With IoT, municipalities are controlling our infrastructure via the Internet and what was once physically secure is now open to attack. Using the Green Hills Crypto toolkit and INTEGRITY RTOS on NXP's Crypto platform, a secure firewall can enable our infrastructure to utilize the new IoT technology.       Features Internet connectivity, secured communications and M2M management Cryptography reference board running certified INTEGRITY RTOS Demo shows tablet connected to devices with the ability to change devices' behavior in a private, hack-proof system   Featured NXP Products Crypto Coprocessor|NXP Links Real-Time Operating Systems (RTOS), Embedded Development Tools, OptimizingCompilers, IDE tools, Debuggers - Green Hills … Securing the Internet of Things with Green Hills Softwa Block Diagram  

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 Owner: Mark Houston   The 3 Pillars of Kinetis V series software enablement are Kinetis Motor Suite, Kinetis Motor Control Toolbox and Kinetis Reference Designs.   Features: The Kinetis V Series portfolio is focused on providing software solutions for motor and power control, no matter your knowledge of the application. Kinetis V enables customers with little motor control experience or a short time to market with Kinetis Motor Suite. For customer with more application knowledge Kinetis V enables you with our reference design software, or our model based design tools, both incorporating NXPs Embedded Software Libraries ________________________________________________________________________________________   KV11 Dual BLDC Sensorless BLDC motor control is increasingly popular. Nowadays, application with multiple BLDC motors are becoming more common. Therefore, the best option seems to be independent sensorless motor control using single microcontroller. This method provides robust, long life and low cost operation.    Features: This reference design supports sensorless motor control of two Brushless DC (BLDC) motors using a single Kinetis KV11 device. Two BLDC motors are controlled independently, this means each motor can be running at different speed. Demo is friendly controlled and monitored through FreeMASTER. Communication between KV11 and FreeMASTER is done via FlexCAN module. CAN protocol provides a robust, fast and reliable operation.   ________________________________________________________________________________________   Sensorless ACIM FOC Motor Control on Kinetis V This demo shows the benefits of NXP Kinetis V enabled sensorless vector control of AC Induction Machine (ACIM) over conventional open-loop scalar control. You can compare speed tracking and power efficiency performance on your own speed and load profile.   Features: HVP-MC3PH high-voltage development platform with HVP-KV46F256 daughter MCU card enabled by ACIM   Motor Control Reference Solution Package (MCRSP) and Power Factor Correction (PFC) software  FRDM-KV31F freedom platform featuring FreeRTOS based software for control of synchronous motor acting as ACIM load Precise measurement with KM34Z single-phase power meter Interactive demo control via FreeMASTER and MCAT tools enabled PC       ________________________________________________________________________________________   Digital controlled LLC resonant converter using Kinetis KV46 This development kit show the design of a fully digital off-line DC/DC switched-mode power supply (SMPS) using an LLC resonant converter topology.     Features: Technical parameters: Input voltage: 390VDC Output power: 250W Output power: 12V Output Current: 21A Switching frequency 75-300kHz   Main Board Features: High efficiency Replaceable Controller card GaN power FETs Synchronous rectifier Analog sensing (resonant tank current, output voltage, output current, phase currents, back-EMF voltage, PFC currents, IGBT module temperature monitoring) Input over current protection Output over current protection Serial interface for communication with Auxiliary flyback power supply     ________________________________________________________________________________________   DSC Dual Servo Many applications require synergy control among multiple motors. Multiple motors controlled on single chip is the good way to solve this demand. Dual servo motors control is popular for two dimensions control applications such as sewing machine, camera gimbal system etc. This demo shows the capability of NXP DSC to control dual servo motors on single chip, and the two servo motors can be run well independently.   Features: This reference design supports dual servo motors control on single MC56F84789 DSC. Three control loops (position loop, speed loop and fast current loop) are enabled for each servo motor, a patented low speed measurement algorithm is used to achieve excellent low speed performance with low-cost quadrature encoder. Through FreeMASTER GUI, this demo can be friendly controlled and monitored.   ________________________________________________________________________________________ KE02 HVP Sensorless FOC PMSM control is demanded frequently from many application for energy efficiency and quiet operation. Even some low end motor control applications such as HVAC blower, indoor blower of AC system, industrial fan and pump etc. require sensorless FOC solution. KE02 HVP sensorless FOC PMSM is targeted on low-cost sensorless FOC solution on KE02 for sensorless FOC entry level in NXP   Features: This reference design targets the MKE02Z32 low end 32-bit M0+ based microcontroller for ultra low cost sensorless FOC PMSM drive solution. Extended Flux observer and DQ Back-EMF observer/tracking observer are used to control motor for excellent performance during low-speed region and mid-/high-speed region respectively. Three-shunt current sensing algorithm and single-shunt current sensing algorithm are optional, and anti-wind startup feature is enabled as well. Through FreeMASTER GUI, this demo can be friendly controlled and monitored.   ________________________________________________________________________________________   Featured NXP Products: KINETIS MOTOR SUITE: Simple motor control developme|NXP Motor Control Development Toolbox|NXP Kinetis Designs|NXP ARM Cortex-M0+/M4/M7 Cores|Kinetis V MCUs|NXP 3-Phase AC Induction Motor Control Design|NXP 3-Phase PMSM Motor Control Reference Design|NXP 3-Phase Brushless DC Motor Control Design|NXP Embedded Software Motor Control and Power Conversio|NXP High-Voltage Development Platform|NXP   C86

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

Demo Owner: Matt Hoover Embedded Planet's CEO Matt Hoover demonstrates the Wireless Sensor Gateway featuring i.MX6 applications processor at the FTF Americas 2014.       Features Bringing wireless sensor data tied to sensors that is brought into the i.MX6 based gateway via Verizon Cellular and  taken up to the cloud, then shown in a web portal Take the data from the field into the gateway via wire or wireless medium and take that data up to their server based system or a cloud based portal Featured NXP Products ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Links NXP Connect - Embedded Planet  

Demo This development board for RF power products is now available from Richardson, one of NXPs distributors Demo / product features This next generation board provides RF design engineers with best efficiency, a range of frequencies and voltage. Richardson has a combined depth of real-world RF technical experience and a solid partnership with NXP that enables us to serve the unique needs of the RF design engineer. Richardson and NXP serve customers across a similar set of vertical markets, including aerospace and defense, military, wireless infrastructure, mobile, broadcast and ISM. Links RF | NXP Richardson RFPD - NXP Semiconductors

  Overview NXP ® 's wireless charging reference design uses inductive charging technology to charge high-capacity, multi-cell Li-Ion battery packs. The reference design is capable of charging four battery packs simultaneously, using a single NXP digital signal controller. The reference design consists of two main components: a transmitter that sends the requested power level to the battery packs, and a receiver embedded in the battery packs. The receiver provides a controlled charge to the battery by implementing a charging algorithm. Each transmitter channel adjusts its energy transfer independently by responding to commands from the receiver embedded in the battery pack. The intelligent charging method is software-controlled and has the ability to dynamically adjust the power transfer. Archived content is no longer updated and is made available for historical reference only.   Features 80% transfer efficiency Four charging stations to charge four battery packs simultaneously Supports Qi communications protocol Overtemp, overcurrent and overvoltage protection    

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          

This demo will provide three modes to show the CAPWAP offloading capability of QorIQ platform. mode Iis the core-through mode which can be implemented by the CAPWAP stack to send the CAPWAP stack packets; Mode II is the offloading-mode which demonstrates the CAPWAP Encapsulation/De-capsulation capability of the SoC, and can be used in the AC case; Mode III is the net-bridge mode which is the basic usage for EAP which bridge the packets from PCIE to SEC and FM for offloading CAPWAP manipulation, the bridge is zero-memory copy in order to get high performance data. Together with the throughput data, this demo will help the customer to evaluate the EAP design with QorIQ platform.   Features QorIQ T1 processors handle secure WLAN tunnels with offload engines instead of CPU cycles CAPWAP tunneling firmware performs extra tasks (frag/ reassembly) and interfaces to the Linux user Highly efficient bridging to WLAN radios ensures maximum WLAN performance CAPWAP fragmentation and reassembly Featured NXP  Products T1040 Block Diagram

See a "routing on a chip" solution on the QorIQ Processor T1040 QDS with Layer 2 switching, including Layer 2 and Layer 3 processing through the L2 switch and FMan, and detailing drivers and stacks support.       Features Integrated switching (LAN, WAN, WLAN) Firewall support with HW offload DMZ partition using NXP Embedded Hypervisor Remote administration   Featured NXP Products T1040: QorIQ T Series Quad- and Dual-Core Communications Processors

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  

Overview The Camera reference design is developed using the Kinetis KL28Z through the standalone peripheral module FlexIO. The Kinetis KL28Z board is powered by an Arm® Cortex®-M0, providing up to 96 MHz CPU performance besides supporting ultra-low power. Kinetis KL28Z's FlexIO module is used to emulate camera interface and capture the image data. A TFT LCD module with SPI interface is used to display the real-time images. DMA is used to copy the image data from FlexIO to SRAM. DAM or polling method is used to copy the image data from SRAM to SPI TX FIFO, having up to 15fps sample rate. Features Features the Kinetis KL2828Z512 Board, enabling the interaction between a camera module by FlexIO, a highly configurable module capable of emulating a wide range of different communication protocols. The important feature of this peripheral is that it enables the user to build their own peripheral directly in the MCU. Combined and powered by NXP technology, these key elements make possible to capture video from the Camera and display it live in the LCD Panel. Developed using Kinetis Software Development Kit (SDK), comprehensive software support for Kinetis MCUs and drivers for each MCU peripheral, middleware, real-time OS and example applications designed to simplify and accelerate application development on Kinetis MCUs. Block Diagram Board Design Resources

Demo     Hardware technology platform CPU-351-13 Board in gateway products M2M and IoT multi-service edge computing platforms Gateway connected to smart mirror - Updating information constantly Keywords: IP67 rugged module / Cellular Rapid development, everywhere cloud Links ARM Cortex-A9|i.MX 6 Multicore Processors|NXP Eurotech Group: embedded boards, rugged systems for integrated solutions - high performance computing CPU-351-13 : Low Power, Rugged i.MX6 SBC Eurotech

Demo Owner: Dominic Selvaraj Firstview Consultants' Dominic Selvaraj demonstrates a custom dashboard application for an 18-wheel truck using i.MX 6 processor at the FTF Americas 2014.     https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282651084001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blank  Features Showcasing a secondary dashboard application for 18 wheeler trucks The dashboard features a touchscreen interface and runs Android operating system It has 4 cameras in a model truck (360 view around the vehicle) The gauges have been transformed into virtual gauges driven by vector graphics Co-pilot navigation and multimedia radio on vehicle   Featured NXP Products ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Links NXP Connect - Firstview  

Flomio was able to take our SLN-POS-RDR and develop their first EASyPOS prototype in 2 short months! What is an EASyPOS? EASyPOS is an item level point of sale. A light weight terminal that connects wirelessly to the payment network to securely process transactions and unlock from products for consumers to take. EASyPOS is the first of it’s kind and though placing a POS on every item may seem impractical, it offers several advantages. For one the device is able to monitor it’s location with a high degree of accuracy, guiding shoppers directly to the products they seek and consistently delivering positive purchase experiences. Also, inventory accuracy is all but guaranteed so omnichannel commerce and other popular retail trends are supported. Finally, EASyPOS has lights and sound alerts to enable smart filtering and encourage impulse buys.     How do I use it? Using the EASyPOS is —in fact— “easy”. Follow these steps to complete your purchase: - Grab the product you want to purchase.  - Place your Contactless Payment credential on the surface of the contactless payment logo and wait for 4 LEDs to blink green. EASyPOS is now disarmed. - Slide apart the magnetic halves and remove your from your purchase.     How is it built? The EASyPOS was built by Flomio, an expert in mobile NFC device design. It operates at very low power while actively monitoring for payment engagements, remote notifications, tamper attacks, and location changes throughout the retail environment. Smaller than a deck of cards, the EASyPOS is a payments certifiable device leverages the hardened security and miniaturization advances of NXP Semiconductors. It’s split in two assemblies, the top hosting active components like the freakishly loud 90dB speaker and the bottom containing the wireless recharging power system.   Short Video: https://www.youtube.com/watch?v=FQrnTWPpRHE About Flomio, Inc. Disney’s Magic Band™ technology revolutionized their theme park business. Companies eager to “Disney-fy” their businesses without their own team of imagineers and billions to invest turn to Flomio, imagineers for the rest of us. Flomio creates proximity ID solutions that help enterprise clients and developers cross the chasm to the next web, the Internet of Things (IoT). Funded by TechStars, Flomio is fundamentally changing the way people engage with the spaces around them by making proximity ID simple to integrate, easy to deploy, and fun to use. Soon, 50 billion devices will regularly connect to the internet. Flomio’s platform empowers enterprise customers and developers to create applications that communicate with these devices. The future is ubiquitous connectivity. Flomio makes sure businesses take advantage of it.

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 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

Demo Owner: Eyal Harari     Features Explore QorIQ Processing Platforms LS2 family, combining ease of use with performance where software developers can focus at a higher level. Management Complex introduction (MC) and features Featured NXP Products QorIQ

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