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

This video shows tools that allow users to get started very quickly in their development with NXP products.     Features Example of products shown: Products in Raspberry Pi format such as the HummingBoard, but more powerful with more memory and more features available Sensor fusion board with multiple accelerometers, Magnetometers, Gyroscopes and sensor fusion software interacting with the Kinetis FRDM board Wandboard with i.MX6 processor, very active developer community, multiple flavors of Linux and Android are available Riot Board - open source i.MX6 board with big expansion capabilities Little Bits which is part of a Hacker community space allows snapping elements together and interacting with them easily CuBox-i from Solid Run (Android or XBMC) and display multimedia stream to TV Featured NXP Products i.MX6 Kinetis Links HummingBoard FRDM Sensor Fusion Board Wandboard - i.MX6 ARM Cortex-A9 Opensource Community Development Board - BLOG Riot Board Little Bits Solid Run Cu-Box-i Internet of Tomorrow - IoT Tour - Blogs NXP IoT Schedule  

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

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

Demo Owner: Alin Iulian Lazar Watch how Kinetis Microcontrollers KW2x wireless MCU runs RF4CE and ZigBee Pro stacks in DualPAN mode delivering next-generation remote control and home automation integration.   Features Kinetis Microcontrollers KW2x is able control a TV and also control home automation devices ZigBee (RFCE and HA). Dual personal area network acting in two networks simultaneously. Featured NXP Products Kinetis KW2x Links USB Packet Sniffer/Dongle|NXP Block Diagram  

This demo shows the interaction among MCUs, motor drivers, and sensors using simple mbed code and various communication protocols, namely Ethernet, I2C, and PWM to simulate real-world applications on a smaller scale       Features Motor driver with Brushed DC motor driver with current feedback and thermal regulation 6-Axis sensor FXOS8700 (Accelerometer + Magnetometer) and 3-Axis Gyroscope FXAS21002 Kinetis K64 MCU 120 MHz ARM® Cortex®-M4 core with Ethernet and USB Complete system consisting of an MCU, a sensor, and a motor driver _______________________________________________________________________________________________________   Featured NXP Products Product Link Sensor Toolbox Development Boards for a 9-Axis Solution using FXAS21002C and FXOS8700CQ https://www.nxp.com/design/development-boards/freedom-development-boards/sensors/sensor-toolbox-development-boards-for-a-9-axis-solution-using-fxas21002c-and-fxos8700cq:FRDM-STBC-AGM01?&lang_cd=en Freedom Expansion board for MC34931- Brushed DC Motor Driver, H-Bridge, 20kHz https://www.nxp.com/design/development-boards/analog-toolbox/freedom-expansion-board-for-mc34931-brushed-dc-motor-driver-h-bridge-20khz:FRDM-34931S-EVB?&lang_cd=en Freedom Development Platform for Kinetis® K64, K63, and K24 MCUs https://www.nxp.com/design/development-boards/freedom-development-boards/mcu-boards/freedom-development-platform-for-kinetis-k64-k63-and-k24-mcus:FRDM-K64F?&lang_cd=en _______________________________________________________________________________________________________   Software Links Accelerometer code Motor driver code   For more detailed information about this demo, please download attached PDF

ASH WARE's Andy Klump demonstrates a ETPU simulator as well as an MC33816 simulator at the FTF Americas 2014. Both simulators are popular in the automotive industry.       Features Demo of eTPU and MC33816 simulator. Both simulators are popular in the automotive industry Develop software in state machine visual tool Waveform window allows users to visualize different states using analog signals, single step, break points, etc. Featured NXP Products eTPU MC33816 Links Ash Ware  

Description NXP's leadership position in the security, contact and contactless identification space makes us the experts in access control solutions that are safe, secure, robust and reliable. NXP has devices for driving user interfaces as well as lock mechanisms. NXP also has different solutions for addressing designs using both contact and contactless identification systems. Putting these NXP devices together makes for compelling access control solutions. Use your phone or smart card for Access control to open doors or give access to machine configurations.  Use cases Corporate/campus access control system Lock manufacturers (mechanical and electronic) Industrial equipment with safety conditions or control restriction Components for multi-user appliances like printers Professional tools Smart lock manufacturer for smart home applications Block Diagram Products Category Name MCU Product URL Arm® Cortex®-M4|Kinetis® K64 120 MHz 32-bit MCUs | NXP  Product Description The Kinetis® K series MCU portfolio offers the broadest selection of pin, peripheral- and software-compatible MCU families based on the Arm® Cortex®-M4 core. Category Name Secure Product URL A71CH | Plug and Trust for IoT | NXP  Product Description  A71CH is a ready-to-use secure element for IoT devices providing a root of trust at the IC level and delivers, chip-to-cloud security right out of the box. Category Name NFC Product URL PN5180 | Full NFC Forum-compliant frontend IC | NXP  Product Description  The PN5180 is a high-performance full NFC Forum-compliant frontend IC for various contactless communication methods and protocols. Tools Product Link Freedom Development Platform for Kinetis® K64, K63, and K24 MCUs FRDM-K64F Platform|Freedom Development Board|Kinetis MCUs | NXP  A71CH Arduino® compatible development kit OM3710/A71CHARD | A71CH Arduino® compatible development kit | NXP  PN5180 NFC Frontend Development Kit for POS Terminal Applications OM25180 |PN5180 NFC Development Kit for POS Readers | NXP 

Overview   RFID enhances theft protection by giving each animal a unique, encrypted identification. Meat industry stakeholders can improve disease control by storing and updating vaccination and movement data directly into each animal’s chip, or by correlating the identification number with this information in the backend system. Such traceability ensures consumers healthy and tasty meat, with clear proof of origin. The ability to track livestock and their movements allows governments to trace what occurs in the supply chain, and to tax each player appropriately. In the case of disease outbreaks, the technology makes it possible to identify which flocks have been affected, which helps to avoid unnecessary waste. Application Benefits of RFID Livestock Management   Provides proof of origin Verifies age and supports disease control Automates handling at farm and auction house Provides theft protection Supports storage and updating of vaccination and movement data   RFID Features Beneficial to Application Permanent identification No line-of-sight requirement Simultaneous multiple identification Robust and suitable for harsh environments Compliance with government mandates   Recommended Products   RFID Link HITAG 2 transponder IC HT2x | NXP  HITAG µ / Advanced / Advanced+ HTMS1x01 HTMS8x01 | NXP 

Demo DPDK provides a platform independent and vendor-neutral standard APIs for optimized packet processing and traditional networking services. This demo showcases DPDK based networking applications working over NXP QorIQ ARM Processors in host and virtual environment. Come discuss with us how NXP is providing support for these common API while leveraging specific acceleration advantages of the NXP data plane architectures   Features: NXP supports DPDK APIs for developing high performance networking applications in host and virtual environment NXP DPDK implementation leverages the underlying DPAA infrastructure and accelerators to offload the component of packet processing Existing DPDK based applications can seamlessly work over NXP QorIQ platforms.   _______________________________________________________________________________________________________   Featured NXP Products: QorIQ Processors Bades on ARM Technology|NXP QorIQ LS2045A and LS2085A Communication processors _______________________________________________________________________________________________________     N25

Demo Owner: Matt Hoover Embedded Planet's CEO Matt Hoover demonstrates the Wireless Sensor Gateway featuring i.MX6 applications processor at the FTF Americas 2014.       Features Bringing wireless sensor data tied to sensors that is brought into the i.MX6 based gateway via Verizon Cellular and  taken up to the cloud, then shown in a web portal Take the data from the field into the gateway via wire or wireless medium and take that data up to their server based system or a cloud based portal Featured NXP Products ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Links NXP Connect - Embedded Planet  

Overview This reference design shows the simplicity of a soft modem design, how few resources of the processor it takes, and how well it performs on USA average lines. This design omits the standard telecommunications Codec, instead of using PWM for output and ADC for input. Since both peripherals are readily available on one 56F8300/100 series device, along with more processing power than required from the single core, the design is a true one-chip, one-core system that includes telecommunications ability with room for even more system functionality. Ideal for advanced motion control, home appliances, medical monitoring, fire and security systems, power management, smart relays, and POS terminals. Features Hybrid architecture facilitates implementation of V.21 and V.22bis modem, control, and signal processing functions in one chip Consumes only 7.5 MIPS for the modem function - Only 15K words of Flash for the complete modem application and test harness High-performance, secured Flash memory eliminates the need for external storage devices Extended temperature range allows for operation of non-volatile memory in harsh environments Flash memory emulation of EEPROM eliminates the need for external non-volatile memory 32-bit performance with 16-bit code density On-chip voltage regulator and power management reduces overall system cost Off-chip memory expansion capabilities allow for glueless interfacing with the additional memory of external devices, without sacrificing performance Boots directly from Flash, providing additional application flexibility High-performance PWM with programmable fault capability simplifies design and promotes compliance with safety regulations PWM and ADC modules are tightly coupled to reduce processing overhead; only one of each is used by the modem General purpose input/output (GPIO) pins support application-specific needs Simple in-application Flash memory programming via Enhanced OnCE or serial communication Block Diagram Board Design Resources

Demo This demonstration from Boundary Devices showcases one of the newest additions to the Single Chip System Module portfolio – the SCM-i.MX 6SoloX module with V-Link bus       The SCM-i.MX 6SoloX module with V-Link bus is a new type of single chip system module. It consists of: A base SCM-i.MX 6SoloX module that integrates NXP’s i.MX 6SoloX applications processor, NXP’s PF0100 power management IC, 512 MB LPDDR2, and system passive components (de-coupling capacitors and resistors) A custom signal interface on the top of the package that enables customers to design their own PCB or substrate that can vertically attach to the top of the base SCM-i.MX 6SoloX. This custom signal interface, or V-Link bus, brings out common I/O such as UART, GPIO, SPI, I2C, SDIO etc. Customers can design top boards that add connectivity, security or sensing functions The overall footprint of the solution is 15.5mm x 15.5mm SCM V-Link technology is ideal for handheld/space-constrained applications allowing customers to integrate vertically   Features Reduce overall hardware design time and bring products to market faster Shrink PCB area over current discrete solutions. Customers can add connectivity, sensing, security in a vertical integration fashion to further save on PCB area Reduces design complexity of integrating DDR memory and power management Get started with an evaluation board and Linux OS, early access program now available   NXP Recommends NXP Single Chip Modules – www.nxp.com/scm

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 FXTH87 tire pressure monitor sensor solution for heavy trucks integrates a pressure sensor, 8-bit MCU, RF transmitter and a dual axis accelerometer into a single package. This demo will show the highest pressure range of 100–1500 kPa with tightest pressure offset.   1500 kPa Range Tire Pressure Monitoring Sensor Smallest footprint,  Low-power consumption, large customer memory size Pressure sensor, 8-bit microcontroller, RF transmitter, Accelerometer     Featured NXP Product FXTH8715|TPMS|Pressure Sensor|NXP   Other Tire Pressure Monitoring System (TPMS)|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

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 2400 MHz Products A2V09H300-04N 48 V LDMOS Solution • Frequency 720-960 MHz • Final Doherty performance at 8 dB OBO • Gain 19.5 dB • Efficiency 53% • Peak power 56 dBm • OM-780-4 package A2V07/09H400-04N 48 V LDMOS Solution • Frequency 575–960 MHz • Final Doherty performance at 8 dB OBO o Gain 18 dB o Efficiency 53% • Peak power 57.5 dBm • OM-780-4 package A2V07/08/09H525-04N 48 V LDMOS Solution • Frequency 575–960 MHz • Final Doherty performance at 8 dB OBO o Gain 18.7 dB o Efficiency 53% • Peak power 58.5 dBm • OM-1230-4L package A2T23H200W23S 28 V LDMOS Solution • Frequency 2300–2400 MHz • Final Doherty performance at 8 dB OBO o Gain 15.5 dB o Efficiency 50% • Peak power 55 dBm • ACP-1230-4L2S package A3T18H360W23S 28 V LDMOS Solution • Frequency 1805–1880 MHz • Final Doherty performance at 8 dB OBO o Gain 17.5 dB o Efficiency 53% • Peak power 55.5 dBm • ACP-1230-4L2S package A3T21H450W23S 28 V LDMOS Solution • Frequency 2110-2200 MHz • Final Doherty performance at 8 dB OBO o Gain 15.5 dB o Efficiency 49.5% • Peak power 57.4 dBm • ACP-1230-4L2S package

  Overview The TRIAX demo board was built to combine many of the demos available for accelerometer applications. The TRIAX demo board will enable you to see how Our accelerometers can add additional functionality to applications in many different industries. By thinking of accelerometer applications in terms of the measurements that are performed, they can be grouped into 5 sensing functions – Tilt, Motion, Positioning, Shock and Vibration. The RD1986MMA6260Q reference design is a two accelerometer solution which is achieved by using the MMA6260Q (x and y-axis device) and the MMA1260D z-axis accelerometer. Archived content is no longer updated and is made available for historical reference only.   Features Accelerometers:  MMA6260Q, MMA1260D Packages:  Quad Flat No-Lead (QFN) 6x6x1.98m and SOIC 16 G Range:  +/- 1.5 G Sensitivity:  1200 mV / G Microprocessor:  MC68HC908KX8 Demonstrates Consumer Accelerometer Applications High-performance M68HC08 architecture Option to allow use of external clock source or external crystal/ceramic resonator SCI Interface User Inputs:  1 Pushbutton Outputs:  Piezohom, Serial Port Connection Design Resources

The attached document describes how to optimize LCD display performance on RT10xx platform. The content include RT10xx configuration and Emwin setting with LCD parameters. Products Product Category NXP Part Number URL MCU i.MX RT1060 i.MX RT1060 MCU/Applications Crossover MCU | Arm® Cortex®-M7, 1MB SRAM | NXP  MCU i.MX RT1050 i.MX RT1050 MCU/Applications Crossover MCU| Arm® Cortex-M7, 512KB SRAM | NXP  SDK Software Software Development Kit https://mcuxpresso.nxp.com/en/select    Tools NXP Development Board URL MIMXRT1060-EVK i.MX RT1060 Evaluation Kit | NXP  MIMXRT1050-EVK i.MX RT1050 Evaluation Kit | NXP  Was this helpful to you?

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