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 _______________________________________________________________________________________________________

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 

NFC-enabled Audio System Tap-to-pair has become a common habit when connecting an NFC-enabled smartphone conveniently to a wireless speaker. Bringing this experience to the next level, even a multi-speaker audio system can be set up with NFC. If all speakers are equipped with an NFC chip, you simply tap one speaker to another to establish the connection. That’s what we call a true wireless stereo system - and it works with any phone, no matter if it is NFC-enabled. The same can be done with NFC-headsets. Features: Tap-to-pair to connect an NFC-enabled smartphone conveniently to a wireless speaker or headphone Easy integration into any OS environment ___________________________________________________________________________________________________________________________ Featured NXP Products: PN7210|NXP http://www.nxp.com/products/:PN7120A0EV NFC multi-speaker and headset audio system Speaker Version Tap-to-pair has become a common habit when connecting an NFC-enabled smartphone conveniently to a wireless speaker. Bringing this experience to the next level, even a multi-speaker audio system can be set up with NFC. If all speakers are equipped with an NFC chip, you simply tap one speaker to another to establish the connection. That’s what we call a true wireless stereo system - and it works with any phone, no matter if it is NFC-enabled. Headset version Same use case can be shown with NFC headset, with smartphone being connected to the first headset by simply tapping to the smartphone, and then tap the 2 headset together to share the audio content to the second headset. Features: Speaker Version Traditional push button pairing NFC pairing Action for pairing Push sync button as long as requested in the user manual Touch the 2 speakers together Connection time for bluetooth pairing Usually at least 10 to 30 sec 1 second Connection repeatability Varied from environment Sometimes fails Always repeatable Usual issues Can connect to wrong bluetooth device if there are multiple ones nearby No error possibility Scalability Adding a 3rd speaker or more requires again same manual action As easy as before Unpairing Must follow carefully the user manual, risk is that speaker can stay connected or wrong one be disconnected Touch the 2 speakers together Headset version Share immediately your music with your friend, or neighbour in public transportation, by simply tapping both headset No need to connect your friend or neighbour’s phone to your phone, simply tap both headset Disconnect/unpaired by tapping again both headset

Demo This demo showcases a bluetooth headset using NXP’s Near Field Magnetic Induction device NxH2280, enabling truly wireless streaming of voice, audio and data. The demo is built using the NxH2280 Application Development Kit for hearables Features: very power efficient audio and data streaming from ear-to-ear: HQ audio < 2.5 mW works through human body with ultra-low absorption: SAR is 100 times lower than Bluetooth ensures reliable and private communication _______________________________________________________________________________________________________ Featured NXP Products: NxH2280: Near Field Magnetic Induction radio|NXP LPC1102: low power, space efficient microcontroller|NXP NT3H1101: Energy harvesting NFC Forum Type 2 Tag for bluetooth simple pairing|NXP _______________________________________________________________________________________________________ Picture of demo: implemented using headphone shells Picture of NxH2280 ADK C11

Demo Owner michaelestanley By monitoring the vibration signature of a rotating machinery we can predict the remaining useful life of that machine. Features Condition monitoring Visual characterization of the fundamental frequency of a  motor along with its harmonics Features that can be observed: wavelength, transfer coefficients, statistical measures, standard deviations, variances Preparing work flows where users can use machine learning algorithms to to figure out what feature sets are important, focusing only on the features that are needed to predict the remaining useful life of the machine Links Sensors

Description In this demo we show how to create a zumo robot basic controller. For this we will use the FRDM-KW41 card, an H bridge, and a cell phone with the NXP IoT toolbox application. From the application we will send the characters F forward, S to stop, B to back, L to left, R to right. The FRDM-KW41Z highly-sensitive, optimized 2.4 GHz radio features a PCB F-antenna which can be bypassed to test via SMA connection, multiple power supply options, push/capacitive touch buttons, switches, LEDs and integrated sensors. Video Diagram and Schematic Step by Step guide First, we need to have MCUXpresso installed and open. Download and load the Zumo Robot project in MCUXpresso. Install NXP IoT Toolbox app. Compile the project, connect the board and load it. Connect the card as indicated in the schematic Connect the power supply. Press switch 4 on the board. Open NXP IoT Toolbox, select Wireles UART and connect with the board. Now you can send the characters mentioned in the description. NXP Product Link Freedom Development Kit for Kinetis® KW41Z/31Z/21Z MCUs FRDM-KW41Z |Bluetooth Thread Zigbee enabled Freedom Development Kit | NXP 

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

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)

New Family of Doherty IC Power Amplifiers Coupled with a Dual-Path Pre-distortion Linearizer Demo / product features A2I20D040N 5 W final 42% efficiency 1.8-2.2 GHz wideband Doherty NXP’s A2I20D040N The Maxim SC2200 dual path linearizer enhances the already high linearity of the NXP devices with LTE signals as wide as 3x20 MHZ Maxim’s solution provides improvement of up to 28 dB in ACLR and 38 dBm in IMD NXP Recommends A2I20D040Nhttp://www.nxp.com/products/rf/rf-power-transistors/rf-cellular-infrastructure/1450-2200-mhz/1400-2200-mhz-5-w-avg.-28-v-wideband-integrated-rf-ldmos-amplifier:A2I20D040N?fsrch=1&sr=1&pageNum=1 SC2200: www.maximintegrated.com/SC2200 Fast-track 5G with NXP Application Note AN5296 - Effective Small Cell Solutions for MIMO Radios

Description With the RF Cicuit Collection, NXP customer can browse, dowlnload and order through a large number of Reference Circuit documentation. Video Introduction to the RF Circuit Collection  Step by step Guide 1. Go to www.nxp.com/rfcollection. 2. Accept the click-through licence. 3. Browse across 400 reference circuits by frequency or power using the sorting tool or doing a direct search in the search engine 4. Depending on documentation availability, either download or request the desired documentation by clicking the corresponding button. 5. Do you need a board? Order it through our distributor partners by using the distributor button in the collection. Products NXP Product Link NXP RF Cicruit collection www.nxp.com/rfcollection 

NXQ1TXH5 One-Chip Qi Low Power Wireless Charging Transmitter     Demo Owner: Rick Dumont   The NXQ1TXH5 is a one-chip low power Qi transmitter, and it enables an ultra-low cost wireless charging transmitter dramatically reducing application cost while still providing latest WPC version 1.2 Qi compliant performance. The NXQ1TXH5 demo is provided in a small form-factor on which Qi enabled phones can be charged. The demonstration shows the extremely low component count, which is interesting for professionals to understand, and at the same time showing a real-life eye-catching form-factor that draws non-technically skilled person attention. The demonstration challenges people to actually charge their phone and experience charging without wires.   Features: Ultra low component count solution. Reducing application cost by 30-50% compared to other solutions Easy to layout on 2-sided PCB Excellent EMI behaviour without additional external filtering Ultra low standby power of 10 mW meeting 5-start smartphone charger standby rating High efficiency of 75% Excellent thermal behaviour due to NXPs proprietary low RDSon power silicon technology _________________________________________________________________________________________________________________________________________   Featured NXP Products: Product Link NXQ1TXH5: One-chip 5 V Qi wireless transmitter https://www.nxp.com/products/power-management/wireless-power/one-chip-5-v-qi-wireless-transmitter:NXQ1TXH5?&lang_cd=en NXQ1TXL5: Low-cost one-chip 5 V Qi wireless transmitter NXQ1TXL5: Low-cost one-chip 5 V Qi wireless transmitter | NXP  NXQ1TXH5 WPC 1.2 Qi-compliant wireless charger demo board NXQ1TXH5 WPC 1.2 Qi-compliant wireless charger demo board | NXP    _________________________________________________________________________________________________________________________________________