Demo On this demo, we are showing a comparison between CAN-FD and classic CAN on the LPC54618 microcontroller. The LPC board is doing a firmware update using both CAN protocols Dual LPC54618 microcontroller CAN-FD kits illustrate the speed benefits of CAN-FD versus classic CAN One board acts as the vehicle console display and the other emulates a radio which serves the HMI over the CAN link Selecting between CAN and CAN-FD demonstrates the benefits in the display updates and in a simulated firmware update transfer Product Link LPCXpresso54618 CAN-FD kit OM13094 | LPCXpresso Development Board | LPC Microntrollers (MCUs) | NXP  LPC546XX LPC546XX Microcontroller (MCU) Family | NXP  Block Diagram

Demo Kinetis V series iIs supported broadly with 3 main hardware development platforms that target different customer and application needs.   Features: Freedom Platform: Freedom solutions typically target cost sensitive customers with a lower level of integration and flexibility included in the system, a low voltage solution operating at less than 50V.   Customers who are highly cost sensitive can start development with just the FRDM board, but for those customer who want to get the motor turning quickly we provide all the system components necessary to create a complete reference design that will get the motor running out of the box.   Kinetis Motor Suite supports Sinusoidal control technique (also known as FOC, field oriented control) with the FRDM-MC-LVPMSM, which can also be operated with and without a sensor to improve position control accuracy or startup capability. FRDM-MC-LVPMSM Board spec: 24V, 5Amp, 120W   The customer should purchase MCU FRDM card along with the FRDM-MC-LVPMSM to build their reference design. The motor must be purchased separately under FRDM-MC-LVMTR part number , or they can use their own motor if it meets the Motor Driver card power specification. FRDM-MC-LVMTR spec: 4000RPM, 24V, 40W   Tower Platform: The Tower Platform allows customers to very quickly turn their application motor straight out the box, and target customers who need more connectivity in their system, and access to more of the MCU pins.   To build the system the customer should purchase the appropriate TWR MCU card, the TWR-ELEV to connect to the TWR-MC-LV3PH driver card. This kit ships with the motor and power supply.   Board Spec: Voltage: 12-24/50V Output: 8Amp, 400W Over current & under voltage protection, encoder/hall sensor sensing circuitry Supported architectures: 3-phase BLDC & PMSM   High Voltage Platform: The High Voltage Platform allows customers to very quickly spin their high voltage end application motor straight out the box. The High voltage platforms targets customers with motors rated at above 50V but less than 240V.   Customer should purchase the HVP-MC3PH kit along with the appropriate MCU Controller card to build the reference design. The HVP-MC3PH includes the HVP-KV46F150M controller card in the box.   Board Spec: 115/230 volt, 1KW 3-ph motor control development platform for BLDC, PMSM  >1Hp. Main board with inverter & PFC circuitry supports plug-in controller cards for Kinetis KV1x/KV3x/KV4x MCUs Voltage: 85 to 240V The customer must supply their own high voltage motor to complete the system. ________________________________________________________________________________________________________________________ Featured NXP Products: Hardware: ARM Cortex-M0+/M4/M7 Cores|Kinetis V MCUs|NXP FRDM-KV31F|Freedom Development Platform|Kinetis MCU|NXP FRDM-KV10Z|Freedom Development Platform|Kinetis MCU|NXP FRDM-MC-LVPMSM|Freedom Development Platform|NXP FRDM-MC-LVBLDC|Freedom Development Platform|NXP FRDM-MC-LVMTR|Freedom Development Platform|NXP High-Voltage Development Platform|NXP Low-Voltage, 3-Phase Motor Control Tower System Mod|NXP   Software: KINETIS MOTOR SUITE: Simple motor control developme|NXP Motor Control Development Toolbox|NXP Kinetis Designs|NXP ARM Cortex-M0+/M4/M7 Cores|Kinetis V MCUs|NXP 3-Phase AC Induction Motor Control Design|NXP 3-Phase PMSM Motor Control Reference Design|NXP 3-Phase Brushless DC Motor Control Design|NXP

Overview of the Kinetis Microcontroller K70 and PEG graphics software development tool followed by a demo of the LCD Controller Module.      Features Graphical LCD Controller demo in the K70 Kinetis Microcontrollers Large Internal memory that could be used to drive LCD module, without needing external memory Support for B&W, Monochrome and Color LCDs (CSTN, TFT) 800x600 resolution with 24bpp Graphical LCD Drivers:  available: eGUI and PEG (Portable Embedded Gui) Featured NXP Products Graphic LCD MCUs: K7x EGUI: NXP eGUI: Graphical LCD Driver for MCUs/MPUs Block Diagram

Demo This demo shows how the FlexIO peripheral can be utilized to connect directly to an RGB TFT display to deliver a rich graphical display. The demo uses the versatile Tower ecosystem to connect the TWR-K80F150M MCU board to the display. The demo is well documented by an Application note and associated software     Features Dynamic Graphical LCD (480x272) with 16bt RGB interface Images stored in fast external Serial NOR flash FlexIO utilized to generate 16bit interface to TFT display with minimal CPU intervention   _______________________________________________________________________________________________________   Featured NXP Products: Product Link Kinetis® K80 MCU Tower® System Module TWR-K80F150M|Tower® System Board|Kinetis® MCUs | NXP  Graphical LCD Tower System Module with RGB Interface Graphical LCD Tower Module with RGB Interface | NXP  _______________________________________________________________________________________________________ Links AN5275: Using FlexIOhttp://cache.nxp.com/files/microcontrollers/doc/app_note/AN5275.pdf?fsrch=1&sr=1&pageNum=1 AN5280: Using Kinetis FlexIO to drive a Graphical LCD http://cache.nxp.com/files/archives/doc/app_note/AN5280SW.zip

In this document you can find some pictures taken in the process of building the LED Panel.   Mounting the LED's:   First prototype for controlling only one LED strip using Level Shifter 74AHCT125: Final Panel:     Wiring LED's:     The interface board between LED stripes and the multiplexer board:   Interface board mounted: First test of the panel without multiplexer board : The multiplexer board using NXP CBT3257A:   Testing Mutiplexer board:     Adding the  Power  Supply and cables:   Panel  Test:     Part 2: LED control method using the FlexIO Or Return to Project page: LED Panel control with FlexIO Product Link Freedom Development Platform for Kinetis® K82, K81, and K80 MCUs FRDM-K82F|Freedom Development Platform|Kinetis® MCUs | NXP 

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 

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   The i.MX 7 series is a highly integrated multi-market applications processor designed to enable secure and portable applications within the Internet of Things. The i.MX 7 series is the first device in the market utilizing both the ARM ® Cortex ® -A7 and Cortex-M4 cores for general purpose programmable processing. Its heterogeneous asymmetric architecture provides the ultimate flexibility for customers by enabling a single-chip solution that can run sophisticated operating systems and provide real-time responsiveness. The i.MX 7 series incorporates four independently controlled resource domains for maximum effectiveness and security when partitioning system resources such as memory and peripherals.   Demo / Product Features Advanced Heterogeneous Architecture Up to Dual Cortex-A7 @ 1GHz Cortex-M4 @ 200MHz Unmatched Power Efficiency for Active and Low Power modes Complete Security Infrastructure Secure Boot Crypto H/W Acceleration Internal and External Tamper Detection Enabling Flexible High Speed Connectivity PCI-e v2.1 Dual Gbit Ethernet  with AVB DDR QuadSPI support eMMC 5.0   NXP recommends the following links for additional information i.MX 7 Series Applications Processors: Multicore, ARM® Cortex®-A7 Core, ARM Cortex-M4 Core     C23

Demo Summary This demo can read both 1D and 2D barcode information. Built from the NXP tower system, the demo utilizes the FlexIO camera driver provided by the Kinetis SDK to bring in image data. The data is analyzed by open source barcode reader software (ZXing).   Product features Fast processing of 1D or 2D codes utilizing the ARM Cortex-M4F at 120MHz. Simultaneous gray scale QVGA image capture and display in the Tower system. FlexIO camera driver utilized to interface to OV7670 camera module   NXP Recommends Product Link Kinetis® K8x Secure Microcontrollers (MCUs) based on Arm® Cortex®-M4 Core https://www.nxp.com/products/processors-and-microcontrollers/arm-microcontrollers/general-purpose-mcus/k-series-cortex-m4/k8x-secure:K8X-SCALABLE-SECURE-MCU?&cof=0&am=0 Freedom Development Platform for Kinetis® K82, K81, and K80 MCUs https://www.nxp.com/design/development-boards/freedom-development-boards/mcu-boards/freedom-development-platform-for-kinetis-k82-k81-and-k80-mcus:FRDM-K82F?&tid=vanFRDM-K82F QR Demo User's Guide https://www.nxp.com/docs/en/user-guide/QRDEMOUG.pdf?&fsrch=1&sr=1&pageNum=1

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  

Demo Owner: Juan Antonio Gutierrez Rosas Juan Gutierrez, applications engineer at NXP Semiconductor, demonstrates the 2D graphics responsiveness and versatility of the Vybrid controller.     Features 2D graphics responsiveness and versatility of the Vybrid Processor controller Single Vybrid driving the LCD controller running using interface to control settings for 2 different zones Entire demo does not use any graphics processing unit. The graphics seen are rendered and animated using the Vybrid's display control unit memory accesses done using Direct memory Accesses (DMA) to free most of the ARM core to focus on other tasks Easier to program than a typical graphic processor 1.5 MB of on chip static RAM. The demo does not use external memory Featured NXP Products Product Link VFxxx Controller Solutions https://www.nxp.com/products/processors-and-microcontrollers/legacy-mcu-mpus/vfxxx-controller:VYBRID?&tid=vanVYBRID Vybrid Controller Solutions Tower System Module Vybrid VF6xx Tower System Kit with Arm DS-5 | NXP  Links VF3xx: Vybrid family with ARM® Cortex™-A5, 1.5MB SRAM, LCD, security, 2x Ethernet, L2 switch VF5xx: Vybrid family with ARM® Cortex™-A5, 1.5MB SRAM, LCD, security, 2x Ethernet, L2 switch VF6xx: Vybrid family with ARM® Cortex™-A5 + Cortex-M4, 1.5MB SRAM, LCD, security, 2x Ethernet, L2 switch  

Demo Kinetis V series enables our customer to get to market quickly using a selection of software and hardware that are targeted at their specific application needs. This electric powered vehicle was developed in a matter of weeks to showcase the model based design tools from Mathworks (MATLAB) and the Motor Control Toolbox from NXP that enables model to code based design rapidly reducing time to market Features: The vehicle has been build using Kinetis V MCUs and FRDM solution hardware to power the vehicle. The software was developed using MATLAB and Motor Control Development Toolbox. The Motor Control Development Toolbox is a MATLAB plugin to enable complete motor control application simulation within the MATLAB environment, enabling Software and Processor-in-the-Loop (SIL and PIL) simulation. Kinetis V enables customers with little motor control experience or a short time to market with Kinetis Motor Suite. For customer with more application knowledge Kinetis V enables you with our reference design software incorporating NXPs Embedded Software Libraries, or for customers looking for a lower cost, rapid development solution we provide Kinetis Motor Suite ___________________________________________________________________________________________________________ Featured NXP Products: Product Link Kinetis® V Series https://www.nxp.com/products/processors-and-microcontrollers/arm-microcontrollers/general-purpose-mcus/kv-series-cortex-m4-m0-plus-m7:KINETIS_V_SERIES?&cof=0&am=0 Freedom Development Platform for Kinetis® KV1x Family 128 KB, 64 KB, 32 KB and 16 KB Flash MCUs FRDM-KV11Z|Freedom Development Platform|Kinetis MCU | NXP  NXP® Freedom Development Platform for Low-Voltage, 3-Phase PMSM Motor Control FRDM-MC-LVPMSM|Freedom Development Platform | NXP  Low-Voltage, 3-Phase Motor Kit for FRDM platform FRDM-MC-LVMTR|Freedom Development Platform | NXP  High-Voltage Development Platform https://www.nxp.com/products/processors-and-microcontrollers/arm-microcontrollers/general-purpose-mcus/kv-series-cortex-m4-m0-plus-m7/high-voltage-development-platform:HVP-MC3PH?&fsrch=1&sr=1&pageNum=1 Low-Voltage, 3-Phase Motor Control Tower® System Module https://www.nxp.com/design/development-boards/tower-development-boards/peripheral-modules/low-voltage-3-phase-motor-control-tower-system-module:TWR-MC-LV3PH?&lang_cd=en ___________________________________________________________________________________________________________ C61

Demo The Valves Controller SoC familly integrates high precision regulated valves. Through the standalone Demo called "Pendulum", we will show how our devices can control an entire hydraulyc / pneumatic system. It is composed by some proportional / digital valves and a compressor managed by using only an SPI communication. Thanks to this demo, we will introduce our evaluation module where both devices can be used separately or together to control up to 12 valves and 2 motor through a friendly graphic user interface.     Features Integrated valve drivers with current regulation or PWM mode Safe switching off mode for safety and robustness SPI interface to command all functions   Featured NXP Products Octal Valve and Pump Controller SoC|NXP   Block Diagram

See the QorIQ Processor P4080 firewall and IPSec performance with normal Linux® SMP build using ASF.   The QorIQ P4080 processor can be used for combined control, data path and application layer processing. Its high level of integration offers significant performance benefits compared to multiple discrete devices while greatly simplifying board design. The processor is well-suited for applications that are highly compute-intensive, I/O intensive or both, making it ideal for applications such as enterprise and service provider routers, switches, base station controllers, radio network controllers (RNCs), long term evolution (LTE) and general-purpose embedded computing systems in the networking, telecom/datacom, wireless infrastructure, military and aerospace markets.     Features Packet processing offload to P4080 frame manager, buffer manager and queue manager Complete IPSec offload to P4080 SEC 4.0 engine including headers as well as cryptological processing Full SPI firewall processing including NAT and ALG with state tracking, implemented and processed by each core Flexible multicore architecture with Linux SMP Training Name and Description Vendor Duration Favorite Designing with Freescale Seminar - QorIQ Solutions for Digital Networking:QorIQ product family for networking applications including small cell base stations and IEEE 1588 precision time protocol. Format: lecture-only Modified: 08/09/2013 NXP 1 Days NXP Technology Day – QorIQ, Kinetis and i.MX Solutions:Introduction to Kinetis and i.MX ARM® Cortex™ - based product families and QorIQ products. Format: hands-on Modified: 07/30/2013 NXP 1 Days AP4080:P4080/P4040- A five-day course covering the architecture, hardware, and software aspects of the P4080/P4040 devices. Format: Lecture with exercises Arnewsh Inc 5 Day(s) INTEGRITY Training:INTEGRITY hands-on and lecture training. Format: Hands-on Green Hills Software 3 Day(s) MULTI Training:Hands-on and lecture for MULTI IDE. Format: Hands-on Green Hills Software 2 Day(s) Multilple Courses available:Multiple training formats for Wind River products on Freescale processors available Format: Lecture with exercises Wind River Systems 1 Day(s) PHX-P4080:P4080: A 4-day course covering the system, software, hardware,and test architecture of the QorIQ P4080/81 and P4040 silicon system. Format: Lecture with exercises PhoenixMicro Inc. 4 Day(s) Video Training:Please note that these are not live trainings, these are pre-recorded videos. Format: Lecture-only Linear Technology 30 Minute(s)   Links P4080 - NXP Block Diagram  

See a "routing on a chip" solution on the QorIQ Processor T1040 QDS with Layer 2 switching, including Layer 2 and Layer 3 processing through the L2 switch and FMan, and detailing drivers and stacks support.       Features Integrated switching (LAN, WAN, WLAN) Firewall support with HW offload DMZ partition using NXP Embedded Hypervisor Remote administration   Featured NXP Products T1040: QorIQ T Series Quad- and Dual-Core Communications Processors

  Overview NXP digital signal controllers provide a switched-mode power supply solution that maximizes efficiency while reducing system costs through bill-of-materials savings. Our solution dynamically compensates for system disadvantages such as component aging and operational variability due to changing load conditions.   Reference Designs Product Name Link Features 3-Phase PMSM Control https://www.nxp.com/design/designs/3-phase-pmsm-control:PERMANENT-MAGNET-MOTOR The 3-Phase Permanent Magnet Synchronous (PMSM) Motor Control Reference Design is based on Kinetis V Series MCUs and intended to provide the example for 3-phase sensorless PMSM motor control solutions. The Reference design utilizes a closed-loop field-oriented vector speed (FOC) control mechanism. KV Series Full-Bridge DC-DC Switch Mode Power Supply (SMPS) https://www.nxp.com/design/designs/kv-series-full-bridge-dc-dc-switch-mode-power-supply-smps:FULL-BRIDGE-SMPS  Full Bridge DC-DC Switch Mode Power Supply   Block Diagram     Recommended Products   Category Products Features DSC Kinetis® V Series: Real-time Motor Control & Power Conversion MCUs based on Arm® Cortex®-M0+/M4/M7 | NXP  Kinetis V Series MCUs are based upon the Arm Cortex-M0+, Cortex-M4, and Cortex-M7 cores and are designed for a wide range of BLDC, PMSM, and ACIM motor control and digital power conversion applications. Temperature Sensor I²C Digital Temperature/Voltage Sensors | NXP  NXP I2C Temperature/Voltage monitors offer best-in-industry precision to fit any thermal management need.

Overview The FAA now requires drone owners to register any device weighing more than 0.55 lbs. (250 g). For drones currently in the field, enforcing this new law might be problematic, as it relies on the honor system to some extent. But for new devices, NXP offers an easy enforcement method. How it Works NXP’s drone registration solution uses low-cost NFC technology to easily enforce compliance. Manufacturers could include an NFC reader within the drone housing. NXP makes this step straightforward by providing reference designs for drop-into-place design ease. Upon registration, consumers could receive an official government-issued registration certificate that comprises an NXP encrypted NFC tag in adhesive label form. Upon adhesion to the drone housing, the drone control electronics would wirelessly read the certificate. If valid, the drone microcontroller enables functionality. If not, the drone will not power up. Benefits Electronic registration provides more than just ease to government regulatory bodies, it also facilitates regulation of that drone to ensure the safety of all citizens. Upon application of the registration certificate sticker, the NFC chip inside the sticker could convey identification information to the drone microcontroller, such as the registration number, model/serial number of the drone, and its zoning classification. Because this information would now be housed with the drone, drone manufacturers could choose to broadcast select details, such as the classification information, via appropriate long-range wireless communication while in flight. If the drone flew within restricted airspace (near airports, sensitive government sites, stadiums, large public events, etc.), flight controllers could obtain the classification information (something virtually impossible to obtain visually) from the drone and thereby verify its authority (or lack thereof) to travel within a particular space, in order to help prevent potential catastrophes.   Block Diagram   Recommended Products Category Products Features RFID MIFARE DESFire EV2 | NXP  Contactless interface compliant with ISO/IEC 14443-2/3 A Fast data transfer: 106 kbit/s, 212 kbit/s, 424 kbit/s, 848 kbit/s   CLRC663 plus family | High-performance NFC frontends | NXP  Supports NFC Cockpit and NFC Reader Library RF standard compliance: ISO/IEC 14443A and MIFARE, NTAG ®  and SmartMX ®  families Drone PX4 Robotic Drone FMU | RDDRONE-FMUK66  Proven business-friendly open source software with available enterprise support: PX4, QGroundControl Supports all airframes: Use it for Quadcopters, Hexacopter, VTOL, planes, rovers, cars, and other robots Rapid-IOT to Drone adapter board Rapid-IOT to Drone adapter board  Adapter board fully designed for Rapid IoT Prototyping Kit UAVCAN communication between drone and Rapid IOT Works with PX4 flight controllers such as RDDRONE-FMUK66 or Pixhawk NXP Rapid IoT Prototyping Kit Rapid IoT Prototyping Kit  Expandable to most IoT end-node use cases with 400+ Click boards™ Multiple sensors (Gyroscope, Acc/Mag., Barometer/Temp., Air Quality, Ambient light and capacitive touch)

Demo Owner: Thomas Zemites   Demonstration of cost effective Solar Panel Tracker Control using MC34932 dual H-Bridge motor driver. These thermally efficient 28V / 5A H-Bridge DC Brushed motor drivers feature real-time load current monitoring and automatic thermal back-off to ensure high availability operation in demanding high-current, high-temperature automotive and industrial applications.  The demonstration uses the FRDM-KL25Z board in conjunction with Solar Tracker Demo board and graphical user interface.       Features Thermal protection Package, PWM Mode, Thermal Fold-back, Current Mirror, Complete Internal protection Featured NXP Products Product Link MC34932/S H-Bridge, Brushed DC Motor Driver, 5-36V, 5A, 11kHz/20kHz MC34932 | H-Bridge, Brushed DC Motor Driver | NXP  KL2x-72/96MHz, USB Ultra-Low-Power Microcontrollers (MCUs) based on Arm® Cortex®-M0+ Core Arm® Cortex®-M0+|Ultra-Low Power Kinetis® KL2x USB MCU | NXP  Freedom Development Platform for Kinetis® KL14, KL15, KL24, KL25 MCUs https://www.nxp.com/design/development-boards/freedom-development-boards/mcu-boards/freedom-development-platform-for-kin… 

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