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%

Overview Remote virtual smartphones promise the same benefits as remote computer desktops and cloud-based gaming: low-cost client hardware, sandboxed user environments, and persistent user state. The way they work is that the physical smartphone runs only thin-client software and the smartphone application runs remotely on a server. To be economical, this server hosts multiple of these virtual smartphones, taking advantage of hardware virtualization support built into its processor. Slotted into the machine, an add-on GPU provides high-performance graphics. To reduce latency for real-time gameplay, the server is best located near the end-user in the edge of the mobile network. For virtual smartphones to be compatible with physical smartphones, Arm compatibility is required. At the 2020 Consumer Electronics Show, NXP demonstrated the Layerscape LX2160A processor hosting Redfinger’s cloud-based Android emulator and virtual smartphone. NXP’s processor integrates 16 CPU cores, enabling it to host 16 or more virtual smartphones. Games and other software execute with the same look and feel as if they were running locally on a smartphone. Like other Layerscape processors, the LX2160A delivers excellent performance per watt and is designed to work in high-temperature environments, such as being packed densely in a rack in a data center or deployed remotely at an edge-computing site. Although NXP designed it for stringent embedded applications, the LX2160A processor is powerful enough for servers—making it a great solution for Android emulation.     Block Diagram NXP Products Name of Product QorIQ LX2160A Development Board | NXP    Related Documents from Community Name of Document Discover i.MX: Industry-Leading Processor Solution for Media, Smart Home, Smart Industrial, Health/Medical and Broad Embedded Applications    Related Communities Name of Document Layerscape 

Demo Demo shows LS1021A-IoT gateway solutions for the Smart Home, Industrial and City with fog/Edge to Cloud connectivity  Secure: Secure Boot, Secure Debug, Tamper Detect, Trust Zone and Trust Architecture support Acceleration & Offload:  >2Gbps IPSEC encrypted traffic Performance HW Cryptographic Accelerators, CAN & QUICC Engine for industrial protocols Video Surveillance: Secure Network Video Surveillance with > 60 channels   Product Link LS1021A-IoT Gateway Reference Design LS1021A-IoT Gateway Reference Design | NXP 

Demo Owner: Jeffrey Maguire See a complete multi-tenant data center platform running the OpenStack® cloud OS on QorIQ multicore SoCs.     Features Open Stack Cloud OS multi-tenant data center platform supporting NFV service chaining on QorIQ Processing Platforms P4080 / T4240 multicore ScCs IPTables / EBT Tables firewall as a cirtual service for tenant isolation HAProxy server load balancing as a virtual service   Featured NXP Products T4240: QorIQ T Series T4240/T4160/T4080 24/16/8 Virtual Core P4080: QorIQ P4080/P4040/P4081 Communications Processors with Data Path  

Along with Linux SDK release based on Yocto, NXP also provides pre-installed Linux SDK based on Oracle's Virtual Machine (VM) with Virtual Box. Find out how you can build and deploy in this virtual environment. See how you can use other pre-built tools with the SDK. Get up to speed in how to use this NXP Linux solution on your own end products.   Features Pre-installed Linux SDK based on Oracle's Virtual Machine (VM) with Virtual Box Quick evaluation of software deliverables Featured NXP Products QorIQ Links Linux SDK  

New generation Microwave oven. Delivery of highly efficient, controlled RF power will modernize RF and microwave heating applications, and create a new cooking and heating paradigm. Explore NXP's comprehensive solid state solutions with a complete line of drivers, power amplifiers, microcontrollers, antenna and reference design support, as well as smart, economical application development tools.     Features Long Life span Ability to focus energy directly into the food being cooked Phase, Frequency and Amplitude control Vary maximums and minimum thresholds of power within the oven Links RF Heating RF Power  

Demo How to configure, validate and optimize DDR controller configuration for a QorIQ LS2080A device How to validate the SerDes controller lanes [configured in digital loopback mode] configurations for a QorIQ LS2085A device How to generate a PBL binary ready to be flashed to target for a QorIQ LS device     Features: Configuration and validation of SoC elements [DDR, SerDes, PBL] from QorIQ LS devices with a few mouse clicks _______________________________________________________________________________________________________   Featured NXP Products: QorIQ DDR configuration & QCVS tool|NXP RCW Override for Use in QorIQ Debugge|NXP Configure QorIQ DDR in 3 minutes|NXP _______________________________________________________________________________________________________   N02

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 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 

Winners! NXP received a number of creative submissions over the course of the MRFX Design Challenge. We appreciate the enthusiasm from the community as designers were hard at work on their RF projects. Now is the moment everyone's been waiting for as NXP proclaims the MRFX Design Challenge winners. First Place Winner  Russell Kendrick | Bio + Full Project Description Project Video: MRFX1K80H 50 MHz Project Brief This amplifier is intended to be driven with a modern transceiver with 100 watts output on 50 MHz. To protect the MRFX1K80H from overdrive a series of RF pads are used to reduce the input to the proper level. The input matching is accomplished by using a 9:1 conventional RF transformer formed on an Amidon BN 61-202 core. An 82 nH inductance is in series with the high impedance winding of the transformer. This arrangement yielded an input match of 1.3:1 SWR over the entire 6-meter Amateur band when measured without the pads. Shunt gate resistance is used to prevent oscillation at low frequencies. This is the same approach used in the 27 MHz test circuit from NXP. Bias will be supplied by a DAC driven by the microcontroller that will manage the finished amplifier Second Place Winner        Floris Roosen | Bio                                                                         Project Video: Roosen Single-Ended Broadband (87-110 MHz) RF Design         Third Place Winner Mike Mysliwiec | Bio Project Video: 2xMRFX1K80H 1.8-54 MHz HF Amplifier   Overview  NXP is hosting an RF power amplifier design contest. Applicants will record a video of their power amplifier/demo using NXP’s new 65V LDMOS 1800 W RF Power transistor, MRFX1K80H The contest is open to students, professional engineers, companies or individuals Key Dates Contest kick-off: October 30, 2017 Submit a video (3-5 minutes in length) no later than Friday, January 26, 2018, by sending a link to any video website, such as YouTube, YouKu or others to rfindustrial@nxp.com Results will be announced on Monday, February 12, 2018 Prizes • 1st prize: $3,000 cash award + 15 MRFX1K80H samples. Showcase designer bio and video in an NXP blog • 2nd prize: $1,000 cash award + 10 MRFX1K80H samples • 3rd prize: $500 cash award + 10 MRFX1K80H samples The prize amounts are before tax All accepted videos will be posted on www.nxp.com/videos  Judging Criteria How to enter the competition Please click on the link below for the latest details and to access the MRFX Design Challenge page www.nxp.com/MRFXdesign 

Overview   Artificial intelligence, and machine learning specifically, is transforming industries from Consumer to Industrial. To date, many applications host AI/ML inferencing on conventional computers in the cloud or locally. Meanwhile, edge computing is enabling other computing workloads to move from conventional information technology (IT) to lower-cost systems close to where data is generated. Although many AI/ML workloads run fine on edge systems’ CPUs, others are more intense: either multiple AI/ML functions must run simultaneously or performance requirements (e.g., frame rates) are too great. The solution to gaining the combined benefits of AI/ML and edge computing is acceleration. At the 2020 Consumer Electronics Show, NXP demonstrated the LS1046A-FRWY platform simultaneously running two or more high-intensity AI/ML functions. These include face recognition, object detection (both general and safety gear), posture recognition, and gaze detection. The scenario demonstrated is factory safety. An operator within a safety zone is monitored for attentiveness, personal protective equipment, and access control. Helping to make this possible is external acceleration based on the Google Edge TPU. Interfacing to the Layerscape LS1046A processor via its copious PCI Express ports, two M.2 TPU cards slotted in the FRWY system offload AI/ML inferencing. Based on the Layerscape LS1046A processor with four powerful Arm Cortex-A72 CPU cores, the compact, cost-effective LS1046A-FRWY platform gives developers a leg up on implementing high-performance AI/ML applications at the edge.   Diagram     Products Product Name LS1046A Freeway Board | NXP  Related Community Documents Document Name NXP Helps Industrial System Developers Apply AI/ML to Their Designs  Five Easy Steps To Deploy Machine Learning On Layerscape 

See how the Wayv uses RF power transistors in a compact, small, and light-weight cooking appliance that gives the flexibility to heat food anytime and anywhere. The Wayv is a battery operated device with a heating chamber and a user interface for programming your cooking needs Demo / product features Battery operated using NXP’s high efficiency RF power solutions Rapidly heats food Safe and eco-friendly Features: Compact, portable, lightweight, and rugged Environmentally friendly solution No toxic fumes during cooking Wireless Design & Developmet (WDD) top pick for IMS 2016 http://www.wirelessdesignmag.com/videos/2016/06/top-5-ims-2016?platform=hootsuite _______________________________________________________________________________________________________ NXP Recommends http://www.nxp.com/Wayv MHT1008N RF Cooking Transistor Driver: http://www.nxp.com/products/rf/rf-power-transistors/rf-cooking/2450-mhz-12.5-w-cw-28-v-rf-ldmos-transistor-for-consumer-and-commercial-cooking:MHT1008N MHT1004N RF Cooking Transistor Final Stage Amplifier: http://www.nxp.com/products/rf/rf-power-transistors/rf-cooking/2450-mhz-300-w-cw-32-v-rf-ldmos-transistor-for-consumer-and-commercial-cooking:MHT1004N MKW40Z Kinetis MCU: http://www.nxp.com/products/microcontrollers-and-processors/arm-processors/kinetis-cortex-m-mcus/w-series-wireless-m0-plus-m4/kinetis-kw41z-2.4-ghz-dual-mode-ble-and-802.15.4-wireless-radio-microcontroller-mcu-based-on-arm-cortex-m0-plus-core:KW40Z MMA25312B InGaP HBT Linear Amplifier: http://www.nxp.com/products/rf/rf-amplifiers-low-medium-power/wideband-amplifiers/linear-amplifiers/2300-2700-mhz-26-db-31-dbm-ingap-hbt-linear-amplifier:MMA25312B RF Cooking|NXP _______________________________________________________________________________________________________ Other Links: http://www.wayvtech.com/ _______________________________________________________________________________________________________ News The Wayv Of The Future: Portable, Battery-Operated Microwave

Demo Owner: Eric Dudley   Wireless LAN access point on the demo. This demonstration shows the P1023 in a Wireless LAN application. The dual-core QorIQ Processor with DPAA performs full offload of access points using CAPWAP and DTLS.  This hardware offload permits you to implement wirespeed GbE AP to Controller connectivity while freeing all CPU cycles to execute value added applications.     Features The P1023 is specifically designed for offloading wireless LAN access points Lowest end product that has an offload engine called Data Path Acceleration Architecture (DPAA) The offload engine is taking Layer 2 tunneled and layer 3 encrypted packets that are going from the access point back to the controller and it's doing all that connectivity at wire rate without using the CPU For multi-radio devices that need CPU head room for radio management and other processing tasks   Featured NXP Products P1023 - NXP Links Wireless Access Points QorIQ - NXP Block Diagrams  

Demo Owner: Jeff Steinheider Femtocells are playing an increasingly large role in providing users with the indoor coverage and data rates expected from LTE. This demo shows how NXPP’s QorIQ Qonverge BSC9131 SoC, the BSC9131 reference design board, VortiQa Layer 1 baseband software and our partner’s software together provide scalable, multimode solutions from small to large cells.     Features Running on he QorIQ Qonvergence BSC9131 reference design board Turnkey solution with VortiQa, LTE, L1 baseboard software, integrated with open source WLAN, full system test with L2, L3 partners QorIQ Qonvergence SoCs provide scalable, multimode solutions from small to large cells   Featured NXP Products Product Link QorIQ® Qonverge BSC9131 RDB for Femtocell Base Station Development QorIQ® Qonverge BSC9131 RDB for Femtocell Base Station Development | NXP  QorIQ® Qonverge BSC9131 Single-core Processor and Single-core DSP QorIQ® Qonverge B9131 | NXP  Links QorIQ Qonverge Small Cell Base Station Reference Design Publishing Femtocell 4G-LTE with WiFi AP QorIQ BSC9131 Block Diagram  

Demo Features IoT Gateway based on phyCORE-i.MX7 phyBOARD-Zeta   NXP Recommends i.MX 7 Series Applications Processors: Multicore, ARM® Cortex®-A7 Core, ARM Cortex-M4 Core   Other Links system-on-module-i.mx7   C23D

Demo NXP boasts about power and prowess in the industry’s highest power density in LDMOS technology with a compact 750 W 1.3 x 2.55 inch reference circuit. See this demo for how our transistors deliver highest RF output power for automatic dependent surveillance – broadcast (ADS-B), identification friend-or-foe (IFF), and distance measuring equipment (DME) systems. Product AFV10700H|700 W Pulse, 1030-1090 MHz, 52 V|NXP (50V LDMOS, 750 W Peak, Gain 17dB, Efficiency 58%) Link www.nxp.com/RFPower

Direct Attached Storage demonstration based  on QorIQ LS1012A Communications Processor to exhibit Low-power & high data-rate. The demon is showcasing a USB3.0 to SATA3 bridge     Features: Exhibits very low power and high throughput It attaches to any host machine via USB and acts as a USB to SATA bridge. The entire data path and control path run without using DDR. Bare board code runs on XIP QSPI Flash; with data and heap on 128KB OCRAM. Platform used: LS1012ARDB   _______________________________________________________________________________________________________   Featured NXP Products: QorIQ LS1012A Low Power Communication Processor|NXP _______________________________________________________________________________________________________       N01

Demo NXP has a complete portfolio of RF low power devices. These include: Drivers and pre-drivers for RF designs Output RF devices for small cell solutions Low-noise amplifiers (LNAs) for transceiver applications     Demo / product features MMZ27333B 2 W BTS Driver Amplifier 1500 – 2700 MHz operation P1 dB  = 33 dBm Gain = 36 dB @ 2600 MHz LTE 10 MHz ACLR = - 48 dBc at 20 dBm 4 x 4 mm QFN Package MMG30271B 1/2 W BTS Pre-Driver GPA 300 – 4000 MHz operation P1dB = 27 dBm Gain = 17 dB at 2600 MHz ICC = 135 mA SOT89 Package MMG30301B 1 W BTS Pre-Driver GPA 900 – 4300 MHz operation P1 dB = 30 dBm Gain = 16 dB @ 2600 MHz ICC = 280 mA SOT89 Package NXP Recommends MMZ27333B MMG30271B MMG30301B  

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