Description Application demo recognizes 10 keywords: "yes", "no", "up", "down", "left", "right", "on", "off", "stop", "go" spoken into the on-board microphone. Use terminal output - 115200 baud - to see results. This demo was created as part of hands-on lab demonstrating model conversion which can be found here: https://community.nxp.com/docs/DOC-344227. Software The RT1060 SDK should already be installed in MCUXpresso IDE. Drag-and-drop the .zip file into the Project Explorer view, and then compile and flash. NXP Product Link i.MX RT1060 Evaluation Kit i.MX RT1060 Evaluation Kit | NXP 

This demo shows a use case of the NXP QN9021 in the Zepp Bluetooth Smart sports sensor to send sensor data to smartphone app for data analysis and provide feedback to users     Features: Zepp Bluetooth Smart sports sensors are designed to monitor performance with a smartphone app for baseball, golf and tennis. Zepp allows you to get to know your swing or stroke inside and out through instant 3D and video analysis. Users can learn from the pros; capture your personal mechanics and compare your swing side-by-side to many of the world’s greatest athletes _________________________________________________________________________________________________________________________   Featured NXP Products: Ultra low power Bluetooth LE system-on-chip s|NXP _________________________________________________________________________________________________________________________   Other Helpful links: ZEPP _________________________________________________________________________________________________________________________

Demo See how NXP integrates automotive and microcontroller technology to develop next-generation drones including high reliability, industrial quality, and additional security with drone-code compliant flight management unit running PX4. Video Features Electronic speed controllers with Field Oriented Control of BLDC (Brushless DC motors) TJA110 2-wire  Automotive Ethernet PHY Transceiver|NXP  SCM-i.MX6 Training https://register.gotowebinar.com/rt/9153317036356506113  Find our more at www.nxp.com/uav

Overview This reference design deals with the average current mode control of Power Factor Correction (PFC) on the NXP® MC56F8013 digital signal controller (DSC). The application is written for MC56F8013, but can be easy ported into the other members of the MC56F80xx family according to application requirements Both fast current and slow voltage loops are implemented digitally using the DSC and the PFC power switch is controlled directly by the DSC Using direct PFC, we can achieve much better dynamics of the system so the solution is cost-effective The example of such PFC implementation into 3-phase single shunt ACIM vector control is described in this reference design Features Inner current loop Outer voltage loop Direct PFC algorithm Average current control mode 230VAC Input voltage FreeMASTER control interface Part of the system together with HV AC/BLDC Power Stage dedicated for Motor Control Applications Maximal output power 750W Fault protection: Input over-current fault protection Input under-voltage fault protection Input over-voltage fault protection DC-Bus under-voltage fault protection DC-Bus over-voltage fault protection Block Diagram Board Design Resources

Demo Owner: Eyal Harari     Features Explore QorIQ Processing Platforms LS2 family, combining ease of use with performance where software developers can focus at a higher level. Management Complex introduction (MC) and features Featured NXP Products QorIQ

The KW36/35/34 is an ultra-low power, highly integrated single-chip family that enables Bluetooth Low Energy version 5 and Generic FSK (at 250, 500 and 1000 kbps) connectivity for automotive, industrial and medical embedded systems. KW36/35/34 integrates an Arm ®  Cortex ® -M0+ CPU, up to 512 KB Flash and 64 KB SRAM, Bluetooth LE and Generic FSK hardware Link Layers and peripherals optimized to meet the requirements of the target applications. KW36/35/34 supports up to 8 simultaneous Bluetooth LE connections as either a master, a slave or any combination. The KW36 includes an integrated FlexCAN module enabling seamless integration into an automotive or industrial CAN communication network. The FlexCAN module can support CAN’s flexible data-rate (CAN FD) protocol for increased bandwidth and lower latency. The Kinetis KW36A/35A/34A MCUs feature AEC Q100-Grade 2 temperature range qualification while the KW36Z/35Z feature and Industrial qualification. As more and more car OEM are considering to use phone as the car key, which need to localize the driver’s position, most customers prefer to use RSSI based solution as it can be supported by current phone directly, while PDE and AOA is not compatible with current phone. Common RSSI Localization method is acquiring advertising channels, It’s easy, but it is hard to make authentication, can be attacked easily and have low anti-interference ability as it only have 3 channels. So customers are asking for a new method to monitor the data channels with hopping. This demonstration system implement data channel’s RSSI tracing and monitoring of 4 BLE connections at the same time, and designed a GUI to simplify the steps to setup the demo system, and view the result visually.

  Overview The Water Level Reference design continuously monitors water level and water flow using the temperature compensated MPXM2010GS pressure sensor in the low cost MPAK package, a dual op–amp, and the MC68HC908QT4, 8–pin microcontroller. This system uses very few components, reducing the overall system cost. This allows for a solution to compete with a mechanical switch for water level detection but also offer additional applications such as monitoring water flow for leak detection, and the other applications for smart washing machines. Archived content is no longer updated and is made available for historical reference only.   Features Demonstrate Water Level Monitor plus additional features such as water flow monitoring and leak Pressure Sensor - MPXM2010 MPAK Package Sensitivity 2.5 mV / kPa Pressure Rating 10kPa (Max) Microprocessor MC68HC908QT4 40K Bytes of in-application reprogrammable Flash and 128 Bytes of RAM High performance, easy to use, HC08 CPU 4 Channel 8-bit analog to digital converter 8-pin DIP or SOIC packages Design Considerations Media Isolate pressure sensor from water by using a head tube Accuracy To prevent overflow and control consumption of water Auto-zeroing concept can eliminate offset errors Tank/tub diameter is irrelevant, the important part is to have an accuracte look up table to correlate water height versus pressure     Printed Circuit Boards and Schematics RD1950MPXM2010SCHEM RD1950MPXM2010SCHEMATIC RD1950MPXM2010DGRBR

Overview This reference design is for a sensorless permanent magnet (PM) motor drive single-chip solution based on the NXP® DSC56F80XX digital signal controller (DSC). An electronically controlled three phase PM motor provides a unique feature set with the higher efficiency and power density This application presents a motor control technique of PM motor without a need to use a rotor position transducer This technique particularly targets horizontal axis (H-axis) washing machine with belt drive in fractional horsepower range A designer reference manual provides a detailed description of the application, including the design of the hardware and the software Features Designed to fit into consumer and industrial applications MC56F80XX digital signal controller 3-phase AC/BLDC High Voltage Power Stage Board 1-phase line input 110/230VAC 50/60Hz Apliance PM motor Initial rotor position detection Full torque at motor start-up Field weakening Application based on C-callable library functions (GFLIB, GDFLIB, MCLIB, ACLIB) Current control loop Speed control loop with Field weakening Flash: ~ 6KB, RAM ~ 1.5KB FreeMASTER based control pages Block Diagram Board Design Resources

Flying glasses demonstrator: Dual PMSM demo uses Qorivva MPC574xP and features spinning glasses mounted on the rotor of a first motor, while the second motor is equipped with a blade, "cutting" the glasses. Four glasses are mounted on the shaft of one motor while it is spinning. The second motor is running at the same time and it turn its propeller in a predefined movement so there is no damage to the glasses.   https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4305972345001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blank   Features Permanent magnet Synchronous Motors Sensor used for speed and positioning measurement Featured NXP Products MPC574xP: Qorivva 32-bit MCU for Automotive and Industrial Functional Safety Applications Training Introduction to PMSM Motor Controls

Video Link : 6084 Description: Teensy 3.1 and Teensy-LC are a complete USB-based development tools featuring respectively the Kinetis 32-bit Cortex-M4 K20 and Cortex-M0+ KL26 devices running @ 72 and 48 MHz. Teensy 3.1 is equipped with 256KB flash and 64KB RAM. Teensy-LC board is equipped with 62KB flash and 8KB RAM. Value Propositions * Very small footprint development tools * Very Low Cost dev tool * They are able to implement many different projects * Open source SDKs Teensy board with very high extended-Arduino compatible performance levels and libraries taking advantage of Kinetis features like low power modes and internal DMA. Libraries for LED (WS2811) and 16bit 44.1kHz audio quality is where Makers go when they need quality, performance and small size. FEATURES Hardware Specifications Specification Teensy LC Teensy 3.0 Teensy 3.1 & 3.2 Units Processor MKL26Z64VFT4 32 bit ARM Cortex-M0+ 48 MHz MK20DX128 32 bit ARM Cortex-M4 48 MHz MK20DX256 32 bit ARM Cortex-M4 72 MHz Flash Memory 62 128 256 kbytes RAM Memory 8 16 64 kbytes EEPROM 1/8 (emu) 2 2 kbytes I/O 46, 5 Volt 34, 3.3 Volt 34, 3.3V, 5V tol Analog In 8 14 21 PWM 9 10 12 UART,I2C,SPI 1,1,1 3,1,1 3,2,1 Price $24.00 $19.00 $19.80 USD Software Enablement Teensy 3.2 & 3.1: New Features https://www.pjrc.com/store/teensylc.html RECOMMENDED PRODUCTS Product Description Kinetis K Microcontroller Kinetis L Microcontroller RESOURCES Title Type PJRC (Teensy Official Website) Web Page

Demo Owner: Rick Dumont This demonstration shows 2 examples of AC/DC solutions for efficient fast battery charging. Firstly a slim 25W USB PD + QC adapter built with NXP latest chipset solution. The adapter will demonstrate a fully USB PD (Power Delivery) and QC (Quick Charge) compliant solution charging a true PD device (Apple macbook air / Google Pixel notebook or Google SP) or a QC smartphone (e.g. Samsung S6 edge). Secondly a compact 33W Direct Charging adapter built with NXP latest chipset solution. The adapter will demonstrate a fully compliant direct charging solution charging a true HiSilicon FSP device, supporting the FSP charging protocol like a Huawei smartphone Furthermore will be demonstrated the system configuration and debug features of the secondary controller by using NXP Graphical User Interface (GUI) and control board. Features: Best-in-Class overall efficiency – meets all DOE & EU-CoC regulations Smallest form factor / highest power density due to high efficiency High integration level & very low BOM cost - minimum number of external components Very flexible system due to on-chip DSP and memory – Fully meets USB-PD, QC, FSP/SCP protocols Main functionality (V & I & protections) configurable by programmability of key system parameters All protections integrated in hardware – OVP, OCP, OPP, OTP, various short circuit conditions Low cost and suitable packages for both reflow and wave soldering Optional tamper resistant authentication chip allowing own eco-system specific accessories _________________________________________________________________________________________________________________________________________ Featured NXP Products: 25W USB PD & QC reference application, including a:      - TEA1936 primary controller (DCM/QR)      - TEA1993 synchronous rectification controller      - TEA1905 secondary USB PD and QC controller 33W Direct Charge reference application, including a:      - TEA1936 primary controller (DCM/QR)      - TEA1998 synchronous rectification controller      - TEA1901 secondary Direct Charge controller NXP GUI w/ control board _________________________________________________________________________________________________________________________________________ C08

Demo     Prescient’s PA Module Demo / product features (Value proposition) NXP’s cutting edge RF solution for medical applications Compelling portfolio at 2.45 GHz with 140 W–300 W output power, high VSWR NXP 140 W LDMOS inside Neuwave’s Certus 140 Ablation System for cancer NXP Recommends MRF24300N MRF7S24250N RF Industrial, Scientific and Medical      

Overview This reference design enables development of a vector control algorithm for a three-phase AC induction motor implemented on NXP® digital signal controllers MC56F8013/MC56F8023. Targeted mainly at consumer and industrial applications Cost-effective and highly reliable, the algorithm implements a single shunt current sensing, eliminating the need for more than one sensor High range of motor operating speeds up to 18000RPM An adaptive closed loop rotor flux estimator enhances control performance and increases the overall robustness of the system A reference manual provides a detailed description of the application, including a design of hardware and software Features 3-phase AC induction motor drive Designed to fit into consumer and industrial applications Uses 56F8013 or 56F8023 32 MIPS Digital Signal Controller Running on a 3-phase High Voltage Power Stage Control technique incorporating: Vector control of three-phase AC induction motor with position encoder Closed-loop speed control Both directions of rotation Both motor and generator modes Reconstruction of three-phase motor currents from DC-Bus shunt resistor Closed loop current control Flux and torque independent control Adaptive rotor flux space-vector estimator Field-weakening for high speeds High-speed range, max speed – 18000 RPM (2-pole motor) FreeMASTER software control interface (motor start/stop, speed setup) FreeMASTER software monitor FreeMASTER software graphical control page (required speed, actual motor speed, start/stop status, DC-Bus voltage level, motor current, system status) FreeMASTER software speed scope (observes actual and desired speeds, DC-Bus voltage and motor current) FreeMASTER software high-speed recorder (reconstructed motor currents, vector control algorithm quantities) DC-Bus overvoltage and undervoltage, overcurrent protection Block Diagram Board Design Resources

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

Overview This reference design describes a 3-phase sensorless brushless DC (BLDC) motor control with back-EMF (electromotive force) zero-crossing detection, supporting the NXP® 56F80X and 56F83XX Digital Signal Controllers (DSCs) for motor control applications. It can also be applied to Our 56F81XX DSCs The system is designed as a motor drive system for three-phase BLDC motors and is targeted for applications in both industrial and appliance fields (e.g. compressors, air conditioning units, pumps or simple industrial drives) The reference design incorporates both hardware and software parts of the system including hardware schematics Features BLDC sensorless motor 115 or 230V AC Supply Targeted for 56F80X, 56F83XX, and 56F81XX Digital Signal Controllers Running on 3-phase BLDC Motor EVM at 12V, 3-Phase BLDC Low-Voltage Power Stage Speed control loop Motor mode in both direction of rotation Manual interface (RUN/STOP switch, UP/DOWN push buttons control, LED indication) Overvoltage, undervoltage, overcurrent and overheating fault protection Hardware autodetection FreeMASTER control interface (speed set-up) FreeMASTER software remote monitor Block Diagram Board Design Resources

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

Overview NXP brings a broad portfolio of proven PowerQUICC ®  network communications products, firmware and reference designs that support multiple network interfaces. These reference designs have the flexibility to integrate new features and are adaptable across product lines to protect your investment and maintain an edge over the competition. The NXP ®  MPC8323E-RDB is a turnkey hardware/software reference platform designed to rapidly provide the core elements of tomorrow's multiservice gateway products. Built on Power Architecture technology, the MPC8323E-RDB leverages the processing power of the MPC8323E PowerQUICC II Pro integrated communications processor. Features MPC8323E Integrated Multiservice Gateway features: Flexible WAN interfaces RJ45 100BT Ethernet and connectors for ADSL2+/VDSL2, WiMAX IPv4 Router with VPN capability RJ45 100BT Ethernet and connectors for ADSL2+/VDSL2, WiMAX Up to 640 DMIPS e300 CPU QUICC Engine ®  technology acceleration, 200 MHz Bridging/Routing with NAP/NAPT Firewall support (ACL) QoS for IPTV, VoIP and high-speed data VPN termination and pass-through Board Interfaces: Flexible network interfaces 10/100 Ethernet ADSL2+/VDSL2 WiMAX FXS ports (2) for analog phones 4-port 10/100 Ethernet LAN Two USB 2.0 host (480 Mbps) type A MiniPCI slots (2) Development Environment Our well established vertical ecosystem provides customers with the exact development flow they desire. The MPC8323E-RDB is kitted with: Encased CPE form factor board Linux ®  2.6 (LTIB) Design Resources

Overview The QorIQ® communications processors include single-, dual-, quad- and multicore processor architectures with integrated support for communications protocols such as EtherCAT. The new programmable logic controller (PLC) reference platform is equipped to ease development of industrial control systems PLC reference platform implements the KPA (koenig-pa GmbH) EtherCAT Master protocol with ISaGRAF Firmware and QNX Neutrino® RTOS on the high-performance QorIQ P1025 processor Supported by powerful development tools from all four companies, including the KPA EtherCAT Studio, ISaGRAF 6 Workbench, QNX Momentics® Tool Suite, and CodeWarrior® Development Suit Features Integrated ISaGRAF Firmware, KPA EtherCAT Master stack and QNX Neutrino RTOS on the QorIQ ®  P1 Tower ®  module EtherCAT master protocol and customer control application run simultaneously on a single QorIQ P1025 processor to deliver one millisecond EtherCAT master cycle time QorIQ P1 processors can also provide simultaneous support for complex applications, as well as additional industrial protocols like PROFINET, PROFIBUS and EtherNet/IP ™ Powerful development tools include the KPA EtherCAT Studio, ISaGRAF 6 Workbench, QNX Momentics Tool Suite, and CodeWarrior ®  Development Suite ISaGRAF 6 Workbench and Firmware kernel can fully support all IEC 61499 and IEC 61131-3 standard PLC programming languages Software and hardware developed on TWR-P1025 can be easily deployed on a range of QorIQ P1 processors, including the P1012, P1021, P1016 and P1025 processors QorIQ P1 processor family offers pin-compatible single-core variants for cost reduction, and dual-core variants which scale up to 3,700 million instructions per second (MIPS) for more complex control algorithms. Customers may distribute processing functions across two cores, or isolate real-time control functions on one core while running maintenance and communications functions on the other core. Commercial EtherCAT Master stack available from KPA Commercial Neutrino RTOS available from QNX Block Diagram Platform Requirements One TWR-P1025 QorIQ Tower Module Target slaves required to run the demo: Beckhoff EK1100 EtherCAT coupler Beckhoff EL1004 4-channel digital input terminal 24 V DC, 3 ms Beckhoff EL2004 4-channel digital output terminal 24 V DC, 0.5 A Beckhoff EL9011 end cap An image of the complete PLC Reference Platform run-time software. Download the PLC Reference Platform evaluation software. ISaGRAF 6 Workbench for offline tools Utility Software (Windows) TeraTerm for RS232 communications USB to UART driver for console port TFTP Server to load images to TWR-P1025 Design Resources

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