Demo Owner: Eric Dudley See a demonstration of a low cost WLAN reference design running on QorIQ Processor P1 which delivers 1Gb/s performance with ultra low power and VortiQa application identification software (AIS) capturing the data from mobile devices in a BYOD environment for real-time monitoring, classification and filtering.       Features 802.11ac enterprise access point Based on the QorIQ P1 and P2 VortiQa application identification software Delivers 1Gb/s performance with ultra low power and VortiQa application identification software (AIS) capturing the data from mobile devices in a BYOD environment for real-time monitoring, classification and filtering. Featured NXP Products P1020: QorIQ P1020/11 Single- and Dual-Core Communications Processors Block Diagram

I'M Smartwatch, Smart TV's, and an interview by UI Labs CEO about natural user interfaces. The consumer experience is leading the way for the Connected Home. When technology emerges in the market, it's adopted by consumers first and then spreads into enterprise and industrial organizations.       Features See different demos showing different types devices that can be found in the home Tablets, Wearable Android watch and set top boxes interacting with TVs and smart phones Taking advantage of the i.MX6 features using Natural User Interface and showing fluid movement and seamless transitions in videos displayed using the i.MX6 processor Featured NXP Products i.MX6Q: i.MX 6Quad Processors – Quad Core Links Consumer Block Diagram

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 

This demo will provide three modes to show the CAPWAP offloading capability of QorIQ platform. mode Iis the core-through mode which can be implemented by the CAPWAP stack to send the CAPWAP stack packets; Mode II is the offloading-mode which demonstrates the CAPWAP Encapsulation/De-capsulation capability of the SoC, and can be used in the AC case; Mode III is the net-bridge mode which is the basic usage for EAP which bridge the packets from PCIE to SEC and FM for offloading CAPWAP manipulation, the bridge is zero-memory copy in order to get high performance data. Together with the throughput data, this demo will help the customer to evaluate the EAP design with QorIQ platform.   Features QorIQ T1 processors handle secure WLAN tunnels with offload engines instead of CPU cycles CAPWAP tunneling firmware performs extra tasks (frag/ reassembly) and interfaces to the Linux user Highly efficient bridging to WLAN radios ensures maximum WLAN performance CAPWAP fragmentation and reassembly Featured NXP  Products T1040 Block Diagram

Description This is a very simple dodge the objects game. You are going to control a spaceship nave with the pushbuttons, one is use for up and the other to down, using the GPIO capabilities of the MCU. The on-board capacitive touch pad acts as start button and the game will prints in a terminal application as Tera term or also you can use an SSD1306 OLED display via SPI, the next picture show a block diagram of the project. Video Requirements LPC845 Breakout Board MCUXpresso IDE SDK_2.6.0_LPC845BREAKOUT LPC845_Spaceship.zip Micro USB cable Terminal Emulator (Tera Term, Putty) OLED Display from Adafruit (optional) Block Diagram NXP Product Link LPC84X LPC84x 30MHz|Arm® Cortex®-M0+|32-bit Microcontrollers (MCUs) | NXP  LPC845-BRK LPC845 Breakout Board for LPC84x family MCUs | NXP 

JN516x-EK004 ZigBee Smart Home Kit with NFC Commissioning All necessary hardware components to demonstrate, evaluate and develop ZigBee wireless network solutions with IoT connectivity and NFC commissioning Firmware pre-loaded with demonstration software for both ZigBee nodes and IoT Gateway Free support resources for developing ZigBee applications for the JN516x microcontrollers Expandable with the addition of extra ZigBee nodes, available separately             JN516x-EK004 Evaluation Kit                               NFC Controller on Raspberry Pi Board Physical Components The JN516x-EK004 ZigBee Smart Home Evaluation Kit includes the following hardware components: Gateway Component Raspberry Pi single-board computer to act as IoT Gateway Host JN5169 USB dongle (OM15020) to act as ZigBee Control Bridge Wi-Pi Raspberry Pi dongle for Wi-Fi connectivity NFC controller (PN7120) for NFC commissioning of ZigBee nodes ZigBee Node Components Carrier boards (OM15022) to accommodate expansion board and ZigBee JN5169 module, and incorporating NFC connected tag (NTAG I 2 C) including NFC antenna ZigBee modules (JN5169-001-T00/T01) providing processing platform and RF interface Generic expansion board (DR1199) with switch and level control functionality Lighting/Sensor expansion board (DR1175) with white light, colour light and sensor functionality Software Pre-loaded ZigBee Smart Home demonstration Flash programming utility for firmware re-programming Software Developer’s Kits (SDKs) for developing applications for JN516x microcontrollers Eclipse-based Integrated Development Environment (IDE) for easy application development Application Notes containing example applications and templates This Demo Is Probably of Interest If You: Work with Home Automation, Smart Energy or other similar IoT applications Need a state-of-the-art ZigBee solution Need a secure and convenient way to commission devices to your ZigBee network Key Benefits of Kit All-in-one kit to rapidly get started with your ZigBee application development Leverages NXP NFC solution to commission ‘smart nodes’ out of the box, securely and in just one tap Comprehensive support software and collateral for developing custom ZigBee solutions with IoT connectivity Video Link : 4980 JN516x-EK004 Evaluation Kit Leaflet JN516x-EK004 Evaluation Kit User Guide JN5169 ZigBee Wireless Microcontroller JN5169 USB Dongle for ZigBee (OM15020) ZigBee 3.0 Wireless Network Protocol ZigBee Generic Node Expansion Kit (JN5169XK010) ZigBee Lighting/Sensor Node Expansion Kit (JN5169XK020) NFC Controller (PN7120) NFC Connected Tags (NTAG I 2 C)

Smart Sensor Demo Kit Highlighted Features Multi-protocol bi-directional data stream support from/to any IP-enabled remote system Data parsing and abstraction mapping layer for normalizing data from heterogeneous devices Drag-and-drop business and analytics processing logic (akin to using Visio and Excel fused together) Report and web page builder that assembles Table reports (including data for exposure to the secure API) Time-series graphs Pie, line, spark and other chart types Uploaded visuals such as photos, CAD/CAM drawings, diagrams, schematics, etc. Full location-based services incorporating Google Maps, NOKIA here, CloudMade and Open Street Maps Business Forms assembly system so you can deploy workflow for Firmware push Remote command and control (on/off, settings, reboot, etc.) Device inventory tracking and control Asset management Financial transactions from machines Many other possibilities   Description The SeeControl Cloud Service allows embedded systems engineers to quickly assemble scalable 3-tier web applications that collect, analyze and display systems data. The service is drag and drop so you don't have to script or code to create a web app. The Service natively supports the following IoT/M2M communication protocols: UDP TCP MQTT HTTP MODBUS CoAP There is additional support for vendor-specific communication stacks such as GE, CalAmp, Sierra Wireless, etc. Customers can also create their own device adapter using protocol and language of choice. You can stream data to these data adapters at http://com2.seecontrol.com. We will give you a specific port range for each protocol/device type. You can also send your data through a device API. Guidance is here. Once the data has been received by our system. You will use a data abstraction tool to define fields that are in the packets you are sending. For example, if you send a variable field called tmp_123 from a temperature sensor you will tell the SeeControl service that tmp_123 is a a number and specifically a unit of measure called "Temperature" and then select whether Celsius or Fahrenheit. Once that is done, you can use the rest of the system to build a scalable web app, typically in 1-2 days depending on how complex our solution needs to be. To see the full range of interfaces available for visualizaing IoT data and managing devices/process, you can log in to: http://cloudx.seecontrol.com user:                fslcommunity1 password:        fslcomms1 This account only shows the visualization output, not the tools used to collect and process data. To try out the whole toolset, please acquire a full demo kit. The demo kit includes a cloud account that you can connect to the sample connectivity and sensor items listed below (or any hardware/system you would like to try out). Full Bill of Materials See bottom of this page for BOM Table Basic Data (To be filled out by FSL) Demo Number: Current Version: Current Demo Reproducibility: Intended to be Modified By: Current Demo Operation: BOM: See bottom of this page Demo Video   Freescale IoT Cloud Demo Kit     System Block Diagram   Hardware Kit & Data Flow Diagram     IoT Physical Components Gateways SOC's: i.MX6 Dual Boards/Modules: Utilite Standard Box Software: https://community.nxp.com/docs/DOC-103268 Utilite Linux BSP Connectivity Software: USB Local TCP/IP over Ethernet HTTP to Cloud Sensors End User Products: Commercial Temperature and Electric Current Sensors (See below for list) Cloud Infrastructure/Services https://community.nxp.com/docs/DOC-103268 IoT System Capabilities Device Management Add Device Remove Device Device Inventory Management Check Online/Offline Status View real time and historical messages Communications/Interworking HTTP (other protocols such as CoAP, MQTT, etc. optional) Security HTTPs (secured HTTP) Middleware / Analytics / Data SeeControl Cloud Communications & Data Mapping Tool SeeControl No Coding Analytic Engine SeeControl No Coding Visualizer Note: For additional Products/Components used in this demo see bottom of this page. IoT Product Type Product/Component Vendor Research or Procure This Product/Component Gateway NXP Utilite Standard Box NXP Contact NXP IoT Center Temperature Sensor Lascar USB Temperature Logger MicroDAQ Visit MicroDAQ Website Electrical Meter eGauge eg3000 Electric Meter eGauge Visit eGauge Website In online or phone order, please ask for SeeControl Turnkey Part Number Current Transformer(s) eGauge Current Transformers eGauge Visit eGauge Website Connectivity / Messaging Middleware SeeControl No Coding IoT Cloud Service    SeeControl Get a live demo Analytics SeeControl No Coding IoT Cloud Service SeeControl Get a live demo Data Visualization SeeControl No Coding IoT Cloud Service SeeControl Get a live demo

Demo Virtual Doctor       Features Connecting patients with clinicians anywhere, anytime, with real steaming secure patient data, vital signs, diagnostics, video conferencing Integrated Medical Tablet IDM100 is a secure HIPAA compliant healthcare platform designed for clinical and at home use Powered by NXP’s IMX6x MCU and was prototyped using the Healthcare AFE Reference Design   NXP Recommends i.MX 6Dual Processors|Advanced 3D Graphics Kinetis K20 100 MHz|ARM Cortex-M4|32-bit USB MCUs Power Management for i.MX Processors   Links Dictum Health   P13

Experience a great showcase of network function virtualization and network service insertion using OpenStack Cloud Orchestration Software.     Features Network Function Virtualization of HAProxy - Server Load Balance OpenSource Software and IPTables Firewall for Network Service Insertion to show case DC Networks deployment use case This demo show cases Network Function Virtualization and Network Service Insertion using OpenStack Cloud Orchestration Software Orchestrating HAProxy and IP Tables virtual network functions using OpenStack Havana release Network function configuration relay using OpenStack dashboard Featured NXP Products T4240: QorIQ T Series T4240/T4160/T4080 24/16/8 Virtual Core Links Networking Block Diagram  

Watch the C29x PKC, OpenSSL offload. Secure network traffic is growing ... fast! Security is everywhere and must scale and hardware acceleration is key to this NXP C29x family of crypto coprocessors.     Features SSL Acceleration with Public Key Offload C29x crypto coprocessor runs on industry-leading QorIQ SoC or x86 Enables efficient scaling with growth in secure networking traffic Featured NXP Products Product Link Crypto Coprocessor https://www.nxp.com/products/processors-and-microcontrollers/legacy-mcu-mpus/crypto-coprocessors/crypto-coprocessor:C29x?&tid=vanC29x C29x PCI Express® Adapter Platform C29x PCI Express® Adapter Platform | NXP   

Description An e-reader allows a user to download text files from the internet or from a PC, store and read multiple books, as well as to listen to audiobooks or music stored on the device.   Block Diagram   Products Category Name 1: MPU Product URL 1 i.MX 8M Mini Applications Processor | Arm Cortex A53/M4 | 1080P display | NXP  Product Description 1 The i.MX 8M Mini is NXP’s first embedded multicore application processor built using advanced 14LPC FinFET process technology, providing more speed and improved power efficiency.   Category Name 2: Battery Charger Product URL 1 MC34673 | Single-cell Battery Charger | NXP  Product Description 1 The MC34673 is a cost-effective fully-integrated battery charger for Li-Ion or Li-Polymer batteries. It tolerates an input voltage up to 28 V,   Category Name 3: PMIC Product URL 1 14-channel power management IC optimized for i.MX 8M | NXP  Product Description 1 The PF4210 is a high-performance PMIC that is optimized to power low-cost consumer applications with the i.MX 8M family of application processors. It can provide power for a complete system, including application processors, memory and system peripherals.   Category Name 4: Power switch Product URL 1 USB PD and type C current-limited power switch | NXP  Product Description 1 The NX5P3090 is a precision adjustable current-limited power switch for USB PD application, it includes under-voltage lockout, over-temperature protection, and reverse current protection circuits.   Category Name 5: USB Type-C Logic Product URL 1 PTN5150 | NXP  Product Description 1 PTN5150 is a small thin low power CC Logic chip supporting the USB Type-C connector, it enables USB Type-C connector to be used in both host and device ends of the Type-C cable. Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN12410.pdf  i.MX 8M Mini Power Consumption Measurement https://www.nxp.com/docs/en/application-note/AN1902.pdf  AN1902 (Combined with AN10365), Assembly guidelines for QFN (quad flat no-lead) and SON (small outline no-lead) packages Tools   Tool URL i.MX 8M Mini Evaluation Kit | NXP    Training Training URL i.MX Yocto Project: Frequently Asked Questions  i.MXDev Blog  Related Demos from Communities URL Hands-On Workshop: Fast Track Your Product Development with the Latest Multimedia Applications Processor from NXP, the i.MX 8M Mini  NXP MCU and MPU Based Voice and Audio Solutions for AI-IoT Market 

What is an IoT Gateway? An IoT Gateway is essential part of a Trust enabled, power-efficient IoT deployment in buildings, homes, street and industrial sites. The low-power foot-print is achieved by having low-power, low-cost sensor nodes connecting over low-power, shorter range radio networks. The IoT Gateway bridges between these wireless sensor networks and the enterprise or carrier networks.   Furthermore, the IoT gateway also provides a platform for local data filtering and decision making. This is context aware computing. In near future, the cost of processing data will be less than the cost of moving data across a network and less than the cost of data storage. It makes sense to distribute the intelligence and process/filer data close to the data source. In this session, one of the first public demo’s of LS1021A, NXP will demonstrate an ready-to-use IoT gateway platform together with sensor and cloud connectivity. Value Propositions    Coupling IoT to SDN and Big Data. LS10121A IoT Gateway   Customer-premise IoT Gateways – Industrial, Enterprise, Home, Street-side     Distributed/Local Intelligence for real-time decision making and management (context aware computing)                                                                     High-availability, Trust Enabled networking, highly power efficient      NXP Recommends: Product Link LS1021A-IoT Gateway Reference Design LS1021A-IoT Gateway Reference Design | NXP 

Demo NXP has a full range of high power LDMOS drivers and finals for cellular base stations. Our cellular LDMOS portfolio delivers industry leading performance with powerful and efficient products targeting rapidly growing frequencies and regions in the world. This demo wall features new devices that cover all cellular bands from 575 to 4000 MHz Products http://www.nxp.com/products/rf/rf-power-transistors/rf-cellular-infrastructure/2300-2690-mhz/100-3600-mhz-3.2-w-avg.-28-v-airfast-rf-ldmos-wideband-integrated-amplifiers:A2I25D025N A2I25D025N 5 W IC Final Small Cell Solution • Frequency 2100–2900 MHz • Doherty performance at 8 dB OBO 2300-2700 MHz    Gain 29.2 dB    Efficiency 42%    Peak 46 dBm • TO-270WB-17 plastic package A2I20D040N 5 W IC Final Small Cell Solution • Frequency 1400–2300 MHz • Doherty performance at 8 dB OBO 1800-2200 MHz    Gain 29.2 dB    Efficiency 46.5%    Peak 47.6 dBm • TO-270WB-17 plastic package A2I35H060N 5 W IC Final Small Cell Solution • Frequency 3400–3800 MHz • Doherty performance at 8 dB OBO 3400-3600 MHz    Gain 24 dB    Efficiency 32%    Peak 48 dBm • TO-270WB-17 plastic package A3I35D025N 5 W IC Final Small Cell Solution • Frequency 3200–4000 MHz • Doherty performance at 8 dB OBO 3400-3600 MHz    Gain 25 dB    Efficiency 35%    Peak 42.8 dBm • TO-270WB-17 plastic package A2T08VD020N 48 V LDMOS Solution • Frequency 720–960 MHz • Class AB performance at 10 dB OBO    Gain 19.3 dB    Efficiency 21.5% • Peak power 43.4 dBm • PQFN 8x8 package A2I09VD030N 48 V LDMOS Solution • Frequency 575–960 MHz • Doherty performance at 10 dB OBO    Gain 34.4 dB    Efficiency 20% • Peak power 46 dBm • TO-270WB-15 package

Overview The Occupancy Sensor Node reference design is a compact form factor, open source design. It enables low power nodes based on IEEE 802.15.4 protocols such as Thread and ZigBee to communicate data to a wireless sensor network. NXP supplements the Kinetis KW2xD with tools and software that include hardware evaluation and development boards, software development IDE and demo applications and drivers. Features MKW24D512 802.15.4 Kinetis MCU Full IEEE 802.15.4 compliant wireless node for Thread network Integrated PCB meander horizontal antenna 2 Interrupt push button switches (LLWU) 1 FXOS87000CQ Combo sensor 1 Coin cell battery holder 1 EEPROM 1 Battery charger Block Diagram Board Design Resources

Overview This NXP® reference design describes a High Intensity Discharge (HID) lamp leveling system with a LIN-bus interface. Stepper motor controller operating as a LIN-bus slave (LIN Stepper Controller). All functionality is provided by a general purpose LIN-bus IC MM908E625 and LIN Stepper software (HC08 software). The LIN Master consists of a master control board, based on an MC9S12DP256 CPU, and a personal computer with a graphical user interface (GUI), running in a master software environment. The LIN-bus Stepper Controller can be used for any kind of stepper motor control using the LIN-bus serial communication protocol. Features LIN bus Interface rev 1.2 Bus speed 19.2 kbps Slave IC without external crystal or resonator Slave node clock synchronization ±15% Each LIN slave controls one bi-phase bipolar stepper motor Motor phase current limitation up to 700 mA Supply voltage 12 V d.c. Stepper motor control with stepping acceleration and deceleration ramp Stepping frequency up to 2,500 Hz Slave parameter configuration via LIN-bus Slave LIN signal reconfiguration via LIN-bus Code written in C-language Block Diagram Board Design Resources

Introduction The LS1046A MPU capabilities to manage data are one of the cornerstones in its design, this makes it a perfect choice when the end-application is related to data network management. The Frame Management features enable the possibility to process big data files that later on can be distributed by the network. The LS1046A also offers up-to 3 PCIe 3.0 Lanes to connect-state-of-the-art wireless cards and one SATA 3.0 interface that can be used for high-speed storage purposes. Overview This demonstration belongs to a demo bundle of the FRWY LS1046A, it intends to showcase the performance of the board in different use cases regarding edge computing. This demo provides the user an example of the LS1046A behavior when is used as a video streamer box over the QCA M.2 Wi.Fi. card. The user can access to the video vault by using a LAN infrastructure and reproduce any video in a tablet, smartphone or smart tv. Video streaming applications, centralize the highest workload in specific single or distributed systems, leaving the end-device a low demand workload. Having single-purpose systems allows an easier upgradable storage capacity, which translates to lower costs in these devices. Block Diagram Products NXP Product Link FRWY LS1046A TP LS1046A Freeway Board | NXP

  JN-5189 SoC的多功能Timer外设支持Pulse Counter脉冲计数功能。可以参考附件文档实现这个功能。 Products Product Category NXP Part Number URL MCU JN5189 JN5189/88 (T): High Performance and Ultra-low power MCUs for Zigbee®   Tools NXP Development Board URL JN5189 Evaluation Kit for ZigBee and Thread mesh network with NFC Commissioning Advanced Development Kit for JN5189/88   SDK Development Software and ANs URL MCUXpresso SDK Software Welcome | MCUXpresso SDK Builder  Application Note Zigbee 3.0 IoT Control Bridge    

This video shows how to control the QN9080 PWM using NXP's Toolbox Android app via simple commands.

This video shows a part of the LS1046A demonstration of capabilities in different high-demandant computing tasks.