LS1021A IoT Gateway Reference Design Included in Kit Linux BSP and OpenWRT Reference Design (schematics, layout and BOM available) HW Quick Start Guide and User's Guide This Product Is Probably of Interest If You: Need a ready to use high capability IoT Gateway Reference Platform Need built-in WiFi and Arduino connectivity Want a ready to manufacture HW design Key HW Features: 1 Gb QSPI NOR Flash 1 GB DDR3L SDHC slot—up to 32 GB 4 GB populated 1x One Gb/s Ethernet (SGMII) 1x One Gb/s Ethernet (RGMII) 2x mini PCIe (x1) slots 1x mSATA slot 1x Terminal (USB to UART) x Four wire LP-UART to Arduino connector (Thread, ZigBee, Bluetooth, etc.) • Muxed LCD/QE interface 24-bit LVDS LCD interface QE UART to header for PROFIBUS or RS485 (external transceiver required) • USB 3.0 2x ports—USB-A 2x ports to mini PCIe slots • 13x GPIO or 8x FTM (PWM) • 6x Interrupts • 1x SPI • I2C1 bus Board EEPROM Boot EEPROM Arduino Connector Sensors/PHYs, etc., TBD • I2C2 GPIO expansion ADC Sensors/PHYs, etc., TBD Certification: FCC Class B and CE What this Product is All About Product Diagram(s) Click here to Buy the LS1021A IoT Gateway Reference Design IoT Physical Components Gateways SOC: QorIQ LS1021A Boards/Modules: QorIQ LS1021A IoT Gateway Reference Design FRDM-KW24D512 Software: Linux BSP OpenWRT

This demo uses a magnetic field around a magnet to simulate Hydraulics and Pneumatics system control of a valve.   Demo / product features Valve Controller SoC: MC34SB0800 (Octal valves driver) and MC34SB0410 (Quad valves driver) Integrated coil drivers with current regulation or PWM mode Safe switching off mode for safety and robustness SPI interface to command all functions Fault management (under/overvoltage, over temperature, open load, overcurrent…)   NXP Recommends Product Link Tower Board - SB0800, Octal Valve/Pump Controller SoC Tower Board - SB0800, Octal Valve/Pump Controller SoC | NXP  Tower Board - SB0410, Quad Valve/Pump Controller SoC Tower Board - SB0410, Quad Valve/Pump Controller SoC | NXP  Processor Expert Valve Driver based on MC34SB0410 or MC34SB0800 SB0410 / SB0800 Valves Controller | NXP  Valve Driver based on MC34SB0410/MC34SB0800 Embedded Software: Valve Driver | NXP  Octal Valve Controller System on Chip https://www.nxp.com/products/power-management/smart-switches-and-drivers/low-side-switches/octal-valve-controller-system-on-chip:MC34SB0800?&fsrch=1&sr=1&pageNum=1 Quad Valve Controller System on Chip https://www.nxp.com/products/power-management/smart-switches-and-drivers/low-side-switches/quad-valve-controller-system-on-chip:MC34SB0410?&lang_cd=en          

Introduction Overview The following demo is part of a bundle of examples that shortly will be available in the LSDK. As can be seen in the video, there is a menu for the user to select the desired demo and start testing the different approaches the FRWY LS1046A TPU is capable of executing. These examples aim to demonstrate AI/ML capability through multiple “dockerized” demos including face recognition, Industrial safety & security -MPU and TPU versions-, People counter using the CPU and a pose detection demonstration. By using the native PCIe 3.0 of the LS1046A MPU, is possible to showcase the ML frameworks offload and acceleration via Coral Tensor Processing Unit. The below video shows one of the ML examples for pose detection of a person by using a simple USB camera plugged into the LS1046A FRWY board. Using the ML frameworks from Coral Tensor, the body movements and positions are detected by using the joints as the reference for movement detection of the body. As in the video is mentioned, the performance enhancement by using the TPU versus the CPU, improves significantly the frames per second from ~5 fps to ~30 fps. Block Diagram Video Products Product Link FRWY LS1046A TP LS1046A Freeway Board | NXP  Coral M.2 Accelerator M.2 Accelerator A+E key | Coral  HD Webcam https://www.amazon.com/gp/product/B07K95WFWM/ref=ppx_yo_dt_b_search_asin_title?ie=UTF8&psc=1

Overview The 3-phase PMSM Vector Control using Quadrature Encoder on based on Kinetis® K40 MCUs reference design demonstrates the ability of the Kinetis K40 Arm® Cortex®-M4 MCU to drive the advanced motor control application. Targeted at the NXP® Tower® rapid prototyping system as a hardware development platform. Together with available embedded source code, you can quickly build own industrial drive application. For the successful execution of the vector control algorithm, the information on the motor shaft position is critical. The quadrature encoder position information is known in the entire motor speed range, allowing the motor start with full torque at zero speed. Features Vector control of the PMSM using the quadrature encoder as a position sensor Targeted at the Tower ®  rapid prototyping system (K40 tower board, Tower 3-phase low voltage power stage) Vector control with a speed closed loop Rotation in both directions Application speed range from 0% to 100% of nominal speed (no field weakening) Operation via the user buttons on the Kinetis ®  K40 Tower board or via FreeMASTER software Block Diagram Design Resources

What is an IoT Gateway? An IoT Gateway is essential part of a Trust enabled, power-efficient IoT deployment in buildings, homes, street and industrial sites. The low-power foot-print is achieved by having low-power, low-cost sensor nodes connecting over low-power, shorter range radio networks. The IoT Gateway bridges between these wireless sensor networks and the enterprise or carrier networks.   Furthermore, the IoT gateway also provides a platform for local data filtering and decision making. This is context aware computing. In near future, the cost of processing data will be less than the cost of moving data across a network and less than the cost of data storage. It makes sense to distribute the intelligence and process/filer data close to the data source. In this session, one of the first public demo’s of LS1021A, NXP will demonstrate an ready-to-use IoT gateway platform together with sensor and cloud connectivity. Value Propositions    Coupling IoT to SDN and Big Data. LS10121A IoT Gateway   Customer-premise IoT Gateways – Industrial, Enterprise, Home, Street-side     Distributed/Local Intelligence for real-time decision making and management (context aware computing)                                                                     High-availability, Trust Enabled networking, highly power efficient      NXP Recommends: Product Link LS1021A-IoT Gateway Reference Design LS1021A-IoT Gateway Reference Design | NXP 

This demo shows how to load the different demo codes for the kit FRDM-K64 with FRDM-FXS-MULT2B boards, to access the different sensors included in the card and use it to create your own applications. This demo runs on a K64 freedom board and uses the MCUXpresso IDE, the FRDM-K64 with MULT2B SDK and a serial terminal, in this case TeraTerm. Video: Software Links: Driver FRDM-K64: http://developer.mbed.org/media/downloads/drivers/mbedWinSerial_16466.exe MCUXpresso (requires NXP account): https://www.nxp.com/design/software/development-software/mcuxpresso-software-and-tools/mcuxpresso-integrated-development-environment-ide:MCUXpresso-IDE SDK Builder (requires NXP account): https://mcuxpresso.nxp.com/en/select_config_tools_data TeraTerm: https://osdn.net/projects/ttssh2/releases/ NXP Product Link Freedom Development Platform for Kinetis® K64, K63, and K24 MCUs FRDM-K64F Platform|Freedom Development Board|Kinetis MCUs | NXP  Freedom Development Platform for NXP® Sensors with Bluetooth®. Freedom Development Platform Bluetooth® | NXP 

  Description NXP delivers all-encompassing solutions engineered to meet the environmental, longevity and energy-efficient requirements of smart buildings. For air conditioner controlled environments, different MCUs are required for specific end-products such as: room air conditioning systems, air conditioning internal or external units, air conditioning remote control and Heating Ventilation and Air Conditioning (HVAC). Block Diagram Products Category Name 1 Microcontroller Product URL 1 Arm Cortex-M4|Kinetis KE1xF 32-bit 5V MCUs | NXP  Product Description 1 The KE18F is a highly reliable 5 V MCU with a serial communication interface for industry applications. The integrated DSP along with the clock interfaces are the perfect choice for Air Conditioner motor control. This can be controlled using the 4 FlexTimers which offers up to 32 standard channels for PWM signal generation. The KE18F also has a 12-bit ADC with up to 16-channel input per module up to 1Msps and 3 high-speed analog comparators with internal 8-bit DAC. Product link 2 Scalable Entry Level 32-bit Microcontroller (MCU) based on Arm® Cortex®-M0 Cores | NXP  Product Description 2 The LPC11D00 is a low-cost 32-bit MCU, and it is designed for 8/16-bit microcontroller operations. This MCU is an Ultra-low power consumption for longer battery life that can be used with an LCD driver for remote control purposes.   Category Name 2 DC/DC Converter Product URL 1 https://www.nxp.com/products/power-management/pmics/dc-to-dc-solutions/3.0-mhz-500-ma-dc-to-dc-boost-converter:PCA9410_9410A Product Description 1 The PCA9410 power converter is the perfect fit for providing a 5V MCU enough power to correctly controlling with a Zigbee transceiver and a Liquid Crystal Display (LCD). All of this is powered with 1.5 V batteries.   Category Name 3 Temperature Sensor Product URL 1 LM75B: Digital Temperature Sensor | NXP  Product Description 1 The LM75B sensor can be configured to store programmable overtemperature shutdown and hysteresis limits to communicate them via the i2c-bus. This makes the LM75B the best solution to configure a temperature threshold and work with the air conditioner system.   Category Name 4 AC/DC Converter Product URL 1 TEA172x | NXP  Product Description 1 The TEA172X enables power engineers to design a reliable, cost-effective and efficient adapter supplies with low no-load power consumption. These features result in the TEA172X needing a minimum number of external components.   Category Name 5 LED Driver Product URL 1 PCA9955BTW | NXP  Product Description 1 The PCA9955B operates with a supply voltage range of 3 V to 5.5 V and the constant current sink LED outputs to allow up to 20 V for the LED supply. The PCA9955B is the best option for individual PWM controller for up to 16 LED drivers for different LED states.   Category Name 6 Transceiver Product URL 1 QN908x: Ultra-Low-Power Bluetooth Low Energy System on Chip (SoC) Solution | NXP  Product Description 1 The QN908x is the perfect BLE solution for human-interface devices for its high-performance and highly integrated capabilities all this supported in a well-known secure protocol. The QN908x small dimensions and low component count reduces overall system size and cost for the end product. Product URL 2 IEEE802.15.4 wireless microcontroller with 64 kB Flash, 8 kB RAM | NXP  Product Description 2 The JN5161 is an ultra-low-power, high-performance wireless MCU supporting ZigBee Green Power. The JN51561 has a 128-bit AES security processor and a MAC accelerator that fits perfect in every smart-home solution, the low component count and low-cost BOM minimizes the production cost.   Category Name 7 Motor Driver Product URL 1 Fm+ I2C-bus advanced stepper motor controller | NXP  Product Description 1 The PCA9629A provides highly flexible control of stepper motor, off-load bus master/micro and significantly reduces I²C-bus traffic. This is very helpful in this case because there might be at least six i2c slaves connected to the same bus. The PCA9629A provides the logic control required to drive a four-phase stepper motors. Product URL 2 GD3000 |3-phase Brushless Motor Pre-Driver | NXP  Product Description 2 The GD3000 gate driver is controlled by a PWM signal created from the KE18F, it operates off of a single power supply with a wide range from 6V to 60V with 75V transient protection. The GD3000 has protection against reverse charge injection from CGD and CGS of external FETs, This feature is required to protect the whole control system. Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN5387.pdf  Refrigerator Compressor BLDC Sensorless https://www.nxp.com/docs/en/application-note/JN-AN-1171.zip  ZigBee Light Link Solution  

  From GUI to prototype to Product - Fast The evolution of Embedded GUI Design   Products ARM Cortex-A9|i.MX 6 Multicore Processors   Links NXP Partner Program - Crank Software Partner Profile   Other Demo Videos Storyboard Demo Launcher on Freescale's iMX6 Sabre Lite From Photoshop to Crank Storyboard Suite to i.MX Series Hardware in Minutes

Demo NXP’s new Doherty amplifier-optimized power transistors provide high power, small footprints, and higher frequencies required for use in current and next-generation cellular base stations. The four new transistors collectively cover cellular bands from 1805 to 3600 MHz, meeting the needs of wireless carriers for superior performance at higher frequencies     Demo / product features A2G35S160-01S / A2G35S200-01S 48 V GaN Doherty Power Amplifier Solution Frequency 3400–3500 MHz Asymmetrical Doherty performance at 8 dB OBO Gain 13.8 Db Efficiency 45.8% Peak power 55.2 dBm NI-400S-2S package   A2G26H281-04S 48 V GaN Doherty Power Amplifier In-package Solution Frequency 2496–2690 MHz Doherty performance at 8 dB OBO Gain 15.3 dB Efficiency 57% Peak power 54.6 dBm NI-780S-4L package   A2G22S251-01S 48 V GaN Single-ended Transistor Frequency 1805–2200 MHz Class AB performance at 7 dB OBO Gain 18 dB Efficiency 35% Peak power 53.8 dBm NI-400S-2S package   NXP Recommends A2G22S251-01S – Single-ended GaN for 1805-2200 MHz cellular base stations A2G26H281-04S – In-package asymmetric Doherty GaN for 2496-2690 MHz cellular base stations A2G35S160-01S – Single-ended GaN for 3400-3600 MHz cellular base stations A2G35S200-01S – Single-ended GaN for 3400-3600 MHz cellular base stations   Fast Track 5G with NXP

Description Earlier this year NXP organized a promotional opportunity for amateur radio enthusiasts to use their creativity and build their own power amplifier designs. NXP received numerous creative submissions in this competitive Homebrew RF Design Challenge. We appreciate the dedication and enthusiasm from the community that made this contest a success. First place winner An MRF101AN broadband amplifier design with 1 W Input, 100 W Output 1.8-54 MHZ Amplifier deck. (For more information visit:NXP MRF-101 - RFPowerTools )  It is an amplifier with a bandwidth of 1.8MHz to 54MHz. Maximum output power of 100W up to 30MHz and 70W up to 50MHz. Maximum power supply 50V to 4A, with a Voltage Standing Wave Ratio of 1.5:1 maximum. The design dimensions of the PCB is 5x5 cm (2x2 in). and 310g weight including fan and heat sink. Second place winner A 600W broadband HF amplifier using affordable LDMOS devices (For more information visit: https://qrpblog.com/2019/10/a-600w-broadband-hf-amplifier-using-affordable-ldmos-devices/  ) This project is meant to demonstrate the capabilities of the MRF300 transistors as linear broadband devices in the 2-50MHz range and to be used by radio amateurs as a starting point for a medium-high power amplifier. This is also my entry to the NXP Homebrew RF Design Challenge 2019. To achieve the target of 600W output while also minimizing the level of even-number harmonics, a “push-pull” configuration of two transistors is used. Luckily, the manufacturer made it easy to design the PCB layout for such a thing by offering two versions (the MRF300AN & MRF300BN) that have mirrored pinout. The common TO-247 package is used, with the source connected to the tab. Each individual MRF300 LDMOS transistor is specified at 330W output over a 1.8-250MHz working frequency range, a maximum 28dB of gain and over 70% efficiency. The recommended supply range is 30-50Vdc. By studying the specifications, it looks like with correct broadband matching and some operational safety margin we can get close to 600W output at a voltage of around 45V across a resonably large bandwidth; the aim is to cover 1.8 to 54MHz. Main challenges when designing this amplifier are related to achieving good input and output matching over the entire frequency range as well as maintaining high and flat gain. Good linearity and a low level of harmonic products are mandatory. As the TO-247 is not a package specifically designed for high-power RF, there are some challenges with thermal design and PCB layout as well. Information taken from the essay by the winner. Third place winner A High Efficiency Switchmode RF Amplifier using a MRF101AN LDMOS Device for a CubeSat Plasma Thruster (For more information visit: Research - SuperLab@Stanford ) The Class E amplifier utilizes the active device as a switch, operating in only cutoff (off) and saturated (on) conditions. This minimizes the overlap of voltage and current, reducing losses in the active device. To further reduce loss the Class E amplifier utilizes an inductively tuned resonant network to achieve zero voltage switching, bringing the voltage across the switch to zero before turn on, eliminating energy stored in the output capacitance of the active device that would otherwise be dissipated. This is achieved with an inductively tuned series resonant output filter.  In the Class E amplifier losses are almost entirely determined by the current conducted by the active device so a high drain impedance is desired to maximize efficiency. The drain impedance is ultimately limited by the voltage rating of the switch. For our desired output power of 40W and the maximum voltage rating of 133V for the MRF101AN this impedance is still less than 50 ohms, so a L match circuit is used to match the drain impedance to 50 ohms. The load network in our design provides a drain impedance of 15.4+12.8j. As the MRF101AN will operate in saturation a high drive level is desired. To eliminate the need for a preamplifier and allow for digital control, we use a high speed gate drive chip typically used in switch-mode power supplies, LMG1020, to drive the MRF101AN instead of a RF preamplifier. A resonant network is used to provide voltage gain at the fundamental and third harmonic, providing a quasi-square wave on the gate which helps insure the device remains in saturation. Conclusion It was a close call and highly competitive! Each participant had their own creative, unique and impressive way of displaying the capabilities of these new parts. NXP is always up for new design challenges. Ready for the next challenge?

Overview This reference design demonstrates a vector control technique of a 3-phase AC induction motor with a position encoder coupled to the motor shaft. The algorithm runs on Our 56F80X or 56F83XX Digital Signal Controller as the dedicated motor control device It can be adapted to NXP® 56F81XX Digital Signal Controllers The speed closed loop ACIM drive is implemented The system is targeted for applications in both industrial and appliance fields (e.g. washing machines, dishwashers, industrial drives, machine tools, variable speed drives, elevators etc.) Features Vector control technique used for ACIM control Targeted for 56F80X, 56F83XX, and 56F81XX Digital Signal Controllers Running on a 3-phase AC induction motor control development platform at variable line voltage 115/230V AC Encoder used for a speed calculation Control technique incorporates: Speed control loop with inner q axis stator current loop Rotor flux control loop with inner d axis stator current loop Field-weakening technique Stator phase currents measurement method DC-Bus ripple elimination Motor and generator mode DC-Bus brake Overvoltage, undervoltage, overcurrent and overheating fault protection FreeMASTER software control interface and monitor Block Diagram Board Design Resources

Demo Owner David Lopez Explore this SafeAssure solution for ASIL D applications. This highly optimized Qorivva MCU and system basis chip (SBC) solution offers independent fail-safe monitoring for power management. It also features MCU external assessment of SBC architecture and concept to fit for ISO 26262 within an optimized ecosystem.   Features Safe Assure solution to fit for ASIL D applications Highly optimized SBC + MCU solution inside a new EVM ecosystem Independent fail-safe monitoring unit for power management and MCU External assessment of SBC (System Based Chip) architecture and concept fit for ISO 26262 MC33907 independent from physical and electrical stand point. It is Monitoring MCU and Power Management Presenting different components for the safe assure program Featured NXP Products Qoriva MCU MPC5643L MC33907 MC33908 Development Hardware Used KIT33908MBEVBE: Evaluation mother board - MC33908, Safe System Basis Chip with Buck and Boost DC/DC up to 1.5 A on Vcore

Demo   Features Ultra high definition Gigabit wireless residential gateway and NEW Quantenna Wi-Fi Highest prformance, lowest overhead home WLAN with Quantenna 11ac 4x4 QSR1000, Path to 10 G Wireless 8x8 performance Quad Core ARM®-based 64-bit option • with QorIQ LS1043A processor   Featured NXP Products LS1043A - Fact Sheet .pdf      

Demo This demo shows the abilities of the T4240 processor in Object and NAS storage applications.  Multiple 10G Ethernet ports provides leading edge storage area networking connectivity while the low power and inherent reliability of the T4240 provide a secure and significant cost and performance advantage Vs. competitive solutions.     Features Dual SAS or SSD controllers with up to 24 drives Dual QorIQ T4240 processors with high-performance failover/synchronization path Dual redundant power supplies Featured NXP Products QorIQ T Series T4240/T4160/T4080 24/16/8

Explore MC06XSD200, MC10XSD200, MC16XSD200 and MC50XS4200 eXtreme switch products that are showcased using the Tower System for industrial lighting and motor applications. NXP's family of intelligent, dual high side eXtreme switches for 36 V systems offers devices with current capability ranging from one to 12 A DC that are fully compatible in footprint and software within the PQFN sub family. Each output can be programmed to be used for any kind of loads, including lamps, LEDs, motors or solenoids. This allows customers to design a flexible module which can become specific and optimized for a given application through software. NXP's 36 V eXtreme switch solution provides robust design, intelligence and safety needed for industrial applications up to 36 V supply voltage. With increased integration, the switch drives lighter-weight, smaller systems and a lower component count.       Features Up to 12 A steady-state current per channel Separate bulb and DC motor latched over-current handling Sleep mode with minimal supply current (< 10 µA @ 24 V) Individually programmable internal/external PWM clock signals Overcurrent, short-circuit, and overtemperature protection with programmable auto-retry functions Accurate temperature and current sensing Open-load detection (channel in OFF and ON state), also for LED applications (7.0 mA typ.) Normal operating range: 8.0 - 36 V, extended range: 6.0 - 58 V 3.3 V and 5.0 V compatible 16-bit SPI port for device control, configuration, and diagnostics at rates up to 8.0 MHz Compatible PCB foot print and SPI software driver among the family These products are included in NXP's Product Longevity Program with assured supply for a minimum of 15 years after launch Featured NXP Products MC06XSD200: MC06XSD200, Dual 6.0 mOhm High Side Switch - Data Sheet MC10XSD200: MC10XSD200, Dual 10 mOhm High Side Switch - Data Sheet MC16XSD200: MC16XSD200, Dual 16 mOhm High Side Switch - Data Sheet MC50XS4200  

Demo Implementation of CarPlay on an NXP Processor highlighting Siri control, with Linux OS Features: CarPlay head unit implementation developed and available from NXP Professional Services, just one of many available functions for auto infotainment. Available for several NXP processors running Linux, including the i.MX6D and i.MX6Q, and the SABRE for Automotive Infotainment Development system. _______________________________________________________________________________________________________ Featured NXP Products: NXP Software for Apple Carplay|NXPhttp://www.nxp.com/products/software-and-tools/run-time-software/professional-services-software-technology/nxp-software-technology-for-carplay:SOFTWARE-APPLE-CARPLAY Professional Services Software Technology|NXP i.MX6Q|i.MX 6Quad Processors|Quad Core|NXP SABRE-2|Automotive-Infotainment|i.MX6|NXP _______________________________________________________________________________________________________

Description    NXP’s Personal Network Attached Storage (NAS) solution enables portable personal storage to be shared through an internal protocol (IP) or Wireless network allowing users to share photos, data, stream music or videos, backup and recovery of data over the local area network in a completely secure environment. In addition, the solution can support gateway features such as packet forwarding, cloud connectivity via Ethernet, Wi-Fi or LTE. This NAS solution offers significant advantages to consumer and SMB environments, including: Hardware-accelerated Raid for data parity and recovery, a reduced bill of materials (BOM) and ease-of-use associated with an IP network that most business and consumers already find familiar. Based on the QorIQ Layerscape LS1012A processor and the Network Attached Storage Application Solution Kit (ASK), the personal/consumer NAS solution offered by NXP allows developers to easily build storage applications leveraging the highly-optimized and feature rich ASK software stack along with the small form factor, low-power consumption and packet processing capabilities enabled by LS1012A processor. NXP provides an integrated platform solution (SW and HW) helping the customer to reduce his time to market, increase security and increase performance by leveraging the packet accelerators within the QorIQ® Layerscape LS1012A processor while delivering high NAS performance and IP forwarding applications with reduced load on the Arm® core. In addition, NXP LS1012ARDB supports a full set of popular interfaces such as SATA, USB 3.0, PCIe and 2.5/1Gigabit Ethernet for LAN and WAN, allowing customers and operators to securely connect storage devices with the cloud. Features Integrated Platform Solution Commercial Market Proven Software Solution Hardware Offloading Popular Connectivity Flexible and Optimized Software Architecture Use Cases Personal Storage Consumer Network Attached Storage (NAS) Consumer Direct Attached Storage (DAS) Battery Powered Portable NAS Wireless Personal Storage Media Gateway Chip on Drive Wi-Fi SSD and Small/Portable Drive Ethernet Drives Block Diagram Products Category Name MPU Product URL Layerscape LS1012A Communication Processor for the IoT | NXP  Product Description The QorIQ® LS1012A processor, optimized for battery-backed or USB-powered, space-constrained networking and IoT applications Category Name DC Regulator Product URL MC34VR500 | Multi-Output DC/DC Regulator | NXP  Product Description The NXP® MC34VR500 power management solution for network processor systems is a high-efficiency, quad buck regulator with up to 4.5 A output and five user-programmable LDOs. Tools Product URL QorIQ® LS1012A Development Board QorIQ® LS1012A Development Board | NXP  Layerscape FRWY-LS1012A board FRWY-LS1012A Development Platform | NXP 

Demo Watch this video showing how NXP shined at International Microwave Symposium 2017. It includes our RF team and the products and technologies being shown for cellular infrastructure, industrial and commercial solutions Products shown at IMS 2017 Cellular LDMOS Finals Cellular LDMOS Drivers Cellular GaN Solutions RF Industrial RF Aerospace and Defense Cocoon Radar Demo Kit 5G Cellular Base Station Demo Links http://www.nxp.com/5Gradio http://www.nxp.com/Airfast http://www.nxp.com/RFGaN http://www.nxp.com/RFOutdoorSmall http://www.nxp.com/products/rf/rf-power-transistors/rf-broadcast-and-ism:RF-BROADCAST-ISM-HOME http://www.nxp.com/products/rf/rf-power-transistors/rf-aerospace-and-defense:RF-AEROSPACE-DEFENSE-HOME

       由于RT系列没有内置 Flash，大多数用户会选择外部 QSPI Flash 作为应用代码和数据的非易失存储设备，同时外部Flash的大容量在满足用户代码存储需求之外也会为用户提供了足够的灵活空间存储应用数据，但是其中涉及到的对数据读擦写以及用户的应用程序均需要在外部 Flash 执行，这为 Flash 的操作带来了麻烦。        对于在XIP（eXecute-In-Place）模式下的应用，对Flash读擦写的操作需要在内部 RAM 里执行，而RT系列由于高主频而引入了内核 Dcache 以及 Flexspi 模块自带的 Pre-fetch 功能，对外部 Flash 的操作会有很多需要注意的地方，这些问题在带有 RTOS 的系统里则更是突显出来，而无论在 XIP 模式下的裸机还是基于 RTOS 方式对 Flash 的操作，SDK 里均没有提供例程可供参考。        本参考方案来自很多客户的实际应用需求，所以编写了基于 FreeRTOS 下的对片外 QSPI Flash 的读擦写操作，客户可以基于此例程移植到自己的应用里面做相关的应用开发，并配套对应的指导文档提醒用户在移植过程中需要注意的几个常见的 tips。 Products Product Category NXP Part Number URL MCU MIMXRT1021 i.MX RT1020 Crossover MCU with Arm® Cortex®-M7 core MCUXpresso SDK Software SDK v2.6.1 Welcome | MCUXpresso SDK Builder    Tools NXP Development Board URL MIMXRT1020-EVK MIMXRT1020-EVK: i.MX RT1020 Evaluation Kit

  Overview The USB Type-C allows multi-function signaling over the same connector. Our active cable application supports the connectivity of data, video, security, and power over a single connector. The active cables system for Type-C supports up to 10 Gbps. The MCU provides fundamental signal processing and management duties. It communicates with both the signal conditioner and USB PD PHY to organize signal traffic and power flow. Interactive Block Diagram Recommended Products Category Products MCU Kinetis® K Series: High-Performance Microcontrollers (MCUs) based on Arm® Cortex®-M4 Core | NXP    LPC800 Series: Low-Cost Microcontrollers (MCUs) based on Arm® Cortex®-M0+ Cores | NXP  Authentication A1006 | Secure Authenticator IC: Embedded Security Platform | NXP  Signal Conditioners SuperSpeed USB 3.0 redriver | NXP    PTN36043A: USB Type-C SuperSpeed active switch | NXP  USB PD PHY PTN5100 | NXP    PTN5100D | NXP    PTN5150 | NXP    Featured Videos Link NXP USB Type C | NXP  USB Type C Shield Board | NXP  NXP® End to End Secure USB Type-C Solution | NXP  Documentation Link Features Paving The Way for USB Type-C Connectors  Delivering data, video, security, and power in one small, easy-to-insert connector, the new USB Type-C connector. PTN5110N PD PHY application programming guide  PTN5110N is a 1-port TCPC (Type-C Port controller) compliant USB Power Delivery (PD) PHY IC   Training Link USB Type-C Overview - Part 1| Introduction to USB Type-C | NXP  Authentication for USB Type-C - Part 1 | Introduction to NXP Identification & Security | NXP  NXP USB Type-C Solution - Part 1| Overview of NXP Secure Interfaces & Power Solutions | NXP    Community Links Link Other NXP Products  Secure Authentication  Introduction to USB Type-C and Type-C Solutions from NXP  USB Type-C Overview  MHW-N1910 Authentication for USB Type-C