KV1x MCU delivers a 27% increase in performance in math-intensive applications versus comparable MCUs, allowing it to target BLDC as well as more computationally demanding PMSM motors.   Category Name 2: AC/DC Product URL 1 TEA175x | NXP  Product Description 1 The high level of integration of the TEA175x allows the design of a cost-effective power supply with a very low number of external components. The special built-in green functions provide high efficiency at all power levels.   Category Name 3: Temperature Sensor Product URL 1 LM75B: Digital Temperature Sensor | NXP  Product Description 1 The I²C-bus LM75B contains a number of data to store the device settings, it features an 11-bit ADC that offers a temperature resolution of 0.125 °C with a programmable temperature threshold. Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN10441.pdf Level shifting techniques in I2C-bus design https://www.nxp.com/docs/en/application-note/AN10580.pdf GreenChip TEA1761 synchronous rectification and feedback controller https://www.nxp.com/docs/en/application-note/AN11013.pdf DCM Flyback SMPS controller https://www.nxp.com/docs/en/application-note/AN4986.pdf Automated PMSM Parameter Identification https://www.nxp.com/docs/en/application-note/AN4912.pdf Tuning 3-Phase PMSM Sensorless control application using MCAT Tool https://www.nxp.com/docs/en/application-note/AN4862.pdf Three-phase BLDC sensorless control using the MKV10x https://www.nxp.com/docs/en/application-note/AN4870.pdf Tuning 3-Phase BLDC motor sensorless control using MKV10 https://www.nxp.com/docs/en/application-note/AN4560.pdf PWM synchronization using Kinetis Flextimers https://www.nxp.com/docs/en/application-note/AN4410.pdf FlexTimer and ADC synchronization for Field-Oriented-Control Tools Training URL https://store.nxp.com/webapp/ecommerce.add_item.framework?PART_NUMBER=TWR-MC-LV3PH&QUANTITY=1&ITEM_TYPE=TOOL_HW  Training   Training URL NXP Complete Motor Control Solutions  -…  Related Demos from Communities Related Demos URL Kinetis KV1x MCU with Tower System TWR-KV10Z32 Demo  Kinetis V Series ATV Enabled by Kinetis V & Motor Control Toolbox 

A user's guide introducing how to use windowed aatchdog timer in JN5189. 文档介绍了如何在JN5189中使用 WDT窗口看门狗。

从MKW36Z512VHT4到MKW36A512VFT4的软件迁移指南 USL：https://community.nxp.com/docs/DOC-345487 由 Edgar Eduardo Lomeli Gonzalez于 2020-09-14 创建的文档   引言 这篇文章将指导您如何从MKW36Z512VHT4迁移到MKW36A512VFT4 MCU。本示例将使用“信标（beacon）” SDK例程。 SDK下载和安装 1- 前往MCUXpresso网页：MCUXpresso网页 2- 使用您的注册帐户登录。 3- 搜索“ KW36A”设备。点击推荐的处理器，然后单击“Build MCUXpresso SDK”。   4- 点击后将显示另一页面。在“Toolchain / IDE”框中选择“All toolchains”，并提供名称以标识软件包。然后点击“Download SDK”。   5- 接受许可协议。等待几分钟直到系统将软件包放入您的配置文件中。 单击“下载SDK存档”（Download SDK Archive），下载SDK，如下图所示。   6- 如果使用MCUXpresso IDE，‘请将KW36A SDK 压缩文件夹拖放到“Installed SDKs”视图中以安装软件包。   至此，您已经下载并安装好KW36A设备的SDK软件包。 在MCUXpresso IDE中进行软件迁移 1- 在 MCUXpresso工作区导入“信标（beacon）”示例。单击“Import SDK examples(s)…”选项，将出现一个新窗口。然后选择“ MKW36Z512xxx4”，单击FRDM-KW36图像。点击“Next >”按钮。   2- 查找“beacon(信标)”例程并选择是否支持FreeRTOS。   3- 转到Project/Properties。展开C / C ++ Build / MCU设置，然后选择MKW36A512xxx4 MCU。单击“Apply and Close”按钮以保存配置。   4- 通过单击鼠标右键并选择“重命名”将以下MKW36Z文件夹重命名为MKW36A，            framework/DCDC/Interface -> MKW36Z framework/DCDC/Source -> MKW36Z framework/LowPower/Interface -> MKW36Z framework/LowPower/Source -> MKW36Z framework/XCVR -> MKW36Z4     5- 在MCUXpresso IDE中打开“Project/Properties”窗口。 转到C / C ++ Build / Settings，然后在Tool Settings窗口中选择MCU C Compiler / Includes文件夹。在创建之前，根据MKW35文件夹编辑与MKW36 MCU相关的所有路径。结果类似如下所示：   ../framework/LowPower/Interface/MKW36A ../framework/LowPower/Source/MKW36A ../framework/DCDC/Interface/MKW36A ../framework/XCVR/MKW36A4         6- 在工具设置中选择MCU Assembler/General文件夹。 编辑与MKW36 MCU相关的路径。结果类似如下所示： ../framework/LowPower/Interface/MKW36A ../framework/LowPower/Source/MKW36A ../framework/DCDC/Interface/MKW36A ../framework/XCVR/MKW36A4         7- 转到Project/Properties。展开MCU CCompiler/Preprocessor窗口。编辑“ CPU_MKW36Z512VHT4”和“ CPU_MKW36Z512VHT4_cm0plus”符号，分别将其重命名为“ CPU_MKW36A512VFT4”和“ CPU_MKW36A512VFT4_cm0plus”。保存更改。   8- 转到工作区。删除位于CMSIS文件夹中的“ fsl_device_registers，MKW36Z4，MKW36Z4_features，system_MKW36Z4.h和system_MKW36Z4.c”文件。然后解压缩MKW35Z SDK软件包并在以下路径中搜索“ fsl_device_registers，MKW36A4，MKW36A4_features，system_MKW36A4.h和system_MKW36A4.c”文件并复制到CMSIS文件夹中： <SDK_folder_root>/devices/MKW36A4/fsl_device_registers.h <SDK_folder_root>/devices/MKW36A4/MKW36A4.h <SDK_folder_root>/devices/MKW36A4/MKW36A4_features.h <SDK_folder_root>/devices/MKW36A4/system_MKW36A4.h <SDK_folder_root>/devices/MKW36A4/system_MKW36A4.c     9-  将位于路径<SDK_folder_root> /devices/MKW36A4/mcuxpresso/startup_mkw36a4.c中的“ startup_mkw36a4.c”覆盖” startup”文件夹中的“ startup_mkw36z4.c”。 您可以简单的将文件拖放到“startup”文件夹中，然后删除旧的文件。   10- 在CMSIS文件夹中打开“ fsl_device_registers.h”文件。在以下代码（文件的第18行）中添加“ defined（CPU_MKW36A512VFT4）”： /* * Include the cpu specific register header files. * * The CPU macro should be declared in the project or makefile. */#if (defined(CPU_MKW36A512VFP4) || defined(CPU_MKW36A512VFT4) || defined(CPU_MKW36A512VHT4) || defined(CPU_MKW36A512VFT4))‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍  11- 在bluetooth->host->config文件夹中打开“ ble_config.h”文件。在以下代码中添加“ defined（CPU_MKW36A512VFT4）”（文件的第146行）： /* The maximum number of BLE connection supported by platform */#if defined(CPU_QN9080C) #define MAX_PLATFORM_SUPPORTED_CONNECTIONS 16#elif (defined(CPU_MKW36Z512VFP4) || defined(CPU_MKW36Z512VHT4) || defined(CPU_MKW36A512VFP4) || defined(CPU_MKW36A512VHT4) || defined(CPU_MKW36A512VFT4) || \ defined(CPU_MKW35Z512VHT4) || defined(CPU_MKW35A512VFP4) || \ defined(CPU_K32W032S1M2CAx_cm0plus) || defined(CPU_K32W032S1M2VPJ_cm0plus) || \ defined(CPU_K32W032S1M2CAx_cm4) || defined(CPU_K32W032S1M2VPJ_cm4) || \ defined(CPU_MKW38A512VFT4) || defined (CPU_MKW38Z512VFT4) || defined(CPU_MKW39A512VFT4) || \ defined(CPU_MKW37A512VFT4) || defined(CPU_MKW37Z512VFT4))‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍  12- 在source-> common文件夹中打开“ ble_controller_task.c”文件。在以下代码（文件的第272行）中添加“ defined（CPU_MKW36A512VFT4）”： #elif (defined(CPU_MKW35A512VFP4) || defined(CPU_MKW35Z512VHT4) || defined(CPU_MKW36A512VFP4) || defined(CPU_MKW36A512VFT4) ||\ defined(CPU_MKW36A512VHT4) || defined(CPU_MKW36Z512VFP4) || defined(CPU_MKW36Z512VHT4))/* Select BLE protocol on RADIO0_IRQ */ XCVR_MISC->XCVR_CTRL = (uint32_t)((XCVR_MISC->XCVR_CTRL & (uint32_t)~(uint32_t)( XCVR_CTRL_XCVR_CTRL_RADIO0_IRQ_SEL_MASK )) | (uint32_t)( (0UL << XCVR_CTRL_XCVR_CTRL_RADIO0_IRQ_SEL_SHIFT) )); 13-生成项目。 至此，该工程项目已经迁移完成。 在IAR Embedded Workbench IDE中进行软件迁移 1- 打开位于以下路径的信标(Beacon)项目： 2- 在工作区中选择项目，然后按Alt + F7打开项目选项。   3- 在General Options/Target 窗口中，单击设备名称旁边的图标，再选择适当的芯片NXP / KinetisKW / KW3x / NXP MKW36A512xxx4，然后单击“确定”按钮。   4- 在以下路径中创建一个名为MKW36A的新文件夹： <SDK_root>/middleware/wireless/framework_5.4.6/DCDC/Interface <SDK_root>/middleware/wireless/framework_5.4.6/DCDC/Source <SDK_root>/middleware/wireless/framework_5.4.6/LowPower/Interface <SDK_root>/middleware/wireless/framework_5.4.6/LowPower/Source <SDK_root>/middleware/wireless/framework_5.4.6/XCVR     5- 复制位于上述路径的MKW36Z文件夹内的所有文件，然后粘贴到MKW36A文件夹中。   6- .在工作区中选择信标项目，然后按Alt + F7打开项目选项窗口。 在“ C/C++ Compiler/Preprocessor”窗口中，将所有路径里的MKW36Z文件夹的重命名为MKW36A文件夹。在已定义的符号文本框中，将CPU_MKW36Z512VHT4宏重命名为CPU_MKW36A512VFT4。结果如下图所示：然后单击确定按钮。 $PROJ_DIR$/middleware/wireless/framework_5.4.2/LowPower/Interface/MKW36A $PROJ_DIR$/../../../../../../../devices/MKW36A4/drivers $PROJ_DIR$/../../../../../../../middleware/wireless/framework_5.4.2/DCDC/Interface/MKW36A $PROJ_DIR$/../../../../../../../middleware/wireless/framework_5.4.2/XCVR/MKW36A4 $PROJ_DIR$/../../../../../../../devices/MKW36A4 $PROJ_DIR$/../../../../../../../devices/MKW36A4/utilities     7- 展开startup文件夹，选择所有文件，单击鼠标右键，然后选择“Remove”选项。在文件夹上单击鼠标右键，然后选择““Add/Add files”。添加位于以下路径的startup_MKW36A4.s： <SDK_root>/devices/MKW36A4/iar/startup_MKW36A4.s 另外，将system_MKW36A4.c和system_MKW36A4.h添加到startup文件夹中。 这两个文件都位于以下路径： <SDK_root>/devices/MKW36A4   8- 在bluetooth->host->config文件夹中打开“ ble_config.h”文件。在以下代码中添加“ defined（CPU_MKW36A512VFT4）”： /* The maximum number of BLE connection supported by platform */#if defined(CPU_QN9080C) #define MAX_PLATFORM_SUPPORTED_CONNECTIONS 16#elif (defined(CPU_MKW36Z512VFP4) || defined(CPU_MKW36Z512VHT4) || defined(CPU_MKW36A512VFP4) || defined(CPU_MKW36A512VHT4) || defined(CPU_MKW36A512VFT4) || \ defined(CPU_MKW35Z512VHT4) || defined(CPU_MKW35A512VFP4) || \ defined(CPU_K32W032S1M2CAx_cm0plus) || defined(CPU_K32W032S1M2VPJ_cm0plus) || \ defined(CPU_K32W032S1M2CAx_cm4) || defined(CPU_K32W032S1M2VPJ_cm4) || \ defined(CPU_MKW38A512VFT4) || defined (CPU_MKW38Z512VFT4) || defined(CPU_MKW39A512VFT4) || \ defined(CPU_MKW37A512VFT4) || defined(CPU_MKW37Z512VFT4))‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍‍  9- 在source-> common文件夹中打开“ ble_controller_task.c”文件。在以下代码中添加“ defined（CPU_MKW36A512VFT4）”： #elif (defined(CPU_MKW35A512VFP4) || defined(CPU_MKW35Z512VHT4) || defined(CPU_MKW36A512VFP4) || defined(CPU_MKW36A512VFT4) ||\ defined(CPU_MKW36A512VHT4) || defined(CPU_MKW36Z512VFP4) || defined(CPU_MKW36Z512VHT4))/* Select BLE protocol on RADIO0_IRQ */ XCVR_MISC->XCVR_CTRL = (uint32_t)((XCVR_MISC->XCVR_CTRL & (uint32_t)~(uint32_t)( XCVR_CTRL_XCVR_CTRL_RADIO0_IRQ_SEL_MASK )) | (uint32_t)( (0UL << XCVR_CTRL_XCVR_CTRL_RADIO0_IRQ_SEL_SHIFT) ));  10-生成项目。 至此，该项目已经迁移完成。  

App-based accessory demo for an EKG (Electrocardiogram) using the Tower System with TWR-DOCK module. Combines an EKG probe and a microcontroller to acquire and monitor heart rate data and passes the data to an iOS device where an app displays the data.     NXP Recommend Product Link Tower System Dock Module Tower System Dock Module | NXP  Kinetis K53 Tower System Module TWR-K53N512|Tower System Board|Kinetis MCUs | NXP  Tower System Elevator Module Tower System Elevator Module | NXP  Electrocardiograph Development Kit for Tower System Electrocardiograph Development Kit for Tower System | NXP    Featured NXP Products App-based accessory demo for an EKG (Electrocardiogram) using the Tower System with TWR-DOCK module Combines an EKG probe and a Microcontroller to acquire and monitor heart rate data and passes the data to an iOS device where an app displays the data

Demo This demo shows how the FRDM-K82F board along with an OV7670 Camera module can be utilized to create a USB web camera application. The demo application software is delivered as part of the KSDK software enablement. The FS USB video class demonstration can deliver images to PCs or tablets. Features: USB Video device class demonstration application included in Kinetis SDK Easy connection to PC or tablet  display and process video captured from the device FlexIO camera driver utilized to interface to OV7670 camera module _______________________________________________________________________________________________________ Featured NXP Products: ARM Cortex-M4 Cores|Kinetis K8x MCUs|NXP AN5275: Using FlexiO for Parallel Camera Interface AN5280: Using Kinetis FlexIO to drive a Graphical LCD _______________________________________________________________________________________________________

Demo NXP has comprehensive solutions for USB Type-C that covers USB power delivery (USB PD), security, signal integrity, and protection.  The video below shows complete end-to-end solution covering super speed USB data and video combined with USB PD and authentication.  Demo / Product features Complete USB Type-C End to End Solution USB Power Delivery & Display Port Alternative Mode USB PD AC/DC charger with Authentication   NXP Recommends Check all products associated with USB Type-C on below link: http://www.nxp.com/usb-type-c Training Introduction to the Next-Generation USB Type-C Connector and NXP’s End-to-End Solution 

ARM's Ronan Synnott demonstrates the Keil Microcontroller Development Kit (MDK) at the 2014 FTF-Americas. The MDK is a complete software development environment for the Kinetis device family.   Features Demonstrating Keil's Microcontroller Development Kit (full feature debug IDE from ARM) solution Connecting via Ulink Pro JTAG connector ARMCC (ARM compiler) View registers, view memory, etc. Values update on the fly, logic analyzer to visualize values in a system and display on a timeline format   Featured NXP Products Kinetis Microcontrollers Links ARM  

       本program对NXP官方 MCUBOOT进行了大幅简化，砍掉了绝大部分功能，只保留串口下载功能，同时由于保持协议兼容，可以配合官方Win下的命令行工具 blhost  或者 GUI工具 Kinetis Flash Tool  来实现一个基于MCU串口的bootloader，这套代码基于纯C代码，非常容易移植到任何NXP MCU平台上来，有如下两个特色： 基础实现和具体硬件完全解耦。 只有2个.c .h文件:kptl.c mcuboot.c。 除Systick中断外 不使用任何中断。只使用串口轮训发送和接收数据。 所有与硬件相关的必要操作全部由回调函数显示。 kptl 和 mcuboot 本身没有任何硬件依赖。非常容易移植到任何ARM Cortex MCU上。kptl和mcuboot写的很小白，有C基础的都可以看的明白，容易改。   Products Product Category NXP Part Number URL MCU MK64FN1M K64_120: Kinetis® K64-120 MHz  MCU MKE02Z64 KE02_40: Kinetis® KE02-40 MHz  MCU MKE15Z256 KE1xZ: up to 72MHz, 5V main stream CM0+ MCU  MCU LPC802/804 LPC80X: Low-Cost Microcontrollers M0+    Tools NXP Development Board URL FRDM-K64F FRDM-K64F: Freedom Development Platform for Kinetis® K64, K63, and K24 MCUs  FRDM-KE02Z40M FRDM-KE02Z40M: Freedom Development Platform for Kinetis KE02 MCUs  FRDM-KE15Z FRDM-KE15Z: Freedom Development Platform for Kinetis® KE1xMCUs  LPCXpresso802 LPCXpresso802 for the LPC802 family of MCUs LPCXpresso804 LPCXpresso804 for the LPC804 family of MCUs   

Littlevgl is a very good lightweight GUI software, which is convenient to use in MCU environment. This document describes how to port in I.MXRT environment, and how to modify LCD resolution and memory size in current SDK.

Demo Summary The complete mobile transit solution by NXP enables passengers to pay for tickets directly from their mobile phone results in shorter queues at ticket machines and a faster throughput in transport terminals, significantly improving the customer experience. Passengers can buy tickets using their mobile phone, store them on the Secure Element in their phone and later validate them with a single tap on the reader. NXP provides the industry’s most comprehensive end-to-end solution allowing phone manufacturers to easily deploy mobile transit use case using NFC technology as a communication layer together with a Secure Element to ensure intuitive and secure payment transactions for more efficient transit systems. Demo / product features How mobile transit transforms the user experience: Mobile wallet unfolds beyond the scope of payments to encompass mass transit Easily switch between different cities that have a mobile transit infrastructure in place within the same app Enable regular passengers to bypass ticket machines as they purchase their transportation tickets over the air, whenever and wherever they want Create holistic mobile services that support travel information, payments, ticketing and loyalty NXP Recommends The PN66T, an NFC and Secure Element solution for mobile devices, pre-integrated within a Qualcomm 8976 QRD and a Snowball Wallet, resulting from NXP’s strong ecosystem relationships. Links to Video links: YouTube, Vimeo, etc. http://www.nxp.com/products/identification-and-security/nfc-and-reader-ics/nfc-everywhere/nfc-technology:NFC-TECH http://blog.nxp.com/category/near-field-communication/ https://www.youtube.com/playlist?list=PLB598A648939A7E36

Features Wide band amplifier 100W GaN 200 MHz - 2500 MHz Minimum 12 db Gain 40% efficiency Compact circuit Highest ruggedness capability in the industry — > 65:1 VSWR Highest gain figures in the industry — up to 26 dB Highest efficiency in the industry — up to 80% at P1dB Cost-effective, over-molded plastic packaging options Low thermal resistance air cavity packaging options Backed by NXP's secure volume manufacturing capability Proven reliability, quality and consistency Integrated ESD protection with greater negative gate-source voltage range for improved Class C operation World-class, global applications and design support Available to participate in NXP's longevity program (10 year or 15 year lifetime guarantee — more information) Field-proven high-voltage LDMOS process   Featured NXP Products MMRF5014H Links RF Military    

Demo This demo showcases an OpenWRT based Thread Border router running on i.MX6UL and the various options to configure and use routing, firewall and out of band commissioning for Thread networks in combination with WiFi, Ethernet and NFC. OpenWRT is an open source Linux distribution for embedded devices specifically designed for residential gateways and routers. When enhanced with the Kinetis Thread protocol it offers the perfect solutions for creating a Linux based Thread Border Router   Large and dense mesh network consisting in 64+ Thread nodes Each node is router capable, network decides dynamically which nodes become active routers Multiple application functionality run in parallel: Device addressing and identification Lighting demonstration with multicast Occupancy sensing demonstration Border Router with Network management web GUI Features: Application layer communication based on generic CoAP framework CoAP messaging aligned with current ZigBee or OIC frameworks Kinetis KW2xD and Kinetis KW41 ARM Cortex-M4/M0+ MCUs with large on-board memory (up to 512KB flash/128 KB RAM) enable multiple applications to run on a common Thread IP network fabric. 1 i.MX6UL ARM Cortex-A7 with Kinetis KW2xD Linux Border Router used for interfacing with network management GUI Network management and interoperable Thread diagnostics framework used to monitor node state Nodes are enabled for OTA Updates ________________________________________________________________________________________________________ Featured NXP Products: KW2x |Kinetis KW2x 2.4 GHz RF MCUs|NXP KW41ZlKinetis BLE & 802.15.4 Wireless MCU|NXP i.MX Applications Processors|ARM® Cores|NXP i.MX6UltraLite Evaluation Kit|NXP ARM Cortex-M0+/M4 Cores|Kinetis W MCUs|NXP FRDM-KW24D512|Freedom Development Platform|Kinetis|NXP Thread Networking Protocol|NXP ________________________________________________________________________________________________________ C31

Demo This demo showcases NXP’s LPC4088 (running on OEM board with capacitive touchscreen) from Embedded Artists) running TouchGFX graphics, simulating a home energy monitoring application. Features: TouchGFX Software and LPC4000 series MCU enables smartphone look and feel in cost effective embedded display solutions. Power up the board via power connection to J9 (the only micro USB connection available). The demo should start running automatically with 2 or 3 seconds. _______________________________________________________________________________________________________ Featured NXP Products: LPC4088FBD144 LPC4088FET208| LPC4000 32-bit MCUs|ARM Cortex-M4 Cores|NXP C55B

IoT Physical Components Gateways SoC i.MX 6UltraLite                                  Volansys Modular Gateway NXP Modules Supported PN7120 NFC, JN5169 ZigBee   Protocols Supported ZigBee, Thread, Bluetooth, Wi-Fi   User Compatibility MikroBus™ Compatible   Network Connectivity Ethernet, Wi-Fi   Form Factor 100mm x 150mm   Applications Smart Home Smart Building Smart Security Smart Healthcare Smart Energy     SOM MODULE SoC i.MX 6UltraLite                                                   Volansys i.MX6UL SOM for Modular Gateway Memory DRAM, DDR3, NAND Flash, EEPROM, eMMC I/O Interfaces CAN, I2C, SPI, UART, SDIO, PWM, JTAG, SAI, S/PDIF Form Factor 67.6mm x 45.0mm x 5.0mm Applications Energy management Systems IoT gateway Solutions Industrial HMI & Access Control Industrial control & automation Medical & Healthcare equipment Smart appliances Mobile POS & Secure e-commerce KW2XD Module SoC MKW24D512   Volansys KW24D Module (for use with Modular Gateway) or Edge Devices NXP Modules Supported Kinetis® KW2xD Applications Smart Energy M2M Automated meter reading Medical Network HVAC Control Lighting control Asset tracking Environment monitoring and control Protocols Supported Thread User Compatibility MikroBus Compatible Form Factor 24mm x 19mm   KW41Z Module SoC KW41Z512VHT4   Volansys KW41Z Module (for use with Modular Gateway) or Edge Devices     NXP Modules Supported Kinetis® KW41Z Protocols Supported Zigbee, Thread, Bluetooth User Compatibility MikroBus Compatible Form Factor     21mm x 16mm Applications Extremely low-power embedded systems Portable health care devices Wearable sports Fitness devices Computer keyboards and mice Gaming controllers Access control Security systems Smart energy Home area networks Automated meter reading Medical Network HVAC Control Lighting control Asset tracking Environment monitoring and control EDGE DEVICES NXP Modules Supported JN5169 , MKW2xD, MKW41Z   Volansys Modular Edge Node Platform (Supports Same Radio Modules as Modular Gateway) Protocols Supported Thread, ZigBee and BLE User Compatibility MikroBus Compatible Form Factor 74.98mm x 49.99mm Applications Smart Home Buildings Industries What this Demo is All About Video Link : 7307 Modular in design MikroBus Compatible Modules Supports ZigBee, Bluetooth, BLE, Thread, Wi-Fi (SigFox & Lora WAN coming soon) Seamless Integration of your module in our gateway Plug & use our modules to convert your products to solutions      Volansys' NXP Specific Capabilities Presentation. Volansys has created a KW2xD Thread ready module using NXPs' Kinetis KW22D512 Processor for adding thread support on Gateway. The Above Demo reflects controlling of NXPs' Thread End Devices through Volansys Gateway using a mobile application. The mobile application is developed on Android which can control the Thread End Devices sensors (LEDs, Accelerometer, Switch Press) Built using the IAR compiler Volansys IoT Gateway is a production ready modular design with effortless implementation and modification to manufacture your product and also provide a Connectivity solution to your product. KW2xD is a Thread ready module with MikroBus Compatibility for easy integration to convert your products to  Thread ready solutions. KW41Z is multi protocols supported module (Zigbee + Thread + BLE) with MikroBus Compatibility. NXPs' NFC Tap Commissioning helps faster connectivity to the Gateway. Volansys Gateway is also integrated with Amazon Alexa for controlling the IoT end devices using voice for effortless communication for the user. Volansys Overview Presentation Reach out to us If you have any questions or comments, don't see exactly what you need, etc. please feel free to follow up with one of our IoT product managers directly, the IoT Solutions Center Follow Up Team, or the IoT Solutions Center Community: NXPIOTCTR@nxp.com

Radar-detected Emergency Break via V2X to following traffic. RoadLink V2X platform, Ethernet Switch & 77GHz Radar Dolphin transceiver Features enabled by NXP Disrupting the market with an RFCMOS Radar-solution: •Highly integrated, minimal-footprint •Low Power Consumption •Sophisticated Functional Safety Features •Fully invisible mounting •Attractive System Cost Recommended Products •RoadLink Chipset •RF Transceiver (TEF5x00) •Baseband IC (SAF5x00) •Security IC (SXF1700) •Dolphin 77GHz Radar Chip •Ethernet Switch Resources Website http://www.nxp.com/products/rf/millimeter-wave-solutions/radar-technology:RADAR-TECH Video https://www.youtube.com/watch?v=H5eLhER9jZ4

Demo This demo demonstrates the Mobility software (PDCP-GTPU) as VNF in virtualized environment, virtio-PDCP device for PDCP Security offload to H/W accelerator. The guest application is real time implementation of PDCP-GTPU layers of LTE data plane using DPDK library.       Features: Accelerated PDCP-GTPU VNF for Cloud RAN Deployments. DPDK integrated solution for high performance on ARM cores. Accelerated PDCP security processing by offloading to NXP SEC accelerator via virtio-interface (virtio-pdcp) Option to offload Virtio backends to AIOP Cores on NXP LS platforms.   _______________________________________________________________________________________________________   Featured NXP Products: QorIQ Processors Based on ARM Technology|NXP QorIQ LS2085A Communication Processors |NXP _______________________________________________________________________________________________________ Related Link https://community.freescale.com/videos/3994     N11

Demo One of the new features that can be found on the FRDM-K82F is the FlexIO header. It’s be specifically designed to interface with the very cost-efficient OV7670 camera, and uses 8 FlexIO lines to read data from the camera. By using the FlexIO feature, it makes it easy to connect a camera to a Kinetis MCU. A demo is included with Kinetis SDK 1.3 which streams the video data from the camera to a host computer over USB     FlexIO: The FlexIO is a highly configurable module found on select Kinetis devices which provides a wide range of functionality including: • Emulation of a variety of serial/parallel communication protocols • Flexible 16-bit timers with support for a variety of trigger, reset, enable and disable conditions • Programmable logic blocks allowing the implementation of digital logic functions on-chip and configurable interaction of internal and external modules • Programmable state machine for offloading basic system control functions from CPU   All with less overhead than software bit-banging, while allowing for more flexibility than dedicated IP. NXP product Product Link Freedom Development Platform for Kinetis® K82, K81, and K80 MCUs FRDM-K82F|Freedom Development Platform|Kinetis® MCUs | NXP    Links One of many places to buy the OV7670 camera module OV7670 Reference Manual FlexIO Overview FlexIO Training presented at FTF

Description   Industry 4.0 applications demand superior performance and reliable communications for network synchronization, on-time data delivery, and energy efficiency—even under the most extreme operating conditions. Current manufacturing challenges require flexible platforms capable of uniting trustworthy networking protocols with modern and reliable machine-to-machine communications. A remote access unit works as an interface for machinery that can’t be accessed. This tool displays parameters, measurements and can control any features of the linked machine. This remote access unit application is based in an i.MX 6 applications processor that can be programmed with a Linux distribution and Built-in 2G/3G/GPS/Glonass.   Features GPU 3D GPU 2D (Vector Graphics) Camera Interface Cryptographic cipher engines Tamper detection Ethernet Four USB2.0   Block Diagram     Products   Category Name 1: MPU Product URL 1 i.MX 6Dual Applications Processors | Dual Arm® Cortex®-A9 @1.2GHz | NXP  Product Description 1 The i.MX 6 series of applications processors combines broad levels of integration and power-efficient processing capabilities all the way up to bleeding edge 3D and 2D graphics, as well as high-definition video, to provide a new level of multimedia performance for an unbounded next-generation user experience.   Category Name 2: Transceiver Product URL 1 TJA1057 | High speed CAN transceiver | NXP  Product Description 1 The TJA1057 is part of the Mantis family of high-speed CAN transceivers. It provides an interface between a Controller Area Network (CAN) protocol controller and the physical two-wire CAN bus Product URL 2 TJA1101 | 2nd generation PHY Transceiver | NXP  Product Description 2 TJA1101 is a high-performance single port, IEEE 100BASE-T1 compliant Ethernet PHY Transceiver. Product URL 3 Logic controlled high-side power switch | NXP  Product Description The NX5P1100 is an advanced power switch and ESD-protection device for USB OTG applications. It includes under voltage and over voltage lockout, over-current, over-temperature, reverse bias and in-rush current protection circuits.   Category Name 3: Power Management Product URL 1 14-Channel Configurable Power Management IC | NXP  Product Description 1 The PF0100 SMARTMOS Power Management Integrated Circuit (PMIC) provides a highly programmable/configurable architecture, with fully integrated power devices and minimal external components.   Category Name 4: Memory Product URL 1 NXH5104UK: 4 Mbit Serial EEPROM | NXP  Product Description 1 The NXP NXH5104 is a 4 Mbit serial electrically erasable and programmable read-only memory (EEPROM). It provides byte level and page level serial EEPROM functions, sector level protection and power-down functions.   Category Name 5: Sensor Product URL 1 Ultra-low-power, 1.8 V, 1 deg. C accuracy, digital temperature sensor with I2C bus interface | NXP  Product Description 1 The PCT2202 is an I2C bus, serial output temperature sensor available in a tiny WLCSP6 package. It requires no external components.   Category Name 6: RTC Product URL 1 PCF2123 | NXP  Product Description 1 The PCF2123 is a CMOS Real-Time Clock (RTC) and calendar optimized for low power applications. Data is transferred serially via a Serial Peripheral Interface (SPI-bus) with a maximum data rate of 6.25 Mbit/s.   Documentation i.MX 6 Temperature Sensor Module:  https://www.nxp.com/docs/en/application-note/AN5215.pdf    Tools Product Link RD-IMX6Q-SABRE: SABRE Board for Smart Devices Based on the i.MX 6Quad Applications Processors i.MX 6Quad SABRE Development Board | NXP  KITPF0100EPEVBE: Evaluation Kit - MMPF0100, 14 Channel Configurable PMIC EVB- MMPF0100, 14 Channel Configurable PMIC | NXP  OM13512: Demoboard for the SPI-bus RTC PCF2123 Demoboard for the SPI-bus RTC PCF2123 | NXP  NXH5104ADB: NXH5104A Demo Board NXH5104A Demo Board | NXP  OM13257: Universal Temperature Sensor Daughter Card for the Fm+ Development Kit Universal Temperature Sensor Daughter Card for the Fm+ Development Kit | NXP  TJA1100HN: Evaluation Board, TJA1100HN 100BASE-T1 PHY Transceiver TJA1100 Customer Evaluation Board | NXP