This video shows how to control the QN9080 PWM using NXP's Toolbox Android app via simple commands.

This video shows how to get GPS coordinates and send them to the internet by using the Sigfox OL2385 board

Overview This reference design demonstrates speed control of the 3-Phase Switched Reluctance (SR) motor with Hall position sensor using the NXP® 56F80x or 56F83XX Digital Signal Controllers (DSCs). It helps start development of the SR drive dedicated to the targeted application The DSC runs main control algorithm; when the start command is accepted, the state of the Hall sensors position signals is sensed and the individual motor phases are powered in order to start the motor in the requested direction of rotation without rotor alignment According to the determined switching pattern and the calculated duty cycle, the on-chip PWM module generates the PWM signals for the SR motor power stage Features Speed Control of an SR motor with position Hall sensors Targeted 56F80X, 56F83XX, and 56F81XX Digital Signal Controllers Running on a 3-Phase SR HV Motor Control Development Platform (115/230VAC) Running on a 3-phase SR LV Motor Control Development Platform (12V DC) The control technique: voltage control with a speed closed loop Hall sensors position reference for commutation Start from any motor position without rotor alignment Manual interface FreeMASTER software control interface and monitor Fault protection Block Diagram Board Design Resources

Description NXP’s enterprise storage server solution is focused on our new I²C Fast-mode Plus (Fm+) devices which go from zero to 1 MHz so you can go to the next design level with higher data rates and up to 540 pF bus loading. In computing, telecom and networking systems architecture the trend is for greater use of I²C-bus as a maintenance and control bus, so more bandwidth and more devices on the bus are required.   Block Diagram Products Category Name 1: Microprocessor Product URL 1 QorIQ® Layerscape 1043A | NXP  Product Description 1 The QorIQ® LS1043A processor is NXP's first quad-core, 64-bit Arm®-based processor for embedded networking, it delivers greater than 10 Gbps of performance in a flexible I/O package supporting fanless designs. The new 0.9V LS1043A delivers additional power savings for applications such as Wireless LAN and to Power over Ethernet systems.   Category Name 2: I²C-bus Level Translator Product URL 1 PCA9509P | NXP  Product Description 1 The PCA9509P is a level translating I²C-bus/SMBus repeater with two voltage supplies that enable processor low voltage 2-wire serial bus to interface with standard I²C-bus or SMBus I/O. While retaining all the operating modes and features of the I²C-bus system during the level shifts, it also permits extension of the I²C-bus by providing bidirectional buffering for both lines. Product URL 2 PCA9617A | NXP  Product Description 2 The PCA9617A is an IC that provides level shifting between low voltage (0.8 V to 5.5 V) and higher voltage (2.2 V to 5.5 V) Fast-mode Plus (Fm+) I²C-bus or SMBus applications. The static offset design of the port B PCA9617A I/O drivers prevents them from being connected to the static or incremented offset of other bus buffers. Product URL 3 PCA9306 | NXP  Product Description 3 The PCA9306 is a dual bidirectional I²C-bus and SMBus voltage-level translator with an enable (EN) input, and is operational from 1.0 V to 3.6 V and 1.8 V to 5.5 V. The PCA9306 features a 2-bit bidirectional translator for SDA and SCL lines in mixed-mode I²C-bus applications and also provides bidirectional voltage translation with no direction pin.   Category Name 4: PCIe Switch Product URL 1 CBTL04083A; CBTL04083B | NXP  Product Description 1 The  CBTL04083A/B has minimized the impedance of the switch such that the attenuation observed through the switch is negligible, and also minimized the channel-to-channel skew as well as channel-to-channel crosstalk, as required by the high-speed serial interface.   Category Name 5: GTL Level Translator Product URL 1 4-bit LVTTL to GTL transceiver | NXP  Product Description 1 The GTL2014 is a 4-bit translating transceiver designed for 3.3 V LVTTL system interface with a GTL-/GTL/GTL+ bus, where GTL-/GTL/GTL+ refers to the reference voltage of the GTL bus and the input/output voltage thresholds associated with it.   Category Name 6: Memory Switch Product URL 1 CBTW28DD14 | NXP  Product Description 1 The CBTW28DD14 is a 14-bit bus switch/multiplexer (MUX) is designed for 1.5 V or 1.8 V supply voltage operation designed for operation in DDR2, DDR3 or DDR4 memory bus systems. The CBTW28DD14 uses NXP proprietary high-speed switch architecture providing high bandwidth, very little insertion loss at low frequency, and very low propagation delay, allowing use in many applications requiring switching or multiplexing of high-speed signals.   Category Name 7: I2C Mux Product URL 1 PCA9846 | NXP  Product Description 1 The PCA9846 is an ultra-low voltage, quad bidirectional translating switch controlled via the I²C-bus. The SCL/SDA upstream pair fans out to four downstream pairs, or channels. Any or all SCx/SDx channels can be selected, determined by the programmable control register.   Category Name 8: Load Switch Product URL 1 Logic controlled high-side power switch | NXP  Product Description 1 The NX5P2924 is a high-side load switch that features a low ON resistance N-channel MOSFET with a controlled slew rate that supports 2.5 A of continuous current.   Category Name 9: I2C Expander Product URL 1 PCAL6416A | NXP  Product Description 1 The PCAL6416A is a 16-bit general-purpose I/O expander that provides remote I/O expansion for most microcontroller families via the I2C-bus interface. The PCAL6416A has built-in level shifting feature that makes these devices extremely flexible in mixed-signal environments where communication between incompatible I/O voltages is required.   Category Name 10: Dip switch Product URL 1 PCA8550 | NXP  Product Description 1 The primary function of the 4-bit 2-to-1 I²C multiplexer is to select either a 4-bit input or data from a non-volatile register and drive this value onto the output pins.   Category Name 11: LED Dimmer Product URL 1 PCA9532 | NXP  Product Description 1 The PCA9532 is a 16-bit I²C-bus and SMBus I/O expander optimized for dimming LEDs in 256 discrete steps for Red/Green/Blue (RGB) color mixing and backlight applications.   Category Name 12: VGA Switch Product URL 1 Low power DisplayPort to VGA adapter with integrated 1 : 2 VGA switch | NXP  Product Description 1 PTN3355 is a DisplayPort to VGA adapter with an integrated 1: 2 VGA switch optimized primarily for motherboard applications, it also integrates a DisplayPort receiver. The PTN3355 supports I²C-bus over AUX per DisplayPort standard and bridges the VESA DDC channel to the DisplayPort Interface.   Category Name 13: LDC Driver Product URL 1 32 x 4 automotive LCD driver for low multiplex rates | NXP  Product Description 1 The PCA85162 is a peripheral device which interfaces to almost any Liquid Crystal Display (LCD) with low multiplex rates. It generates the drive signals for any static or multiplexed LCD containing up to four backplanes and up to 32 segments.       Category Name 14: UART Product URL 1 SC16IS740/750/760 | NXP  Product Description 1 The SC16IS740/750/760 is a slave I²C-bus/SPI interface to a single-channel high-performance UART. It offers data rates up to 5 Mbit/s and guarantees low operating and sleeping current.   Category Name 15: USB 3.0 Pre-Driver Product URL 1 SuperSpeed USB 3.0 redriver | NXP  Product Description 1 PTN36001 is a dual-channel USB 3.0 Pre-Driver that supports data signaling rate of 5 Gbit/s through each channel. The data flow of one channel is facing the USB host, and another channel is facing the USB peripheral or device. Related Documentation   Document URL Title https://www.nxp.com/webapp/Download?colCode=AN5226  AN5226, Common Board Design for LS1046A, LS1043A and LS1088A Processors https://www.nxp.com/docs/en/application-note/AN5125.pdf AN5125, Introduction to Device Trees https://www.nxp.com/webapp/Download?colCode=AN4311 SerDes Reference Clock Interfacing and HSSI Measurements Recommendations https://www.nxp.com/webapp/Download?colCode=AN5097  Hardware and Layout Design Considerations for DDR4 SDRAM Memory Interfaces Tools   Tools URL QorIQ® LS1043A Development Board | NXP  Training Training URL NET-N1886 Tips for Silicon Bring-Up of QorIQ LS1043A Processor  APF-DES-T1853 - QorIQ LS1043A Application Solution Kit (IoT, NAS, RGW)  LS1012A, LS1043A and LS1046A Design Cycle using N…  APF-DES-T1853 - QorIQ LS1043A Application Solution Kit (IoT, NAS, RGW)  Related Demos from Communities Related Demos URL QorIQ Processing Platforms  Layerscape  IoT Solutions Platform based on LS1043 

Demo Watch this training video about NXP’s new 65 V LDMOS technology that speeds RF power design. This extra-high voltage LDMOS process will give rise to a new generation of products: the MRFX series   Products MRFX1K80H|1800 W CW, 1.8-470 MHz, 65 V|NXP  MRFX1K80N|1800 W CW, 1.8-470 MHz, 65 V|NXP 

Demo NXP demonstrates the industry’s highest power LDMOS narrowband transistor for IFF and civil transponders     Demo / product features MMRF2010N 250 W Pulse 50 V LDMOS Transistor 250 W Peak, 1030-1090 MHz reference circuit Plastic package TO-270WB-14 50 Ohm Input matching Singe ended   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   NXP Recommends MMG3005N MMRF2010N MMRF1317H                                                                                                                         

Description   Industry 4.0 applications demand superior performance and reliable communications for network synchronization, on-time data delivery, and energy efficiency—even under the most extreme operating conditions. Current manufacturing challenges require flexible platforms capable of uniting trustworthy networking protocols with modern and reliable machine-to-machine communications. A remote access unit works as an interface for machinery that can’t be accessed. This tool displays parameters, measurements and can control any features of the linked machine. This remote access unit application is based in an i.MX 6 applications processor that can be programmed with a Linux distribution and Built-in 2G/3G/GPS/Glonass.   Features GPU 3D GPU 2D (Vector Graphics) Camera Interface Cryptographic cipher engines Tamper detection Ethernet Four USB2.0   Block Diagram     Products   Category Name 1: MPU Product URL 1 i.MX 6Dual Applications Processors | Dual Arm® Cortex®-A9 @1.2GHz | NXP  Product Description 1 The i.MX 6 series of applications processors combines broad levels of integration and power-efficient processing capabilities all the way up to bleeding edge 3D and 2D graphics, as well as high-definition video, to provide a new level of multimedia performance for an unbounded next-generation user experience.   Category Name 2: Transceiver Product URL 1 TJA1057 | High speed CAN transceiver | NXP  Product Description 1 The TJA1057 is part of the Mantis family of high-speed CAN transceivers. It provides an interface between a Controller Area Network (CAN) protocol controller and the physical two-wire CAN bus Product URL 2 TJA1101 | 2nd generation PHY Transceiver | NXP  Product Description 2 TJA1101 is a high-performance single port, IEEE 100BASE-T1 compliant Ethernet PHY Transceiver. Product URL 3 Logic controlled high-side power switch | NXP  Product Description The NX5P1100 is an advanced power switch and ESD-protection device for USB OTG applications. It includes under voltage and over voltage lockout, over-current, over-temperature, reverse bias and in-rush current protection circuits.   Category Name 3: Power Management Product URL 1 14-Channel Configurable Power Management IC | NXP  Product Description 1 The PF0100 SMARTMOS Power Management Integrated Circuit (PMIC) provides a highly programmable/configurable architecture, with fully integrated power devices and minimal external components.   Category Name 4: Memory Product URL 1 NXH5104UK: 4 Mbit Serial EEPROM | NXP  Product Description 1 The NXP NXH5104 is a 4 Mbit serial electrically erasable and programmable read-only memory (EEPROM). It provides byte level and page level serial EEPROM functions, sector level protection and power-down functions.   Category Name 5: Sensor Product URL 1 Ultra-low-power, 1.8 V, 1 deg. C accuracy, digital temperature sensor with I2C bus interface | NXP  Product Description 1 The PCT2202 is an I2C bus, serial output temperature sensor available in a tiny WLCSP6 package. It requires no external components.   Category Name 6: RTC Product URL 1 PCF2123 | NXP  Product Description 1 The PCF2123 is a CMOS Real-Time Clock (RTC) and calendar optimized for low power applications. Data is transferred serially via a Serial Peripheral Interface (SPI-bus) with a maximum data rate of 6.25 Mbit/s.   Documentation i.MX 6 Temperature Sensor Module:  https://www.nxp.com/docs/en/application-note/AN5215.pdf    Tools Product Link RD-IMX6Q-SABRE: SABRE Board for Smart Devices Based on the i.MX 6Quad Applications Processors i.MX 6Quad SABRE Development Board | NXP  KITPF0100EPEVBE: Evaluation Kit - MMPF0100, 14 Channel Configurable PMIC EVB- MMPF0100, 14 Channel Configurable PMIC | NXP  OM13512: Demoboard for the SPI-bus RTC PCF2123 Demoboard for the SPI-bus RTC PCF2123 | NXP  NXH5104ADB: NXH5104A Demo Board NXH5104A Demo Board | NXP  OM13257: Universal Temperature Sensor Daughter Card for the Fm+ Development Kit Universal Temperature Sensor Daughter Card for the Fm+ Development Kit | NXP  TJA1100HN: Evaluation Board, TJA1100HN 100BASE-T1 PHY Transceiver TJA1100 Customer Evaluation Board | NXP 

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

Smart Sensor Demo Kit Highlighted Features Multi-protocol bi-directional data stream support from/to any IP-enabled remote system Data parsing and abstraction mapping layer for normalizing data from heterogeneous devices Drag-and-drop business and analytics processing logic (akin to using Visio and Excel fused together) Report and web page builder that assembles Table reports (including data for exposure to the secure API) Time-series graphs Pie, line, spark and other chart types Uploaded visuals such as photos, CAD/CAM drawings, diagrams, schematics, etc. Full location-based services incorporating Google Maps, NOKIA here, CloudMade and Open Street Maps Business Forms assembly system so you can deploy workflow for Firmware push Remote command and control (on/off, settings, reboot, etc.) Device inventory tracking and control Asset management Financial transactions from machines Many other possibilities   Description The SeeControl Cloud Service allows embedded systems engineers to quickly assemble scalable 3-tier web applications that collect, analyze and display systems data. The service is drag and drop so you don't have to script or code to create a web app. The Service natively supports the following IoT/M2M communication protocols: UDP TCP MQTT HTTP MODBUS CoAP There is additional support for vendor-specific communication stacks such as GE, CalAmp, Sierra Wireless, etc. Customers can also create their own device adapter using protocol and language of choice. You can stream data to these data adapters at http://com2.seecontrol.com. We will give you a specific port range for each protocol/device type. You can also send your data through a device API. Guidance is here. Once the data has been received by our system. You will use a data abstraction tool to define fields that are in the packets you are sending. For example, if you send a variable field called tmp_123 from a temperature sensor you will tell the SeeControl service that tmp_123 is a a number and specifically a unit of measure called "Temperature" and then select whether Celsius or Fahrenheit. Once that is done, you can use the rest of the system to build a scalable web app, typically in 1-2 days depending on how complex our solution needs to be. To see the full range of interfaces available for visualizaing IoT data and managing devices/process, you can log in to: http://cloudx.seecontrol.com user:                fslcommunity1 password:        fslcomms1 This account only shows the visualization output, not the tools used to collect and process data. To try out the whole toolset, please acquire a full demo kit. The demo kit includes a cloud account that you can connect to the sample connectivity and sensor items listed below (or any hardware/system you would like to try out). Full Bill of Materials See bottom of this page for BOM Table Basic Data (To be filled out by FSL) Demo Number: Current Version: Current Demo Reproducibility: Intended to be Modified By: Current Demo Operation: BOM: See bottom of this page Demo Video   Freescale IoT Cloud Demo Kit     System Block Diagram   Hardware Kit & Data Flow Diagram     IoT Physical Components Gateways SOC's: i.MX6 Dual Boards/Modules: Utilite Standard Box Software: https://community.nxp.com/docs/DOC-103268 Utilite Linux BSP Connectivity Software: USB Local TCP/IP over Ethernet HTTP to Cloud Sensors End User Products: Commercial Temperature and Electric Current Sensors (See below for list) Cloud Infrastructure/Services https://community.nxp.com/docs/DOC-103268 IoT System Capabilities Device Management Add Device Remove Device Device Inventory Management Check Online/Offline Status View real time and historical messages Communications/Interworking HTTP (other protocols such as CoAP, MQTT, etc. optional) Security HTTPs (secured HTTP) Middleware / Analytics / Data SeeControl Cloud Communications & Data Mapping Tool SeeControl No Coding Analytic Engine SeeControl No Coding Visualizer Note: For additional Products/Components used in this demo see bottom of this page. IoT Product Type Product/Component Vendor Research or Procure This Product/Component Gateway NXP Utilite Standard Box NXP Contact NXP IoT Center Temperature Sensor Lascar USB Temperature Logger MicroDAQ Visit MicroDAQ Website Electrical Meter eGauge eg3000 Electric Meter eGauge Visit eGauge Website In online or phone order, please ask for SeeControl Turnkey Part Number Current Transformer(s) eGauge Current Transformers eGauge Visit eGauge Website Connectivity / Messaging Middleware SeeControl No Coding IoT Cloud Service    SeeControl Get a live demo Analytics SeeControl No Coding IoT Cloud Service SeeControl Get a live demo Data Visualization SeeControl No Coding IoT Cloud Service SeeControl Get a live demo

uCP1020 IoT Gateway Module and Mbarx IoT Middleware uCP1020 IoT Gateway Module hardware Mbarx IoT Gateway Middleware TLS secure remote site connectivity Data aggregation and proxy of remote IoT devices Seamless switching between local and remote IoT sites   Mbarx System Manager GUI IoT site management tool uCP1020 IoT Gateway System-On-Module Hardware This Demo Is Probably of Interest If You: Have various remote site locations that need to be centrally connected Require remote site data aggregation and secure connectivity, across public networks Need to implement a private cloud service architecture (e.g. develop your own device interactions/workflow) Require a versatile Linux platform to deploy various gateway services Are evaluating options for RYO or commercial IoT gateway hardware Differentiation This Demo Highlights Modular, off-the-shelf IoT gateway hardware Eco-system of Mbarx IoT solutions and tools Simple, GUI driven management of remote sites Complete system-level solution for private or public cloud IoT deployments   What this Demo is All About Video Link : 4542 uCP1020 IoT Gateway Demo - Using Mbarx IoT Gateway Middleware, End-points and System Manager Tool. Demo Diagram(s) IoT Physical Components Gateways SOC: QorIQ P1020 Dual-Core Communication Processor Boards/Modules: uCP1020 IoT Gateway Module hardware Software: Arcturus Mbarx IoT Gateway middleware Arcturus management middleware  Arcturus PBX/Communications software package Arcturus Mbarx-Operations Controller work-flow management middleware Open source Linux software (Kernel mainline branch) Edge Devices SOC:2x 10/100/1000BaseT networking supported natively by the P1020 processor and on board network PHYs Modules:Various PCIe and miniPCIe based connectivity options (see wireless below) Software:Linux Wireless Connectivity Modules:GSM/LTE/HSPA/UMTS/EVDO data (depending on providers, regions and certifications).  As tested using Telit HE910 family (HEPCHGPS204T701) Modules:Wi-Fi (depending on regions and certifications).  As tested using Atheros AR9390 family. Software:Linux Sensors SOC: Peripheral connectivity supported by SPI, I2C, UART, USB, SDHC, PCIe, miniPCIe Cloud Infrastructure/Services Software/Services: Arcturus Mbarx IoT Gateway middleware is fully compatible with Mbarx IoT end-nodes such as uCMK60 based on K60, K64. Mbarx IoT protocol supports TCP/IP sockets with TLS security and simple character driven protocol Mbarx IoT Gateway middleware supports remote-site aggregation, secure connectivity and device management proxy. Optional plugs-ins for MQTT, CoAP and other popular IoT/M2M protocols. Smart Devices/Apps Software: Mbarx-Operations Controller supports cross-platform work-flow driven, operational control using a responsive HTML5 architecture. Mbarx-System Manager site-wide IoT device/node management tool is available for PCs. IoT System Capabilities Device Management Secure remote site connectivity Remote site IoT node/device aggregation Bulk device firmware updates, bulk configuration, site wide-provisioning Secure IoT node/device management and configuration Cloud/App Communications/Interworking Wi-Fi Access Point (Host AP mode), cellular data Security SSL/TLS 1.1,1.2 server and client with X.509 IoT Development Capabilities Embedded Platforms Kinetis MCUs, QorIQ 32-bit Power Architecture processors Embedded Tools Linux - kernel, driver, middleware and user space application development U-boot development and customization MQX - KSDK Services Customization and system solutions available through direct engagement - contact Arcturus Hardware and software services available - contact Arcturus IoT Product Type Product/Component Vendor Research or Procure This Product/Component End User Hardware Laptop PC Win7, Win8, Win10 or Mac Commercial Laptop PC End User Software Arcturus Mbarx System Manager Tool Commercial Arcturus Mbarx IoT and M2M Solutions End User Smart Device Arcturus uCMK60 - VoIP / IoT Board/Modules Arcturus uCMK64 - IoT Board/Modules Commercial Arcturus uCMK60 - VoIP / IoT Boards/Modules End User Edge Device TP-Link TL-SF1008P 802.3af PoE Switch Commercial TP Link TL-SF1008P End User Edge Device Linksys EA6100 Dual Band Smart Wi-Fi Router Commercial Linksys EA6100 Dual Band Smart Wi-Fi Router

Today, mobile network operators make it easy to get your own Smart Home Kit. The complexity often comes with the first setup of devices that are as diverse as the standards in which they operate. NFC promises to make this process as easy as tap and connect. The inforgraphic gives 5 reasons to equip smart homes with NFC, plus benefits for the ecosystem.

Overview The NXP Quick Charge 4+ power bank with 15-watt Qi-certified wireless power output supports all of the latest wired and wireless technologies. Equipped with Qualcomm™ Quick Charge 4+ technology, our power bank provides lightning-fast simultaneous multichannel charging of smartphones, watches, tablets, 2-in-1 products, notebooks and other devices featuring Qualcomm Snapdragon™ mobile platforms and processors. A mere 5 minutes of charging on the NXP power bank delivers 5 hours of battery life. New Power Delivery (PD 3.0) technology combines with a programmable power supply (PPS) in the NXP power bank to support Quick Charge 4+ devices and provide backward compatibility with Quick Charge 2.0 and 3.0 technologies. NXP power bank system software integration also includes wireless power and battery management, PD stacks and more programmable APIs for a fully customizable application. This new power solution leverages the many advantages and standards of USB-C with dual-way USB power delivery for input and output with Quick Charge. Anti-counterfeit and OEM-specific authentication, as well as accurate voltage, current and temperature protection deliver enhanced safety and security. Features Dual-way USB Type-C supports input & output Quick Charge for input and output, PD+PPS, QC2, QC3,QC4 2S battery supported (capability~10,000 mAh), output > 50 W Integrated wireless 15W transmitter supports fast charging for Samsung ®  and Apple ®  devices Digital control buck-boost converter One control IC controls buck-boost converter, charge, Qualcomm algorithm, PD communication and wireless power management Board

  JN-5189 SoC的多功能Timer外设支持Pulse Counter脉冲计数功能。可以参考附件文档实现这个功能。 Products Product Category NXP Part Number URL MCU JN5189 JN5189/88 (T): High Performance and Ultra-low power MCUs for Zigbee®   Tools NXP Development Board URL JN5189 Evaluation Kit for ZigBee and Thread mesh network with NFC Commissioning Advanced Development Kit for JN5189/88   SDK Development Software and ANs URL MCUXpresso SDK Software Welcome | MCUXpresso SDK Builder  Application Note Zigbee 3.0 IoT Control Bridge    

uCP1020 - IoT Gateway System-On-Module Based on QorIQ P1020, dual-core, 800MHz, communications processor 80x 80mm module, with 120-pin board-to-board connector Module contains: power distribution, DDR-SDRAM with ECC, NOR flash, (optional eMMC), network and USB PHYs, -40 to +85C parts Peripheral connectivity using SPI, I2C, UART, USB, SDHC, PCIe, miniPCIe Complete development kit available with host-board reference design Optional software stacks including Arcturus Mbarx-IoT Gateway middleware, PBX/Communications software package Embedded Linux BSP from kernel mainline branch uCP1020 - Gateway Module (80x80mm)  |  uCP1020 - Development Kit  |  uCP1020 - Module and Host-board in optional anodized aluminum enclosure This Product Is Probably of Interest If You: Are evaluating or developing an IoT or multi-service gateway Looking for turn-key, deployment-ready, system-level IoT solutions Need versatility to deploy in various types of IoT environments Need a hardware platform capable of supporting various wired or wireless network interfaces Need flexible hardware as a back-bone for various derivative products Differentiation of This Product Module design increases flexibility and reduces time-to-market Core module reduces integration complexity Full host board reference design provided Turn-key compatibility with Mbarx IoT end-point (node) devices and Mbarx System Manager IoT tools Value-add software stacks, services, support and customization available Description What this Product is All About Video Link : 4537 uCP1020 IoT Gateway SoM - Product Introduction Video Product Diagram(s) IoT Physical Components Gateways SOC: QorIQ P1020 Dual-Core Communication Processor Boards/Modules: Arcturus - uCP1020 System-on-Module Software: Arcturus Mbarx IoT Gateway middleware Arcturus management middleware  Arcturus PBX/Communications software package Arcturus Mbarx-Operations Controller work-flow management middleware Open source Linux software (Kernel mainline branch) Edge Devices SOC: 2x 10/100/1000BaseT networking supported natively by the P1020 processor and on board network PHYs Software: Linux OS Modules: Various PCIe and miniPCIe based connectivity options (see wireless below) Wireless Connectivity Modules:Connectivity options for various PCIe and miniPCIe based wireless modules (modules not provided as part of development kit) Modules:GSM/LTE/HSPA/UMTS/EVDO data (depending on providers, regions and certifications).  As tested using Telit HE910 family (HEPCHGPS204T701) Modules:Wi-Fi (depending on regions and certifications).  As tested using Atheros AR9390 family. Sensors SOC: Peripheral connectivity supported by SPI, I2C, UART, USB, SDHC, PCIe, miniPCIe Cloud Infrastructure/Services Software/Services: Arcturus Mbarx IoT Gateway middleware is fully compatible with Mbarx IoT end-nodes such as uCMK60 based on K60, K64. Mbarx IoT protocol supports TCP/IP sockets with TLS security and simple character driven protocol Mbarx IoT Gateway middleware supports remote-site aggregation, secure connectivity and device management proxy. Optional plugs-ins for MQTT, CoAP and other popular IoT/M2M protocols. Smart Devices/Apps Software: Mbarx-Operations Controller supports cross-platform work-flow driven, operational control using a responsive HTML5 architecture. Mbarx-System Manager site-wide IoT device/node management tool is available for PCs. IoT System Capabilities Device Management Secure remote site connectivity Remote site IoT node/device aggregation Bulk device firmware updates, bulk configuration, site wide-provisioning Secure IoT node/device management and configuration Cloud/App Communications/Interworking Wi-Fi Access Point (Host AP mode), cellular data Security SSL/TLS 1.1,1.2 server and client with X.509 IoT Development Capabilities Embedded Platforms Kinetis MCUs, QorIQ 32-bit Power Architecture processors Embedded Tools Linux - kernel, driver, middleware and user space application development U-boot development and customization MQX - KSDK Services Customization and system solutions available through direct engagement - contact Arcturus Hardware and software services available - contact Arcturus

LS1021A IoT Gateway/Thread Border Router Demo LS1021A Gateway Reference Design operating as Thread Border Router/Gateway Connects high density Thread 802.15.4 mesh network to cloud Sensor network detects parking spot usage in large parking structure This Demo Is Probably of Interest If You: Need high bandwidth to the cloud, other gateways, etc. w/OpenWRT Need to connect a large number of low power wireless edge devices Looking to use a Thread 802.15.4 mesh to connect sensors Differentiation This Demo Highlights Ability to quickly connect Thread network to high capability Gateway Use Linux on LS1021A to display data from sensors and also post to cloud Gateway can function as a multi-protocol gateway and Thread Border Router Description This illustrative demo leverages the LS1021A-IoT Gateway and features the KW24 Freedom board attached to the onboard Arduino headers. This FRDM-KW24 communicates with the KW24 sensor boards using the Thread protocol over 802.15.4. The embedded Linux on the LS1021A-IoT can be used to display information sent and received from the KW24 sensor boards and can also forward the information to a cloud application. The demo simulates an illustrative automated parking structure system that tracks and displays open parking spaces locally for drivers, as well as remotely to allow for managing parking availability across multiple lots for activities such as major sporting and entertainment events where tens of thousands of cars need to be directed to open parking in a short period of time. Full Listing of Products/Components Note: For full listing or additional information for Products/Components used in this demo see "This Demo's IoT Highlights" in Left Column and Additional Products/Components below that. Note: If you aren't looking at this demo in the IoT Solutions Center, please use below link to access IoT Center: LS1021A Thread IoT Gateway Demo  What this Demo is All About [Demo Video is Under Construction] Demo Diagram(s) IoT Physical Components Gateways SOC: QorIQ LS1021A Boards/Modules: QorIQ LS1021A IoT Gateway Reference Design FRDM-KW24D512 Software: Linux BSP OpenWRT Edge Devices SOC: Kinetis KW24D512 Sensor Boards/Modules: FRDM-KW24D512 Sensor Prototype Board Software: Thread Stack Prototype Sensor SW Wireless Connectivity SOC: Kinetis KW24D512 802.15.4 2.4G Transceiver Modules: FRDM-KW24D512 Software: Thread Stack w/ 802.15.4 PHY/MAC Sensors SOC: Sensor Modules: Sensor Prototype Board Software: Prototype Sensor SW IoT Development Capabilities Embedded Platforms Linux BSP w/OpenWRT Kinetis SDK Embedded Tools GNU Tools (Packaged with Linux BSP) IAR Embedded Workbench for ARM IoT Product Type Product/Component Vendor Research or Procure This Product/Component End User Hardware USB Wireless Keyboard and Touchpad Commercial Logitech Wireless Touch Keyboard K400 with Built-in Multi-Touch Touchpad, Black End User Hardware Dell 22" HDMI Monitor Commercial Dell 22" Monitor End User Smart Device Motorola XT1032 Moto G Android Smart Phone Commercial Motorola Android Smart Phone End User Edge Device Xfinity XR2 Remote Control Unit Commercial Comcast Remote Control End User Edge Device Philips HUE Bulb ZigBee Lightlink (HA 1.2) Commercial Hue, Professional Wireless LED Lighting | Philips Lighting End User Edge Device CentraLite 3-Series Appliance Module (4257050-RZHAC) (Zigbee HA 1.2) Commercial SmartPlug End User Edge Device Axis 0301004 M1011-W camera (WiFi g) Commercial AXIS M1011-W Network Camera, a small wireless IP camera | Axis Communications End User Edge Device Maxxima Style Night Light w/ sensor Commercial Night Light End User Edge Device TP-LINK TL-MR3020 3G/4G Wireless N 150 Portable Router Commercial WiFi Router

Demo NXP’s new MRF13750H transistor delivers 750 W CW for 915 MHz applications. Based on 50 V silicon LDMOS, the MRF13750H is an attractive alternative to vacuum tubes for very high power industrial systems. Applications range from industrial heating/drying, curing, and material welding, as well as particle accelerators Product MRF13750H 750 W CW 915 MHz Applications Industry’s highest power for 915 and 1300 MHz 50 V LDMOS 915 MHz reference circuit 750 W CW Gain 19.5 dB Efficiency 63%

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

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

    Features QorIQ Processing Platforms BSC9131 SoC based LTE small cell Zero intrusion by fitting in a lamppost’s existing photocell socket Avoids costly site acquisition and lengthy planning procedures Backhaul agnostic – Fiber, copper, PoE wireless P2P Trust architecture provides secure computing environment Block Diagram

  Description Faced with limited resources and booming demand, the energy industry seeks greater efficiencies within complex energy management and distribution processes, all while providing the best consumer experience. To achieve better service and smarter, streamlined processes, energy providers require reliable, real-time access to data.   A smart plug controls the energy supply of devices connected to it. Using a ZigBee® interface this device connects to a gateway where you can send commands to turn on/off or see the power consumption of the device connected to it.   Features   Tamper detection with time stamping USB battery charging (CC/CV) and Energy Star 2.0 compliant Very low current solution for long battery life System BOM is low in component count and cost 6 LED drivers Integrated power amplifier for long range and robust communication   Block Diagram     Products   Category Name 1:  MCU Product URL 1 Arm® Cortex®-M0+|Kinetis® KM1x 50 MHz 32-bit MCUs | NXP  Product Description 1 The KM1x include a high-accuracy, real-time clock delivers less than 5 PPM drift over temperature. Metrology firmware for calculating active, reactive and apparent power using a variety of algorithms is provided free of charge.   Category Name 2: Power management Product URL 1 HV start-up flyback controller with integrated MOSFET for 5 W applications, f~burst = 1270 Hz | NXP  Product Description 1 The TEA1721 is a small and low cost module Switched Mode Power Supply (SMPS) controller IC for low power applications (up to 5 W) and operates directly from the rectified universal mains input. Product URL 2 PCA9410/9410A | NXP  Product Description 2 The PCA9410 and PCA9410A DC-to-DC converters are optimized for battery-powered applications. High efficiency of up to 94% enables an extended battery life in all portable designs.   Category Name 3: Wireless Product URL 1 Zigbee and IEEE 802.15.4 wireless microcontroller with 512 kB Flash, 32 kB RAM | NXP  Product Description 1 The JN5169 is an ultra-low-power, high-performance wireless MCU suitable for ZigBee® applications.   Category Name 4: Peripherals Product URL 1 PCA9955BTW | NXP  Product Description 1 The PCA9955B is an I2C-bus controlled 16-channel constant current LED driver optimized for dimming and blinking 57 mA Red/Green/Blue/Amber (RGBA) LEDs. Product link 2  PCF2129 | NXP  Product Description 2 The PCF2129 is a CMOS Real Time Clock (RTC) and calendar with an integrated Temperature Compensated Crystal (Xtal) Oscillator (TCXO) and a 32.768 kHz quartz crystal optimized for very high accuracy and very low power consumption.   Documentation Power Management for Kinetis:  https://www.nxp.com/docs/en/application-note/AN4503.pdf   Tools   Product Link TWR-KM34Z50M: Kinetis M Series Tower System Module TWR-KM34Z50M|Tower System Board|Kinetis MCUs | NXP  TEA1721BDB1065: TEA1721 universal mains white goods flyback SMPS demo board TEA1721 universal mains white goods flyback SMPS demo board | NXP  OM15020: JN5169 USB Dongle for ZigBee JN5169 USB Dongle for ZigBee | NXP