Overview   The 5G era ushers in changes to the wireless industry and new benefits to end-users. One change is a new partitioning of network-infrastructure functions, dividing the once-monolithic base station into three pieces: the radio unit (RU), distributed unit (DU), and centralized unit (CU). Associated with one or more RUs, the DU performs upper-layer PHY and media-access functions. It shares characteristics of both standard Linux computers and real-time systems and may be deployed in the field. NXP demonstrated at the 2020 Consumer Electronics Show a working 5G system, including a DU highlighting how the Layerscape LX2160A processor addresses these requirements. This 16-core device integrates multiple high-speed PCI Express interfaces and Ethernet ports running up to 100Gbps, delivering the needed computational performance and I/O in a power-efficient envelope. NXP also showed how its Layerscape Access programmable baseband processors can help enable fixed-wireless access designs for the customer premises, small cells, repeaters, in-home wireless links, and accelerators for CU systems. These programmable devices help mobile operators quickly deploy open radio-access networks. NXP has solutions from the antenna to the processor. Diagram   NXP Products Product Name QorIQ LX2160A Development Board | NXP  QorIQ® LS2088A Development Board | NXP 

L-Band transponder application demo     Features High Power (up to 300 W) 978 MHz - 1090 MHz Featured NXP Products AFIC10275N  

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 

SECO presents three independent displays powered by NXP's i.MX6 applications processor as well as a single board computer using an i.MX 6 processor for a digital display. SECO also demonstrates i.MX 6 with UDOO, a open hardware computer at the FTF Americas 2014. Features Qseven standard i.mx6 productscarrier board running OpenGL and a half-size Qseven board i.MX6 single board computer for digital signage UDOO board, educational Do-It-Yourself (DYI), i.MX6 quad core with Arduino compatible IDE with Basic input and outputs with peripherals Featured NXP Products i.MX6 Links SECO - Partner Profile Information Videos   UDOO Smart Theremin    

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

Overview To improve performance in industrial drives, Field Oriented Control (FOC) is an advanced technique used for Permanent Magnetic Synchronous and other motor types. This reference design jump-starts your ability to leverage the NXP® DSCs' advanced feature sets via complete software, tools and hardware platform. Features Bi-directional rotation Application speed ranges from 0 to 100 percent of nominal speed (no field weakening) Four state machine Fault protection for driver DC-bus overcurrent, SW overcurrent, overvoltage and over speed Current control loop execution time: 17 us @ 100 MHz MCU speed PMSM vector control using the quadrature encoder Block Diagram Design Resources

Overview Remote virtual smartphones promise the same benefits as remote computer desktops and cloud-based gaming: low-cost client hardware, sandboxed user environments, and persistent user state. The way they work is that the physical smartphone runs only thin-client software and the smartphone application runs remotely on a server. To be economical, this server hosts multiple of these virtual smartphones, taking advantage of hardware virtualization support built into its processor. Slotted into the machine, an add-on GPU provides high-performance graphics. To reduce latency for real-time gameplay, the server is best located near the end-user in the edge of the mobile network. For virtual smartphones to be compatible with physical smartphones, Arm compatibility is required. At the 2020 Consumer Electronics Show, NXP demonstrated the Layerscape LX2160A processor hosting Redfinger’s cloud-based Android emulator and virtual smartphone. NXP’s processor integrates 16 CPU cores, enabling it to host 16 or more virtual smartphones. Games and other software execute with the same look and feel as if they were running locally on a smartphone. Like other Layerscape processors, the LX2160A delivers excellent performance per watt and is designed to work in high-temperature environments, such as being packed densely in a rack in a data center or deployed remotely at an edge-computing site. Although NXP designed it for stringent embedded applications, the LX2160A processor is powerful enough for servers—making it a great solution for Android emulation.     Block Diagram NXP Products Name of Product QorIQ LX2160A Development Board | NXP    Related Documents from Community Name of Document Discover i.MX: Industry-Leading Processor Solution for Media, Smart Home, Smart Industrial, Health/Medical and Broad Embedded Applications    Related Communities Name of Document Layerscape 

Introduction The FRWY LS1046A comes with the mikroBUS connector that enables the capability to connect different peripheral depending on the application's requirements. The mikroBUS intends to be used for prototyping purposes that facilitate the interconnection of several peripherals. The PN7120 I2C connection delivers a secure and trustworthy connection between both NXP products. Overview The following demo belongs to examples of different usages of the LS1046A MPU, these demonstrations will soon be part of the LSDK. This document showcase the NFC capability to provide an additional layer of security to any access area. NFC access points authorize people with a registered RFID tag to grant access to a particular area. In case the RFID tag isn’t registered or authorized, the access is restricted. The system should alert the denied access to a supervisor in order to take action. The video below shows two NFC applications that can be implemented in the LS1046A, by connecting the Mikroe-2395 module based on the NXP PN7120. This demonstration allows registering new users by entering sensitive data into a local database. The second application validates an NFC tag by comparing the tag ID, with the ones previously registered in the database. The user can access the applications using the LAN with another device like a tablet, this allows the database to be in a non-easy access location for security purposes. Block Diagram Video Products NXP Product Link FRWY LS1046A TP https://www.nxp.com/design/qoriq-developer-resources/ls1046a-freeway-board:FRWY-LS1046A Mikroe-2395 https://www.mikroe.com/nfc-click NXP NTAG 213/215/216 https://www.nxp.com/products/rfid-nfc/nfc-hf/ntag/ntag-for-tags-labels/ntag-213-215-216-nfc-forum-type-2-tag-compliant-ic-with-144-504-888-bytes-user-memory:NTAG213_215_216

Demo Features: Based on latest SOM Colibri i.MX7D 512 MB from Toradex Heterogeneous architecture: Qt on top of Linux on ARM® Cortex®-A7 core Realtime control loop on FreeRTOS on ARM® Cortex®–M4  Balancing control loop and mechanics by Antmicro  Face emotions using Qt 5.6 beta done by The Qt Company ______________________________________________________________________________________________________________________ NXP Featured Products: NXP i.MX 7 - Computer | System on Modules ______________________________________________________________________________________________________________________ C78

  Description Biometric authentication devices use an MCU or MPU to perform biometrics with the integration of peripherals such as a PC or a wireless connectivity module to communicate with a certain database. Some examples of this functionality include secure access to personal or confidential information, control access to a certain location or secure money transactions. Block Diagram Products Category Name 1 Microcontroller Product URL 1 Arm® Cortex®-M4|Kinetis K81 150 MHz 32-bit MCUs | NXP  Product Description 1 The Kinetis® K81 MCU offers advanced security capabilities including anti-tamper peripheral, boot ROM to support encrypted firmware updates, automatic decryption from external serial flash memory, AES acceleration, and hardware support for public key cryptography. The K81 has a QSPI controller optimized for XIP from external serial NOR flash memories with support for quad and octal data interfaces. Product link 2 Arm® Cortex® -M4|Kinetis K82 150 MHz Secure MCUs | NXP  Product Description 2 The Kinetis K82 MCU contains automatic decryption from external serial NOR flash memory, hardware AES acceleration with sideband attack protection, and hardware support for public key cryptography. The K82 also features advanced security capabilities including boot ROM to support encrypted firmware updates. Product link 3 LPC55S6x|Arm® Cortex®-M33|32-bit Microcontrollers (MCUs) | NXP  Product Description 3 The LPC55S6x MCU introduces new levels of performance and advanced security capabilities including TrustZone-M and co-processor extensions. The co-processors extensions and leverages brings significant signal processing efficiency gains from a proprietary DSP accelerator offering a 10x clock cycle reduction.   Category Name 2 Microprocessor Product URL 1 i.MX 6ULL Applications Processor | Single Arm® Cortex®-A7 @ 900 MHz | NXP  Product Description 1 The i.MX 6ULL is a power efficient and cost-optimized applications processor which operates at speeds up to 900 MHz and has a dedicated Security Block: TRNG, Crypto Engine (AES with DPA, TDES/SHA/RSA), Secure Boot and a 24-bit Parallel CMOS Sensor Interface module for multiedia processing.   Category Name 3 Power Management IC Product URL 1 12-channel configurable PMIC | NXP  Product Description 1 The PF3000 features a configurable architecture that supports numerous outputs with various current ratings as well as programmable voltage and sequencing. With a I2C interface and the 12 channel the PF3000 delivers a total power of 7.2 A.   Category Name 4 BLE Transceiver Product URL 1 QN908x: Ultra-Low-Power Bluetooth Low Energy System on Chip (SoC) Solution | NXP  Product Description 1 The QN908x is an ultra-low-power, high-performance and highly integrated Bluetooth Low Energy designed for human interface devices with a small capacity battery.   Category Name 5 LCD Driver Product URL 1 Universal LCD driver for low multiplex rates | NXP  Product Description 1 The PCF85133 is a peripheral device which interfaces to almost any Liquid Crystal Display (LCD) with low multiplex rates up to 80 segments, compatible with most microcontrollers and communicates via the two-line bidirectional I²C-bus.   Category Name 6 12V Smart Power Amplifier Product URL 1 TFA9892|Smart Audio Amplifier | NXP  Product Description 1 The TFA9892 is very highly-efficient 12 V boost converter. It is equipped with a low-power CoolFlux™ DSP which runs an advanced algorithm for speaker boost and protection to bring high end audio quality into mainstream applications.   Category Name 7 Multi-protocol NFC frontend Product URL 1 CLRC663 plus | High-performance multi-protocol NFC frontend | NXP  Product Description 1 The CLRC663 plus is a high-performance NFC Frontend with a low power consumption. ) The CLRC663 is the perfect choice for NFC applications with high-performance requirements like access control with authentication. Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN11019.pdf CLRC663 Antenna Design Guide https://www.nxp.com/docs/en/application-note/AN11342.pdf How to Scale Down the NXP Reader Library https://www.nxp.com/docs/en/application-note/AN5331.pdf Offline Flash Programmer for Kinetis K- and L-series MCUs https://www.nxp.com/docs/en/application-note/AN12445.pdf LPC55S69 Asymmetric Cryptographic Accelerator CASPER https://www.nxp.com/docs/en/application-note/AN12278.pdf LPC55S69 Security Solutions for IoT https://www.nxp.com/docs/en/application-note/AN12282.pdf  Digital Signal Processing for NXP LPC5500 Using PowerQuad https://www.nxp.com/docs/en/application-note/AN5215.pdf  i.MX 6 Temperature Sensor Module - Application Note https://www.nxp.com/docs/en/nxp/application-notes/AN12194.pdf  QN908x RF Certification Guide https://www.nxp.com/docs/en/nxp/application-notes/AN11996.pdf  QN908x Hardware Design Considerations https://www.nxp.com/docs/en/application-note/AN10170.pdf  Design guidelines for COG modules with NXP® monochrome LCD drivers Related Software Related Software URL https://www.nxp.com/docs/en/application-note-software/AN5331SW.zip  https://www.nxp.com/docs/en/application-note-software/AN12445SW.zip  https://www.nxp.com/docs/en/application-note-software/AN12326SW.zip    Training Training URL and MCUXpresso Software and Tools  QN908X ISP HOWTO?  MHW-N1964 Designing Healthcare Applications with NXP  Related Demos from Communities Related Demos from Communities URL NFC Demos - Information, Source codes, Schematics  i.MX6 UL EMV Demo 

Demo Owner: Pejman Kalkhoran Boundary Devices Pejman Kalkhoran describes the Nitrogen family at the 2014 FTF Americas 2014. Pejman demonstrates the Nitrogen 6_Lite featuring i.MX 6Solo, Nitrogen6X and Nitrogen6_MAX. These single board computers are great for software development and mass production.   Features Demo shown show 3 Single board computers based on i.MX6 processors: Nitrogen 6_Lite, Nitrogen6X and Nitrogen6_MAX Evaluate processor or develop their use Hardware and software development OS shown WinCE 7, Yocto Linux, Android 4.3 (Jelly Bean)   Links ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Boundary devices  

Overview This reference design demonstrates the configuration of two nodes which include the NXP® 56F8300 Digital Signal Controllers (DSCs) with the FlexRay MFR4200 modules. These nodes communicate together on (over) two channels This application demonstrates a transmission in the static and dynamic part of the cycle, receive buffer and receive FIFO configuration It operates in the interrupt-driven mode and also in the poll-driven mode Features Utilizes MC56F8300 EVBs and FlexRay daughter cards Utilizes in-house developed FlexRay low-level driver Redundant data transmission on two channels Deterministic as well as dynamic data transmission Data rates at 10 Mbits/sec per channel Visual feedback of communication between two FlexRay controllers via FreeMASTER software Block Diagram Board Design Resources

The project solution is a IAR Workbench project with the three main application componentes on top of FreeRTOS: eGUI low level drivers:   Part 3: Software for LED Panel emulation Or Return to Project page: LED Panel control with FlexIO Downoload Full Project:

Overview This reference design is based on 32-bit DSC MC56F84789, to demo a simple servo motor control solution. This reference design jump-starts your ability to leverage the NXP® DSCs' advanced feature sets via complete software, tools and hardware platform. Can be expended to dual servo motors control on single chip. Speed regulation: < 0.05% (from 0% to 100% load under nominal speed) with encoder and 32-bit speed control algorithm. Speed ratio: 1 : 2000 with position and speed closed loop control – intelligent PID, the minimal operational speed is up to 0.5RPM. Only low cost Quadrature Encoder (1000 lines) is required, HALL sensors removed. System dynamic response: 90Hz for speed closed loop, and 30Hz for position closed loop – PID regulator. Speed acceleration/deceleration: from 1 to 10,000ms (configurable). Brake function: regenerative braking, stop in one revolution. Bidirectional operation: forward and reverse with speed and torque limitation. Faults protection such as abnormal speed, over-/under-voltage, over-current etc. FreeMASTER software control interface and monitor. Features MC56F84789 Simple Servo Motor Control MAPS-56F84000 EVK Board MAPS-MC-LV3PH Motor Control Power Stage Block Diagram Board Design Resources

Overview    This demo uses the i.MX RT600 EVK (MIMXRT685-EVK) with a GUI software to playback MP3 files. An equalizer can be switch on to demonstrate the HiGi-4 audio DSP. Beside the board itself it requires a SD-card with MP3 music tracks and a portable speaker or headphone.    The i.MX RT600 is a crossover MCU family optimized for 32-bit immersive audio playback and voice user interface applications combining a high-performance Cadence® Tensilica® HiFi 4 audio DSP core with a next-generation Cortex-M33 core. The i.MX RT600 family of crossover MCUs is designed to unlock the potential of voice-assisted end nodes with a secure, power-optimized embedded processor. Demoing Guide No software installation required to demo this board. To build this demo, pls. refer to the description at the end of this guide. Insert the SD-Card with mp3 files to on-board SD Card connector, not to the one below the LCD board Connect headphones or external speakers to the 3.5mm jack Line Out (J4) Supply the board through Micro-USB connector (J5) in the upper right edge Three main windows/tabs on the GUI: File playback This screen shows: • Album artwork/NXP logo • Current track information (title, artist, album) • Media controls (prev, play/stop, next) • Volume slider Playlist This screen shows: • Playlist information from mp3 files found in SD card • A track for playback can be selected by touching the line Spectrum visualizer This screen shows: • Seven vertical bars showing the frequency spectrum of the current track being played. • Button for toggling Equalizer On/Off o if on the sound is AM radio style Products i.MX RT600 Evaluation Kit | NXP 

Overview With this application we create a proposal to automate the click and collect service in the wholesale warehouses, taking into account the operation as a large vending machine. Working as a vending machine, it has the characteristic of managing inventories, modules for secure connection to a server to receive orders and at the same time make re-stock orders, nfc reader modules to read wholesale customer cards. All this driven internally by a system of conveyor belts managed by motors. With current technologies we can present the evolution of wineries to Industry 4.0 powered by NXP.   We have a control by sections managed by a main controller, we have the following sections: Inventory reception: It consists of a reader of an NFC tag or a QR code to read the product and be able to move it to its corresponding storage section Inventory management: Connection to the cloud to be monitoring in real time to use algorithms handling orders, inputs and outputs Internal logistics: It consists of motor control by section for the mobility and arrangement of articles. It uses sensors for safety in mobility and accident prevention. Customer interface: NFC or QR code reader for package pickup reading indicator, touch screen to display data and customer confirmation. Block Diagram     Products MCU Link i.MX RT1060 i.MX RT1060 Crossover MCU with Arm® Cortex®-M7 Core   Wireless Link Wi-Fi 88W8801: 2.4 GHz Single-Band 1x1 Wi-Fi® 4 (802.11n) Solution NFC Reader PN7462: NFC Cortex®-M0 All-in-One Microcontroller with Optional Contact Interface for Access Control NFC Tag NTAG213F, NTAG216F: NFC Forum Type 2 Tag Compliant IC with 144/888 B User Memory and Field Detection   Secure Element Link EdgeLock™ SE051 EdgeLock™ SE051: Proven, Easy-to-Use IoT Security Solution with Support for Updatability and Custom Applets   Power Management Link PMIC PCA9420: PMIC for Low Power Applications AC-DC Controller TEA19161T: Resonant Power Supply Control IC   Sensors Link Accelerometer MMA8450Q: ±2g/±4g/±8g, Low g, Digital Accelerometer Temperature sensor PCT2075: I2C-Bus Fm+, 1 Degree C Accuracy, Digital Temperature Sensor And Thermal Watchdog   Motor Driver Link HB2001 HB2001: SPI Programmable 10 A H-Bridge Brushed DC Motor Driver   Demo Motor control: Download the software AN12214SW Unzip and install   Open MCUXpresso Import project   Look in the AN12214SW software installation folder   Click on finish Build project Open the freemaster folder in the software installation folder and open the pmsm_ref_sol   Change mode expert a basic   Click on app control and run   Extra links PN710 reader demo Getting Started with NXP Wi-Fi® modules using i.MX RT platform NXP Tech Session - Implementing Graphics in Real-time Industrial HMI Systems with NXP MCUs and Embedded Wizard

Demo The Automotive Magnetic Sensors demo will showcase the use of Rotational Wheel Speed Sensors for car ABS and Angular Sensors for Electric Throttle Control (ETC) as well as for Steering Angle measurement.     Features: NXP supplies magnetic sensors for rotational wheel speed and true angular measurement systems: ABS speed sensors with simple ferrites instead of expensive rare earth magnets, and with best in class jitter performance required for iTPMS, Angular sensors with outstanding accuracy of ±1˚ over full temp range and lifetime while operating in a wide temperature range up to 160 °C/320 °F. _______________________________________________________________________________________________________     Featured NXP Products: Sensors for Automotive|NXP _______________________________________________________________________________________________________     S01

Demo Owner: Jeff Steinheider Femtocells are playing an increasingly large role in providing users with the indoor coverage and data rates expected from LTE. This demo shows how NXPP’s QorIQ Qonverge BSC9131 SoC, the BSC9131 reference design board, VortiQa Layer 1 baseband software and our partner’s software together provide scalable, multimode solutions from small to large cells.     Features Running on he QorIQ Qonvergence BSC9131 reference design board Turnkey solution with VortiQa, LTE, L1 baseboard software, integrated with open source WLAN, full system test with L2, L3 partners QorIQ Qonvergence SoCs provide scalable, multimode solutions from small to large cells   Featured NXP Products Product Link QorIQ® Qonverge BSC9131 RDB for Femtocell Base Station Development QorIQ® Qonverge BSC9131 RDB for Femtocell Base Station Development | NXP  QorIQ® Qonverge BSC9131 Single-core Processor and Single-core DSP QorIQ® Qonverge B9131 | NXP  Links QorIQ Qonverge Small Cell Base Station Reference Design Publishing Femtocell 4G-LTE with WiFi AP QorIQ BSC9131 Block Diagram  

Learn about the low-cost QorIQ Processor P1 module for the Tower System.   Features QorIQ, Tower systems P1025 with dual GB Ethernet, USB, SDHC, Dual DDR3 PCI express and more Wi-Fi enable, VOIP connection IP PBX support, support of Up to 16 IP cameras @ 530Mbits per second Profibus and Profinet and additional networking protocols supported Featured NXP Products Product Link QorIQ® P1 MPU Tower® System Module https://www.nxp.com/design/development-boards/tower-development-boards/mcu-and-processor-modules/powerquicc-and-qoriq-modules/qoriq-p1-mpu-tower-system-module:TWR-P1025?&parentCode=P1025 QorIQ® P1025/16 Single- and Dual-Core Multi-Protocol Communications Processors QorIQ® P1025 | NXP  Links IoT Wall Smart Cities - Metropolitan Area Network (MAN) Development Kit Demo Block Diagram  

Experience an audio framework that provides an integrated and configurable system of media components to enable rapid system integration. This solution supports digital audio streaming, audio processing, device connectivity, media library management and browsing with GUI and hardware IU. NXP's audio solutions framework is a scalable framework supporting Kinetis Microcontrollers to i.MX application processors.       Features Scalable multimedia platform set of Middleware APIs developed by NXP Able to run on different silicon (i.MX6, @Vibryd, Kinetis Microcontrollers with different operating systems (MQX Software Solutions, Linux) Featured NXP Products i.MX6 Vibryd Kinetis K70 Links Embedded Linux for i.MX Applications Processors NXP MQX™ Software Solutions