Demo High performance feature extraction and tracking application at ultra-low power on S32V platform. This demo showcases a real-time high computation algorithm with image capture and display running on a portion of the resources available on the S32V234. Customers can create demanding Automotive grade vision systems such as stereo and single camera as well as advanced surround view systems based on this demo. The application was written using APEX-CV pro library and demonstrates that high performance application leveraging the APEX Image Cognition Processor cores of the S32V234 could also be easy to write Features The APEX cores, with a combined 128 parallel computational units, crunch numbers quickly and at a fraction of the power. Fully programmable, the cores can execute standard and/or customized vision algorithms for ADAS applications and beyond. The S32V234 MCU captures raw images from HD sensor, and then formats the images with its on-chip ISP that here provides exposure control, white balancing, RGB to Y color conversion.  Formatted images are then feed into the APEX cores that generate multi-level image pyramids, and combined Harris Corner for feature detection followed by Lukas-Kanade (KLT) Sparse Optical Flow for feature tracking.  Then features and displacement are overlaid on image and displayed, at the processing performance of up to 100 fps NXP Recommends The S32V230 Processor family for Vision ADAS, includes the award winning automotive grade S32V234 MCU with dual APEX Image Cognition Processor cores. http://www.nxp.com/products/microcontrollers-and-processors/arm-processors/s32-processors-and-microcontrollers/s32v230-family-of-processors-for-advanced-driver-assistance-systems:S32V230 Video Links

LPC54114 Audio and Voice Recognition Kit The LPC54114 Audio and Voice Recognition Kit provides a complete hardware and software platform for developers to evaluate and prototype with the LPC54114 processor family. It has been developed by NXP® to provide all that you need to develop an always-on low power voice triggering product. Features: LPCXpresso54114 (OM13089) development board with: LPC54114 dual-core (M4F and dual M0) MCU running at up to 100 MHz in LQFP64 package. Hi-speed USB based debug probe with CMSIS-DAP and SEGGER J-Link OB protocol options. Connectivity for external debug probes. Micro USB connector for LPC54114 USB device operation. Tri-color LED. Target Reset, ISP and interrupt/user buttons. On-board 1.8 V / 3.3 V or external power supply options. 8 Mb Macronix MX25R SPI flash. FTDI UART connector and built-in UART to USB bridge options. Built-in MCU power consumption and supply voltage measurement for LPC54114 device. UART, I²C and SPI port bridging from LPC54114 target to USB via Link2 device. FTDI UART connector. Digital Mic/Audio codec/OLED display (“MAO”) shield with: Knowles SPH0641LM4H digital microphone. Cirrus Logic (Wolfson) WM8904 audio codec with stereo line in/out sockets. Monochrome OLED display (160 x160 pixels). Demos: Include USB/I2S audio demo, as well as voice recognition demos leveraging partner technology (Malaspina and Sensory) http://cache.nxp.com/documents/application_note/AN11855.zip Videos: These videos showcase the NXP’s LPC54114 MCU in a kit designed for customers to evaluate its capabilities for audio and voice processing _______________________________________________________________________________________________________ Featured NXP Products: Product Link LPC54000 Series LPC54000|Power Efficient 32-bit Microcontrollers (MCUs)|Cortex®-M4 Core | NXP  LPC54114 Audio and Voice Recognition Kit https://www.nxp.com/design/microcontrollers-developer-resources/lpcxpresso-boards/lpc54114-audio-and-voice-recognition-kit:OM13090?&fsrch=1&sr=1&pageNum=1 _______________________________________________________________________________________________________

Demo Go to your local bicycle store and you will see just how popular Ebike are becoming. To help power this revolution further Kinetis Motor Suite will enable your motor control solution quickly. KMS is used to tune and control the motor with FOC torque control, with the startup control modified to uses the hall effect inputs to improve start-up power.     Features: A sensorless FOC Brushless DC (BLDC) motor control application with torque control, using a Kinetis V Series KV3x ARM Cortex-M4 MCU and the Kinetis Motor Suite solution.  KMS supports the development of sensored and sensorless velocity control, and sensored position control applications for PMSM and BLDC motors ____________________________________________________________________________________________________________________________ Featured NXP Products: Product Link Kinetis® KV3x-100–120 MHz, Advanced 3ph FOC / Sensorless Motor Control MCUs based on Arm® Cortex®-M4 Arm® Cortex®-M4|Kinetis® KV3x Real-time Control MCUs | NXP  Kinetis® KV3x Family Tower® System Module https://www.nxp.com/design/development-boards/tower-development-boards/mcu-and-processor-modules/kinetis-modules/kinetis-kv3x-family-tower-system-module:TWR-KV31F120M?&lang_cd=en 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 Freedom Development Platform for Kinetis® KV3x Family MCUs FRDM-KV31F|Freedom Development Platform|Kinetis® MCU | NXP  NXP® Freedom Development Platform for Low-Voltage, 3-Phase PMSM Motor Control https://www.nxp.com/design/development-boards/freedom-development-boards/mcu-boards/nxp-freedom-development-platform-for-low-voltage-3-phase-pmsm-motor-control:FRDM-MC-LVPMSM?&fsrch=1&sr=1&pageNum=1 ____________________________________________________________________________________________________________________________ Online Training: Kinetis V Series MCU Online Training|NXP ____________________________________________________________________________________________________________________________     C63

Demo This demo showcases the MAC57D5xx microcontroller rendering on a LVDS 1280x480 display for a full digital graphic instrument cluster and a Head-up Display on a secondary panel showcasing the warping capabilities of the microcontroller.       Single-chip instrument cluster solution with powerful graphics subsystem, including inline Head-Up Display warping functionality Dual-core ARM® Cortex®-A5/M4 for real-time and application processing and additional Cortex-M0+IOP core Cryptographic Services Engine, tamper detection and password protection for Flash memory and JTAG   Links Ultra-Reliable Multi-Core ARM-based MCU

Demo This demonstration provides an overview of developing with the various components of the LPCXpresso Ecosystem, showing the main features of the LPCXpresso IDE tools, from project import/creation to multi-core debug, trace and power measurement. A variety of LPCXpresso development boards with their built in LPC-Link2 debug probes will be shown off in conjunction with the LPCXpresso IDE.  The LPCOpen peripheral drivers and examples will be used, demonstrating features of several of NXP's low power and flexible LPC MCU families     For more information : LPCXpresso IDE http://www.nxp.com/pages/:LPCXPRESSO LPCXpresso Boards http://www.nxp.com/pages/:LPCXPRESSO-BOARDS http://www.nxp.com/pages/:LPCXPRESSO-BOARDS  LPC Low Power 32-bit Microcontrollers http://www.nxp.com/pages/:LPC-ARM-CORTEX-M-MCUS     Video Link

Demo HomeKit accessory example and development system implementing a HomeKit controlled chicken coop door with NFC chicken identification, based on the Kinetis K64 microcontroller (MCU), HomeKit SDK, and Arcturus Networks IoT system Features: The Arcturus Networks uCMK64-IoT board is a 60x60mm module for developing secure IoT devices that require a combination of connectivity and control. Includes Ethernet and Wi-Fi connectivity. HomeKit Software Development Kit (SDK) from NXP offers support for home automation applications using Apple HomeKit technology, delivering exceptional performance and advanced security. NXP Kinetis K64 120MHz MCU based on the ARM® Cortex®-M4 core, 256 KB SRAM, 1 MB Flash, and with a rich suite of analog, communication, timing and control peripherals. NXP NFC Controller PN7120, full NFC solution for easy integration into any OS environment, with integrated firmware and NCI interface designed for contactless communication at 13.56 MHz. ________________________________________________________________________________________________________ Featured NXP Products: HomeKit Software Development Kit (SDK)|NXP Arcturus Networks Inc. | uCMK64-IoT ARM Cortex-M4 Cores|Kinetis K6x MCUs|NXP Full NFC Forum-compliant controller with integrated|NXP ________________________________________________________________________________________________________

  Overview   NXP ®  offers PowerQUICC ® . and ColdFire ® . processors and a large selection of 8-bit MCUs that support common point-of-sale (POS) printer applications for retail and services industry customer receipts. Benefits include Low cost and complexity OS support to control print-heads, paper handling, character management, scanner inputs Management of digital/analog inputs and controls Multiple connectivity options Flexibility to address multiple mixed-feature applications   Block Diagram     Recommended Products   Category Name MCU and MPU 32-bit Microprocessor with USB On-The-Go, Ethernet, PCI, DDR2/DDR controller and Encryption | NXP  32-bit MPU, 10/100 ETH, USB OTG, PCI. i.MX258 Processors|Point of Sale (POS) | NXP  400 MHz Arm9®, SVGA, 10/100 ETH, CAN, tamper detection, <1W i.MX28 Applications Processors: Integrated Power Management Unit (PMU), Arm9™ Core | NXP  454 MHz Arm9®, SVGA, 10/100 ETH, CAN, PMU, <1W i.MX 6Solo Applications Processors | Single Arm® Cortex®-A9 @ 1GHz | NXP  1 GHz Arm® Cortex™-A9, 2xWXGA, graphics, video, 10/100/1000 ETH, CAN, PCIe, PMU 8-bit Flexis QE MCUs | NXP  Flexis Low-Power 8-bit MCU 4-128K Flash.   Category Name Power Management 3.0A 1.0MHz DDR Switch-Mode Power Supply | NXP  Li-Ion Battery Charger, DDR Switch-Mode Power Supply (3.0A, 1MHz).   Category Name Signal Conditioning MC33972 | MSDI with Suppressed Wakeup | NXP  Switch Detector 22 contacts. MSDI | NXP  Switch Detector 22 contacts.   Category Name Print Sensor 0 - 10kPa Integrated Pressure Sensor | NXP  Sensor On-Chip Signal Conditioned, Temperature Compensated and Calibrated.   Category Name Motor Driver MC33880 | Octal Serial Switch with SPI | NXP  Configurable Octal Serial Switch (LSS / HSS) for Motor Drive. MC34931 | H-Bridge, Brushed DC Motor Driver | NXP  H-Bridge Brushed DC Motor Driver, 5-28V, 5A, 11kHz MC34932 | H-Bridge, Brushed DC Motor Driver | NXP  H-Bridge Brushed DC/Stepper Motor Driver, 5-28V, 5A, 11kHz MC33886 | H-Bridge, Brushed DC Motor Driver | NXP  H-Bridge Brushed DC Motor Driver, 5-28V, 5A, 10kHz MC33926 | H-Bridge, Brushed DC Motor Driver | NXP  H-Bridge Brushed DC Motor Driver, 5-28V, 5A, 20kHz Dual H-Bridge Motor Driver 2-8.6 V 1.4 A 200 kHz | NXP  H-Bridge Brushed DC/Stepper Motor Driver, 2-8.6V, 1.4A, 200kHz H-Bridge DC Motor Driver 2-15 V 3.8 A 200 kHz | NXP  H-Bridge Brushed DC Motor Driver, 2-15V, 3.8A, 200kHz   Documentation   Application Notes: Simplified EHCI Data Structures for the High-End ColdFire ®  Family USB Modules https://www.nxp.com/docs/en/application-note-software/AN3522.pdf

Overview This reference design is a 3-phase brushless DC (BLDC) motor sensorless drive for fans, pumps and compressors based on the low-cost NXP® 56F801x digital signal controllers (DSCs). The concept is a closed-loop speed-controlled BLDC drive with no need for position or speed sensors AIt serves as a reference design for a BLDC motor sensorless control system, ideal for fan, pump and compressor applications Power stages used by the application are designed for 12V DC line voltage and 3Aor 8A output current The reference manual provides a detailed description of the application, including design of the hardware and the software Features 3-phase brushless DC motor sensorless drive Designed to fit into fan, pump and compressor applications Uses 56F8013 32 MIPS Digital Signal Controller Available for two power stages and two motors Input power supply voltage +12 VDC for power stages Control techniques incorporate: Sensorless, trapezoidal control of 3-phase BLDC motor with back-EMF sensing ADC zero crossing sensing for sensorless control Closed-loop speed control using PI controller Adjustable DC-bus current limitation PI controller Motoring mode Both directions of rotation Speed range: 200-2000 and 800-8000 RPM (depending on the motor used) Manual interface (RUN/STOP switch, UP/DOWN pushbuttons) FreeMaster interface for monitoring, controlling and tuning Fault protection (DC-bus over-current, DC-bus under-voltage, DC-bus over-voltage) Automatic calibration of phase back-EMF measurements 20 kHz PWM switching frequency Easy to tune for different power stages and motors. Block Diagram Board Design Resources

Demo NXP boosts aerospace communications and radar performance for defense systems. See this demo for how our transistors deliver highest RF output power for radar and identification, friend-or-foe (IFF) systems     Demo / Product features MMRF1314H 1000 W Pulse 52 V LDMOS Transistor 100 W Peak, 1200-1400 MHz reference circuit Ceramic package NI-1230H-4S Internal prematch > 20:1 VSWR   MMRF1317H 1500 W Pulse 50 V LDMOS Transistor Highest power narrowband IFF transistor for defense and civil use Ceramic package NI-1230H-4S 1500 W Peak, 1030-1090 MHz reference circuit > 10:1 VSWR   MMRF1312H 1200 W Pulse 52 V LDMOS Transistor Highest power broadband L-Band transistor for military and civil use Ceramic package NI-1230H-4S 1200 W Peak, 900-1215 MHz reference circuit > 20:1 VSWR   NXP Recommends MMG2010N MMRF1317H MMRF1314 MMRF1312 MMRF5300 MMRF5301  

Streaming real-time 3D Graphics Using i.MX 6 Applications Processor and Qorivva MCU. View a 3D car that the user rotates using a touch screen to display environmental reflections.  Both static and live video environmental reflections are calculated on top of the real-time rendered car.     https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282600248001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blank  Features Qorivva MCU sends an encoded video stream to the i.MX6 processor The demo shows a car a 3D spinning vehicle on the LCD. the video stream is used as a reflection on the 3D model Touch screen enabled LCD allowing uswer to rotate 3D model of car i.MX6 Quad has a powerful GPU that renders 3D graphics on real time. This could be used to reconfigure clusters, 3D gauges or other uses Featured NXP Products i.MX6Q: i.MX 6Quad Processors – Quad Core Qorivva 32-bit MCUs based on Power Architecture® Technology

Wind River's Ka Kay Achacoso demonstrates VxWorks 7 with graphics on the i.MX6 series applications processor. Features Demonstration of Graphics using VXWorks 7 The drivers are taking advantage of the i.MX processor's GPU to render hardware accelerated 3D graphics Using the accelerometer to show the orientation of the board The display shows a 3D view of how the board is being positioned taking into consideration perspectives and lighting shadows Featured NXP Products ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Links NXP Connect - Wind River

About this demo   Heads up! This article contains instruction updates due to changes in NXP's SDK and also on AWS website.   This demo will focus on the WIFI enablement and cloud connectivity through AWS by using MCUXpresso and an Amazon Alexa.   Amazon Web Services (AWS) is the world’s most comprehensive and broadly adopted cloud platform, offering over 165 fully-featured services from data centers globally. Millions of customers —including the fastest-growing startups, largest enterprises, and leading government agencies—trust AWS to power their infrastructure, become more agile, and lower costs. The LPC5500 used for this demo is the LPCXpresso55S69 development board which provides the ideal platform for evaluation of and development with the LPC55S6x MCU based on the Arm® Cortex®-M33 architecture. The board includes a high performance onboard debug probe, audio subsystem and accelerometer, with several options for adding off-the-shelf add-on boards for networking, sensors, displays, and other interfaces. The Alexa Skills Kit is a collection of self-service APIs, tools, documentation, and code samples that makes it easier to start building Alexa skills. Skills are like apps for Alexa, enabling customers to perform everyday tasks or engage with your content naturally with voice.   Block Diagram List of Products LPCXpresso55S69 WiFi 10 CLICK   Alexa Echo Dot USB A-to-Micro USB cable Step by Step Guides First, we need to create an account AWS and generate the “thing” that will be linked to the platform, this information can be followed step-by-step on this manual. Import AWS remote control WiFi Demo from the SDK Builder Select the LPCXpresso Board, click on the "Add software component" button, then select "Select All". Download the SDK Open MCU Xpresso and Import SDK examples, and then select the LPCXpresso 55 board and import into the aws_exaples find the aws_remote_control_wifi and also click on the UART for debugging. On the project find the amazon-freertos example, then demos and open the aws_clientcredential.h and change: The AWS IoT broker endpoint (Under thing settings “Interact” section) Write the “Things Name” And WiFi credentials. Replace the aws_clientcredential_keys.h with the one generated by the certification configuration tool from AWS, You can drag and drop it into the folder and then click overwrite. Build and download the application into your board. Video   External Links NXP Product Link LPCXpresso55S69 https://www.nxp.com/products/processors-and-microcontrollers/arm-microcontrollers/general-purpose-mcus/lpc5500-cortex-m33/lpcxpresso55s69-development-board:LPC55S69-EVK WIFI 10 CLICK https://www.mikroe.com/wifi-10-click Amazon Web Services https://aws.amazon.com/?nc2=h_lg Alexa Skills Kit https://developer.amazon.com/en-US/alexa/alexa-skills-kit   Demo instructions update for 09/25/2020 Due to NXP's SDK updates, some file routes have changed inside the MCUXpresso project: The CertificateConfiguration Tool is located now on: SDKPackages\SDK_2.8.0_LPCXpresso55S69.zip\rtos\freertos\tools\certificate_configuration\ •Location of wifi_shield_silex2401.h \wifi_qca\port\shields\silex2401\wifi_shield_silex2401.h has changed location to wifi_qca\port\boards\lpcxpresso55s69\freertos\silex2401\wifi_shield_silex2401.h Additionally, there is now a clickboard define file available and these changes are already applied: #define BOARD_INITWIFI10CLICKSHIELD_PWRON_PIN 5U //Already done #define WIFISHIELD_WLAN_PINT_CONNECT (kINPUTMUX_GpioPort1Pin18ToPintsel) // IRQ Alexa_RC_json_skill.json.zip file changes:             AMAZON.StopIntent { "name": "AMAZON.StopIntent", "samples": [] },                

Demo NXP, the number one supplier of high power RF power transistors, has a new 5G cellular base station concept alongside many other innovative cellular infrastructure solutions and technologies that is being shown at industry events. Product innovations from NXP are in the areas of 5G, from Gigabit LTE leading up to 5G using GaN and silicon LDMOS for macro and small cell base stations. Learn more about the steps that NXP is taking toward enabling the 5G wave Features Smaller footprint to reduce installation costs Network infrastructure evolution Active antenna rise Power consumption Multiple standards to support with 3G, 4G to 5G Link  5G Infrastructure|NXP 

A sample refrigerator design with two microcontrollers.  The K70 controls the user touch display and while the MC56F8257 DSC manages and controls the compressor.     Features See how NXP ICs work together in this refrigerator reference design LCD controller Graphics controllers and touch sensing interface Graphics being driven by the Kinetis Microcontrollers K70 Compressor is controlled by a Digital Signal Controller (DSC) driving a sensorless permanent magnet vector control of the motor Featured NXP Products Product Link Kinetis® K7x Graphic LCD Microcontrollers (MCUs) based on Arm® Cortex®-M4 Core Kinetis® K7x Graphic LCD Microcontrollers (MCUs) based on Arm® Cortex®-M4 Core | NXP  Kinetis® K70-120–150 MHz, High-Speed USB, Ethernet, DDR and Anti-Tamper Microcontrollers based on Arm® Cortex®-M4 Core Arm Cortex-M4|Kinetis K70 120-150 MHz 32-bit MCUs | NXP  DSC MC56F8257 Motor Control Tower System Module DSC MC56F8257 Motor Control Tower Module | NXP  Links Digital Signal Controllers Kinetis MCUs based on ARM® Cortex®-M Cores  

Demo This Quadrocopter demo will use multiple MCU's from S12 MagniV family showcasing the value delivered from high voltage analog integration and industry proven S12Z core and efficiently enabling high speed BLDC control. Now even, going beyond the traditional automotive applications to cover emerging applications such as drones.   High-performance and industry proven S12(Z) MCU for BLDC/DC motor control, sensors and actuators High voltage analog integrations: LIN/CAN Phy, MOSFET gate drive units, LSD/HSDs, op-amps/PGAs Reduced PCB size and cost while improving manufacturing relability Featured NXP Product Auto & Industrial Mixed Signal MCUs|MagniV|NXP

UDOO Neo has been designed primarily as a complete pocket-size wireless solution for Internet of Things (IoT) and connected device development, featuring Wireless N and Bluetooth 4.0 LE on-board connectivity. Furthermore, the new board will also integrate a three-axis accelerometer, gyroscope and magnetometer, allowing it to sense its position in any given environment.         Features   Links http://www.udoo.org/udoo-neo-the-wireless-playground-for-the-internet-of-things-that-fits-in-your-pocket/ http://www.udoo.org/udoo-neo/ ARM Cortex-A9|i.MX 6 Multicore Processors|NXP Mobile World Congress, and what UDOO Neo represents in the IoT space - UDOO Board Image   UDOO Neo projects walkthrough:    

Overview During critical processes, an industrial diesel engine management system that includes an electric generator can supply emergency power to all vital and selected loads as desired. Today, most state-of-the-art- hospitals, manufacturing plants, telecommunications organizations, data centers, emergency facilities, large industries, and mining companies require uninterrupted power and have backup diesel engine generators that are reliable. As shown in the block diagram, NXP provides a full range of MCUs, barometric pressure sensors (BAP), and analog/mixed-signal IC drivers for improving diesel vehicle fuel economy, enhancing performance, and meeting emissions requirements in automotive applications. However, the NXP industrial diesel engine management solution is equally applicable in other industrial applications by changing the input sensors and outputs that require control. The NXP Industrial diesel engine management solution incorporates the MPC5777C Power Architecture® MCU that delivers advanced performance, timing systems, security, and functional safety capabilities. This includes a lockstep function that serves as a watchdog function to flag any problems with the MCU, support for advanced timers and ADCs, external memory, fault detection, and handling support, and the highest functional safety standards (ASIL-D) support. Together, this solution provides a reliable and high-performance solution to ensure your customers and their employees are safe. Block Diagram Recommended Products Category Link MCU MPC5777C|Engine Control MCU | NXP  Safety Power Management MC33905 | SBC Gen2 with High-Speed CAN and LIN | NXP  Physical Interface TJA1021 | LIN2.1/SAE J2602 Transceiver | NXP  Output Driver MC33800 | Engine Control Integrated Circuit | NXP  Motor Driver H-Bridge MC33931 | H-Bridge Motor Driver | NXP  MAP Sensor 20 to 105kPa, Absolute, Integrated Pressure Sensor | NXP  BAP Sensor -115 - 115kPa Gauge, Absolute Pressure Sensor | NXP  Injector Driver MC33810 | Automotive Engine Control IC | NXP  Input Signal and Sensor Interface MSDI | NXP 

IoT Physical Components Gateways SoC i.MX 6UltraLite                                  Volansys Modular Gateway NXP Modules Supported PN7120 NFC, JN5169 ZigBee   Protocols Supported ZigBee, Thread, Bluetooth, Wi-Fi   User Compatibility MikroBus™ Compatible   Network Connectivity Ethernet, Wi-Fi   Form Factor 100mm x 150mm   Applications Smart Home Smart Building Smart Security Smart Healthcare Smart Energy     SOM MODULE SoC i.MX 6UltraLite                                                   Volansys i.MX6UL SOM for Modular Gateway Memory DRAM, DDR3, NAND Flash, EEPROM, eMMC I/O Interfaces CAN, I2C, SPI, UART, SDIO, PWM, JTAG, SAI, S/PDIF Form Factor 67.6mm x 45.0mm x 5.0mm Applications Energy management Systems IoT gateway Solutions Industrial HMI & Access Control Industrial control & automation Medical & Healthcare equipment Smart appliances Mobile POS & Secure e-commerce KW2XD Module SoC MKW24D512   Volansys KW24D Module (for use with Modular Gateway) or Edge Devices NXP Modules Supported Kinetis® KW2xD Applications Smart Energy M2M Automated meter reading Medical Network HVAC Control Lighting control Asset tracking Environment monitoring and control Protocols Supported Thread User Compatibility MikroBus Compatible Form Factor 24mm x 19mm   KW41Z Module SoC KW41Z512VHT4   Volansys KW41Z Module (for use with Modular Gateway) or Edge Devices     NXP Modules Supported Kinetis® KW41Z Protocols Supported Zigbee, Thread, Bluetooth User Compatibility MikroBus Compatible Form Factor     21mm x 16mm Applications Extremely low-power embedded systems Portable health care devices Wearable sports Fitness devices Computer keyboards and mice Gaming controllers Access control Security systems Smart energy Home area networks Automated meter reading Medical Network HVAC Control Lighting control Asset tracking Environment monitoring and control EDGE DEVICES NXP Modules Supported JN5169 , MKW2xD, MKW41Z   Volansys Modular Edge Node Platform (Supports Same Radio Modules as Modular Gateway) Protocols Supported Thread, ZigBee and BLE User Compatibility MikroBus Compatible Form Factor 74.98mm x 49.99mm Applications Smart Home Buildings Industries What this Demo is All About Video Link : 7307 Modular in design MikroBus Compatible Modules Supports ZigBee, Bluetooth, BLE, Thread, Wi-Fi (SigFox & Lora WAN coming soon) Seamless Integration of your module in our gateway Plug & use our modules to convert your products to solutions      Volansys' NXP Specific Capabilities Presentation. Volansys has created a KW2xD Thread ready module using NXPs' Kinetis KW22D512 Processor for adding thread support on Gateway. The Above Demo reflects controlling of NXPs' Thread End Devices through Volansys Gateway using a mobile application. The mobile application is developed on Android which can control the Thread End Devices sensors (LEDs, Accelerometer, Switch Press) Built using the IAR compiler Volansys IoT Gateway is a production ready modular design with effortless implementation and modification to manufacture your product and also provide a Connectivity solution to your product. KW2xD is a Thread ready module with MikroBus Compatibility for easy integration to convert your products to  Thread ready solutions. KW41Z is multi protocols supported module (Zigbee + Thread + BLE) with MikroBus Compatibility. NXPs' NFC Tap Commissioning helps faster connectivity to the Gateway. Volansys Gateway is also integrated with Amazon Alexa for controlling the IoT end devices using voice for effortless communication for the user. Volansys Overview Presentation Reach out to us If you have any questions or comments, don't see exactly what you need, etc. please feel free to follow up with one of our IoT product managers directly, the IoT Solutions Center Follow Up Team, or the IoT Solutions Center Community: [email protected]

Overview The Occupancy Sensor Node reference design is a compact form factor, open source design. It enables low power nodes based on IEEE 802.15.4 protocols such as Thread and ZigBee to communicate data to a wireless sensor network. NXP supplements the Kinetis KW2xD with tools and software that include hardware evaluation and development boards, software development IDE and demo applications and drivers. Features MKW24D512 802.15.4 Kinetis MCU Full IEEE 802.15.4 compliant wireless node for Thread network Integrated PCB meander horizontal antenna 2 Interrupt push button switches (LLWU) 1 FXOS87000CQ Combo sensor 1 Coin cell battery holder 1 EEPROM 1 Battery charger Block Diagram Board Design Resources

  Overview Barcode scanners are essential in everyday activities including grocery scanning, identifying hospital patients, and tracking boxes or products in a production line or warehouse. In all cases, they must prove to be fast, accurate, and durable in various environments. Barcode scanners use laser, bioptic, or image scanning technology to scan 1D or 2D barcodes. Depending on the application, they are designed to be handheld, in-counter, on-counter or hands-free. For connectivity, barcode scanners connect via serial interfaces such as RS-232, USB or wirelessly using Bluetooth or Wi-Fi. Barcode scanners require high-performance MCUs which provide design flexibility at a low cost and can process data quickly and securely. With a combination of our wide variety of products including Arm ®  Cortex ®  processors, power management ICs, capacitive touch devices, NFC contactless reader devices, audio codec devices, load switches, RTC’s, smart amplifiers, battery authentication devices, smart amplifiers, and others, designing a barcode scanner that is fast, accurate, and durable is simple and cost-effective. Block Diagram     Videos       Recommended Products   Category Name MPU i.MX RT1050 MCU/Applications Crossover MCU| Arm® Cortex-M7, 512KB SRAM | NXP  Highest performing Arm® Cortex®-M7, 3020 CoreMark/1284 DMIPS @ 600 MHz i.MX 6ULL Applications Processor | Single Arm® Cortex®-A7 @ 900 MHz | NXP  Arm Cortex-A7 core up to 900 MHz, 128 KB L2 cache, Security Block: TRNG, Crypto Engine (AES with DPA, TDES/SHA/RSA), Secure Boot i.MX 8M Applications Processor | Arm® Cortex®-A53, Cortex-M4 | 4K display resolution | NXP  i.MX 8M Family - Arm® Cortex®-A53, Cortex-M4, Audio, Voice, Video   Category Name NFC CLRC663 plus family | High-performance NFC frontends | NXP  Multiple interfaces to support a broad range of microcontrollers and high-security reader implementations. Supply voltage: 2.5 to 5.5 V. NFC Tags for Electronics | NXP  Offload the cumbersome task of provisioning a new device onto an existing network. Energy harvesting capabilities to power battery operated devices. NTAG SmartSensor | NXP  Offers single-chip solutions that combine NFC connectivity with autonomous sensing, data processing, and logging.   Category Name Power Management PCA9411 | NXP  ±3 % output voltage accuracy over full current, voltage and temperature range and efficiency up to 94% Voltage Level Translators (Level Shifters) | NXP  Bi-directional level shifter and translator circuits include a range from single-bit to 32-bit widths PMIC with 1A Li+ Linear Battery Charger | NXP  Input voltage VIN from 5V bus, USB, or AC adapter (4.1 V to 6.0 V) withstands up to 22V transient. DDR memory reference voltage, VREFDDR, 0.5 to 0.9 V, 10 mA.   Category Name Audio Ultra-Low-Power Audio Codec | NXP  Capless headphone and an integrated PLL to allow clock reuse within the system that helps achieve a lower overall system cost. Audio Amplifiers | NXP  Audio amplifiers deliver leading performance for sound, robustness and EMC performance.   Category Name Secure A1006 | Secure Authenticator IC: Embedded Security Platform | NXP  Authentication time (on-chip calculations) < 50 ms. Power Consumption: 500 μA active. Minimum 10 years memory retention at 85°C   Category Name USB USB PD and type C current-limited power switch | NXP  VINT supply voltage range from 2.5 V to 5.5 V, 29 V Tolerance on VBUS and EN Pin. PTN5110 | NXP  Designed to comply with USB PD, USB Type-C and TCPC specifications. Back current protection on all pins when PTN5110 is unpowered.   Category Name Peripherals PCF8883 | NXP  Wide input capacitance range (10 pF to 60 pF) and automatic calibration. PCF8523 | NXP  Provides year, month, day, weekday, hours, minutes, and seconds based on a 32.768 kHz quartz crystal. Resolution: seconds to years. PCAL6416AEX | NXP  16-bit general purpose I/O expander. Latched outputs with 25 mA drive maximum capability.