Demo Owner: Pejman Kalkhoran Boundary Devices Pejman Kalkhoran describes the Nitrogen family at the 2014 FTF Americas 2014. Pejman demonstrates the Nitrogen 6_Lite featuring i.MX 6Solo, Nitrogen6X and Nitrogen6_MAX. These single board computers are great for software development and mass production.   Features Demo shown show 3 Single board computers based on i.MX6 processors: Nitrogen 6_Lite, Nitrogen6X and Nitrogen6_MAX Evaluate processor or develop their use Hardware and software development OS shown WinCE 7, Yocto Linux, Android 4.3 (Jelly Bean)   Links ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Boundary devices  

Demo High Performance Enterprise Access Point OEM Reference Solutions for Layerscape and QorIQ families.  Demo showcases 802.11AC based Enterprise Access Points showing >2.2Gbps of WIFI with Dual 11AC WIFI cards with very low CPU to provide head room for additional applications to be run.  OEM  Alpha Networks & Embedded Planet Reference Solutions for T1023 and LS1043 Features Wireless Performance up to 2.5Gbps Maximum ARM A53 or Power PC application headroom Proven Wireless partners Quantenna, Celeno & QCA Support for new multi-user MIMO transmission to groups of clients NXP Recommends QorIQ T1024/14 and T1023/13 Dual- and Single-Core C QorIQ LS1043A and LS1023A Multicore Communications

Demo WaRP7 is an open source platform backed by the development community, design and manufacturing capabilities of element14. Features: CPU:  NXP i.MX 7Solo applications processor (Cortex TM -A7/Cortex TM –M4) Memory: 8GB eMMC 5.0 and 4Gb LPDDR3 Connectivity: WiFi, Bluetooth, BLE, USB-OTG, NFC Multimedia I/F: Camera, MIPI Display, Audio Sensors: Accelerometer, Barometer, Gyroscope Power: PMIC, Battery charger  BSP: Linux 3.14, Android 5.1 __________________________________________________________________________________________________________________ Featured NXP Products: i.MX7D: i.MX 7Dual Processors - Heterogeneous Processing with dual ARM® Cortex®-A7 cores and Cortex-M4 core Link WaRP7

Timing Attack demo The Timing Attack demo shows the importance of securely implementing a PIN verification. If a PIN verification is implemented with operations which are not time-invariant - for example an if-else construction - it is possible to identify when an incorrect PIN digit is being compared by observing the timing information of the corresponding EM side-channel measurement. By iterating through all possible values of a PIN digit the correct character will be identified in a maximum of 10 attempts.   To make the PIN query secure, a time-invariant comparison has to be implemented. For example, a bitwise XOR comparison and subsequent OR operation for all PIN digits, ensures the same time is taken for all possible comparisons. This scheme is illustrated in         the block diagram.                      Simple Power Analysis demo The RSA-Algorithm implemented in the Simple Power Analysis demo application is reduced to a simple 8-Bit implementation for illustrative purposes. The physical smart card interface used is contact-based.   By monitoring the voltage drop across a shunt resistor it is possible to measure the power consumption of an RSA operation on a digital oscilloscope. Observation of the resulting measurements reveal that it is possible to visually distinguish  single square operations from square and multiply operations. By iteratively logging this sequence of operations, the bits of the exponent, that is the secret key, can be directly identified.   By using countermeasures like the square and always multiply algorithm, the decoding of the exponent bits can be prevented and the key protected. The square and always multiply algorithm is illustrated in the block diagram.           Fault Attack demo The Fault Attack demo shows what can happen at software execution, if a flashlight is fired on a decapsulated chip which has no security measures.   With simple tools – a mechanical grinding tool and some chemical etchant - it is possible to expose the surface of the chip and crudely inject photons into the sensitive silicon substrate.   In this case the flashlight causes a skip in the execution of the PIN verification code if the flash is discharged close to the surface at the correct moment.   In normal function expiration the UserPin is either correct or incorrect and access to the data is granted or denied accordingly. With a successful flashlight attack it doesn’t matter which value for UserPin is entered - after several tries the attacker skips the query and has access to the secret data.                     RFID Relay Attack demo TheRFID Relay Attack demo demonstrates a new paradigm in relay attacks in the context of software emulated smartcards on mobile devices. Previous conditions about proximity of the attacker to the victim and the time when the victim is approached, are negated. With a software emulated smartcard on a mobile device an attacker can intercept and relay the transaction of a potential victim remotely. This new attack paradigm greatly enhances the value of this attack for criminals, and consequently will result in greater malware development efforts.   Additional Information on the individual attacks:     C03

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 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  

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: NXPIOTCTR@nxp.com

Inside CodeWarrior there exists a capability to query the QorIQ and QorIQ Qonverge processors' advanced on-chip debug circuitry and make that data EXTREMELY useful. Watch this demo to get a taste of the amazing things you can measure using CodeWarrior.     Features Inside CodeWarrior Development Tools there exists a capability to query QorIQ Processors, QorIQ and QorIQ Qonverge processors' advanced on-chip debug circuitry and make that data EXTREMELY useful. Watch this demo to get a taste of the amazing things you can measure using CodeWarrior.   Featured NXP Products CodeWarrior Development Tools P4080 QorIQ  

Demo In this demo, we are showing an 802.11AD 60GHz Wireless Demo with 3Gbps throughput using two LS1046ARDB (ARM Cortex A72 Quad Core) gateways and an LS1012ARDB gateway. These gateways simulate communication between stations. Products Product Link QorIQ® Layerscape 1012A Low Power Communication Processor Layerscape LS1012A Communication Processor for the IoT | NXP  QorIQ® LS1012A Development Board https://www.nxp.com/design/qoriq-developer-resources/qoriq-ls1012a-development-board:LS1012A-RDB?&fsrch=1&sr=2&pageNum=1 QorIQ® Layerscape 1046A and 1026A Multicore Communications Processors QorIQ® Layerscape 1046A | NXP  QorIQ® LS1046A Development Board QorIQ® LS1046A Development Board | NXP  Training New Kid on the Block - 60 GHz Wi-Fi 

This demo showcases a 1Gbit/s Enterprise Wireless Solution and the latest IEEE® 802.11ac.     Features P1010 QorIQ Processors product base Reference design Capable of scaling up to 1GHz performance capabilities 3x3 802.11ac design achieving performance capabilities in excess of 700 - 800Mbits/second The P1020 and P1023 Dual core versions of the P1010 with similar throughputs but more CPU headroom capabilities Featured NXP Products P1010: QorIQ P1010/14 Low-Power Communications Processors with Trust Architecture P1020: QorIQ P1020/11 Single- and Dual-Core Communications Processors P1023: QorIQ P1023/17 Low-End Single- and Dual-Core Communications Processors with Data Path Links QorIQ QorIQ P1010 RDB Getting Started - YouTube Block Diagram  

Demo Need to increase the power of your system? Check out our MRFX1K80H design reuse video to see the benefits of 65 V technology in action. In this video, Danny Molezion, FAE from Richardson RFPD and Jim Davies, NXP Applications Engineer swap out NXP’s 1250 W device with the MRFX1K80H device using the same PCB. Product www.nxp.com/65V www.nxp.com/MRFX1K80H   Links http://www.richardsonrfpd.com/NXP65V Press Release|NXP 

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 residential (smart home) gateway is an appliance that bridges a Wide Area Network (WAN/ Cloud) connection to a Local Area Network (LAN), usually Wi-Fi and/or Ethernet, in a home or customer premises. The WAN connection is typically a Fiber, Cable or xDSL connected to the gateway via a modem or PHY. Features xDSL Access (ADSL2/VDSL) GPON, 10PON( XGS-PON, NGPON2) Wifi 5Ghz 11ac (4x4 ) Wifi 2.4Ghz 11n ( 2x2 or 3x3 ) VOIP 2 >=4 LAN ports Block Diagram Product Category Name 1: MPU Product URL 1 Layerscape LS1012A Communication Processor for the IoT | NXP  Product Description 1 The QorIQ® LS1012A communications processors are optimized for battery-backed or USB-powered, space-constrained networking and IoT applications. Product URL 2 QorIQ® Layerscape 1024A | NXP  Product Description 2 The QorIQ®  LS1024A multicore communications processors delivers scalability, superior packet handling capabilities, vastly increased VPN and SSL throughput and industry-leading quality of service hardware features. For broadband home routers, VoIP gateways, IoT (Internet of Things) gateways, and low-end network attached storage. Product URL 3 QorIQ® Layerscape 1043A | NXP  Product Description 3 The QorIQ® LS1043A quad-core communications processors deliver greater than 10 Gbps of performance in a flexible I/O package supporting fanless designs. This SoC is a purpose-built solution for small-form-factor networking and industrial applications with BOM optimizations for economic low layer PCB, lower cost power supply and single clock design. Category Name 2: Wireless Product URL 1 Low-Power Multi-Channel UHF RF Wireless Platform | NXP  Product Description 1 The OL2385 device is a radio frequency transceiver with an embedded MCU designed for a wide range of industrial and home applications requiring very high link budget for bidirectional RF communication. Product URL 2 Arm® Cortex®-M0+|Kinetis® KW41Z 2.4 GHz Bluetooth Low Energy Thread Zigbee Radio MCUs | NXP  Product Description 2 The KW41Z is an ultra-low-power, highly-integrated single-chip device that enables Bluetooth® Low Energy v4.2 and IEEE® 802.15.4 RF connectivity for portable, extremely low-power embedded systems. Category Name 3: Power Management Product URL 1 VR5100 Multi-output DC-DC for COMM Processor | NXP  Product Description 1 The VR5100 is a high performance, multi-output DC-DC regulator designed to power single or dual core LS1 processors. It includes three buck regulators, six LDOs and a boost regulator offering a complete power management solution for Network Attached Storage, battery operated Mobile NAS, IoT gateway, Home and factory automation systems. Category Name 4: NFC Product URL 1 PN5180 | Full NFC Forum-compliant frontend IC | NXP  Product Description 1 The PN5180 is a high-performance full NFC Forum-compliant frontend IC for various contactless communication methods and protocols. Demos Gigabit WiFi Gateway with QorIQ LS1 Processor  Tools Product Link QorIQ® LS1043A Development Board QorIQ® LS1043A Development Board | NXP  LS1043A Residential Gateway Reference Design LS1043A Residential Gateway Reference Design | NXP  KITVR5100FRDMEVM: Evaluation Kit for VR5100 Power Management Integrated Circuit Evaluation Kit for VR5100 Power Management Integrated Circuit | NXP 

Demo Owner Jeff Steinheider   Streaming video over the LTE link + calls running between WCDMA phones running off the same BSC9132 device. Watch how this dual-mode enterprise picocell shows the capability of the QorIQ Processing Platforms Qonverge BSC9132 SoC with NXP's multimode LTE and WCDMA Layer 1 software.     Features Simultaneous LTE and WCDMA operation Provide solution to coverage and capacity concerns in enterprise and office environments Featured NXP Products Product Link QorIQ Qonverge® Platform: Baseband Processor QorIQ Qonverge® Platform: Baseband Processor | NXP  QorIQ® Qonverge BSC9132 Dual-core Processor and Dual-core DSP QorIQ® Qonverge B9132 | NXP  VortiQa Layer 1 Baseband Software https://www.nxp.com/design/software/development-software/vortiqa-software-for-networking/vortiqa-layer-1-baseband-software:VORTIQA_L1SW_SC?&tid=SWnT QorIQ® Qonverge BSC9132 QDS for Picocell Base Station Development https://www.nxp.com/design/qoriq-developer-resources/qoriq-qonverge-bsc9132-qds-for-picocell-base-station-development:BSC9132QDS?&parentCode=BSC9132 Block Diagram  

Features Wide band amplifier 100W GaN 200 MHz - 2500 MHz Minimum 12 db Gain 40% efficiency Compact circuit Highest ruggedness capability in the industry — > 65:1 VSWR Highest gain figures in the industry — up to 26 dB Highest efficiency in the industry — up to 80% at P1dB Cost-effective, over-molded plastic packaging options Low thermal resistance air cavity packaging options Backed by NXP's secure volume manufacturing capability Proven reliability, quality and consistency Integrated ESD protection with greater negative gate-source voltage range for improved Class C operation World-class, global applications and design support Available to participate in NXP's longevity program (10 year or 15 year lifetime guarantee — more information) Field-proven high-voltage LDMOS process   Featured NXP Products MMRF5014H Links RF Military    

KVM (kernel virtual machine) is a Linux-based virtualization technology that enables a Linux system to boot operating systems in virtual machines. This demo showcases KVM and it's capabilities: multiple VMs on a system, flexible configuration of memory and CPUs for VMs, virtual I/O capabilities including network and disk I/O, direct assignment of USB and PCI.       Features Getting the most out of multicore resources Feature rich Linux-based virtualization Hardware-based security and isolation for Virtual Machines (VM) Virtual I/O capabilities Featured NXP Products P2041 QorIQ

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 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

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 

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

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