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  

Demo Owner David Lopez This demo is an overview of our power management simulation and validation tools. Our tools will help you accelerate power management validation with ISO 26262 compliance. Through this demo you will discover how NXP develop innovative validation tool to cover multiple use case, and accelerate product validation in line with ISO26262. The leading device use to develop this tool is MC33908, System Basic Chip with DC/DC and highest functional safety level.  In addition this tool is also covering the validation of MCU and SBC attachment.  This tool contain a database made through the collection of different car OEM "non-ISO" pulse with fast execution.   Features Transient simulation tool platform Accelerate power management validation with ISO 26262 compliance Global OEM use cases database Featured NXP Products Analog and Power Management|NXP

Demo   Virtualized Network Platforms demonstrates the capability of QorIQ® Layerscape processors in virtualized Customer Premises and Provider edge solutions using Open System Architecture and Open Standards like OF, ODP and OPNFV. NXP’s Layerscape processors represent the ideal union of processing power and hardware acceleration engines for SDN and NFV applications. Layerscape processors are SDN and NFV ready with Dynamic Service Chaining support which enables a customizable network, meaning operators can add new services more quickly than legacy equipment would allow. Dynamic VNFs provide end-to-end network virtualization and offload processing from edge to cloud. The Layerscape platform software includes 3rd party commercial applications like Trend Micro™ and optimized open source applications which take advantage of NXP’s integrated hardware acceleration engines, Data Path Acceleration Architecture (DPAA) and AIOP to accelerate the data plane. The platform is user programmable and supports standard APIs such as ODP for easy application portability.   Features Demonstration of an SDN and NFV-based Virtualized Network Platform that enables bi-directional, dynamic and on-demand service delivery – by connecting access appliances (wired and wireless) to edge appliances and showcases traffic flow from different virtual network functions.   The access equipment can virtualize network processing such as firewall, anti-virus, and deep packet inspection (DPI) to the bigger network equipment (edge appliances) and enable service providers to push services (network appliances) to the access equipment. This solution demonstrates an "intelligent edge" such as a vCPE, empowered by the dynamic re-distribution of network processing by the virtualized access platform. Service-chaining, Trend-Micro (DPI) and Quality of Service (QoS) are also demonstrated.   Demonstrates Docker® virtualization support on LS2085ARDB by running Docker-based virtual network function using SEC Hardware acceleration for showcasing Openssl benchmarking from vNF.   This Virtualized Customer Premise Equipment (vCPE) solution is implemented with Open-Contrail, OpenNFV, OpenStack, OpenDaylight, OpenFlow, OpenVswitch and runs on NXP's QorIQ Layerscape LS Series 64-bit ARM platform. Specific solutions include the QorIQ LS1043 Wireless Gateway and the LS2085 Virtualized Edge Appliance.

Demo The Valves Controller SoC familly integrates high precision regulated valves. Through the standalone Demo called "Pendulum", we will show how our devices can control an entire hydraulyc / pneumatic system. It is composed by some proportional / digital valves and a compressor managed by using only an SPI communication. Thanks to this demo, we will introduce our evaluation module where both devices can be used separately or together to control up to 12 valves and 2 motor through a friendly graphic user interface.     Features Integrated valve drivers with current regulation or PWM mode Safe switching off mode for safety and robustness SPI interface to command all functions   Featured NXP Products Octal Valve and Pump Controller SoC|NXP   Block Diagram

Demo Cooking appliance concept enabled by IoT features that delivers chef quality cooking results for internet food delivery services   Features Fast, high quality cooking using RF solid state and convection Consistent culinary results Fits all regional counter top spacing and conventional plate sizes Popular food delivery services connected through cloud services Simplify customer/user health and fitness management through integrated data Tailor and more efficiently promote menu items Automate and simplify customer food ordering and preference management Accurately manage perishable goods inventory and replenishment _______________________________________________________________________________________________________     Featured NXP Products: http://www.nxp.com/products/rf/smart-cooking-concept:RF-SMART-COOKING-PG

Demo Introducing the latest Kinetis Sub-Family, the K8x, ideal for implementing secure designs for the internet of tomorrow. From payment applications to scalable edge nodes, the K8x sub-family offers the right features to address the challenges of smart, connected and secure designs.     Advanced security with asymmetric crypto hardware acceleration Exceptional architecture and support for fast serial NOR flash execute in place Configurable FlexIO peripheral, multiple clocking and power modes that expand MCU capabilities   Featured NXP Product   Product Link Kinetis K81 MCU POS Tower System Module Kinetis MCU POS Tower System Module | NXP  Freedom Development Platform for Kinetis® K82, K81, and K80 MCUs FRDM-K82F|Freedom Development Platform|Kinetis® MCUs | NXP  Other Links Security Technology|NXP

Demo Benefits 1. More power – Higher voltage enables higher power density, which helps reduce the number of transistors to combine. 2. Faster development time – With higher voltage, the output power can be increased while retaining a reasonable output impedance. 3. Design Reuse – This impedance benefit also ensures pin-compatibility with current 50 V LDMOS transistors for better scalability. 4. Manageable current level – Higher voltage reduces the current losses in the system. 5. Wide safety margin – The higher breakdown voltage of 182 V improves ruggedness and allows for higher efficiency classes of operation Products MRFX1K80H MRFX1K80N MRF1K50H MRFE6VP61K25H Training 65 V LDMOS Introduction Related IMS MicroApps: The Latest High Voltage LDMOS Technology Delivers Industry’s Highest Output Power in a Single Package  Other Links NXP Announces New 65 V LDMOS Technology that Speeds RF Power Design 

Demo Running NXP’s i.MX6SX application processor, Earthquake warning system proof of concept is able to warn citizen about Earthquake. Data are gathered from local sensor, remote sensors based on K64F NXP’s controllers and seismology servers from Internet. Features: Give citizens warning against Earthquakes Runs on the NXP i.MX6SX application processor with Linux® OS. Presents i.MX6SX asymmetrical architecture features, where data are measured locally by Cortex-M4 with FreeRTOS and displayed and presented by Cortex-A9 core with Linux® OS. Cortex-M4 can measure in real-time and monitor Linux part. Cortex-A9 can sleep to save power and be waked up by the quake detected by Cortex-M4. Communication between cores via RPMsg. Remote sensor’s accelerometer data are measured running K64F microcontrollers Seismology server’s data are displayed and analysed ___________________________________________________________________________________________________________________________ Featured NXP Products: Product Link Freedom Development Platform for Kinetis® K64, K63, and K24 MCUs FRDM-K64F Platform|Freedom Development Board|Kinetis MCUs | NXP  i.MX 6SoloX Processors - Heterogeneous Processing with Arm® Cortex®-A9 and Cortex-M4 cores i.MX 6SoloX Applications Processors | Arm® Cortex®-A9, Cortex-M4 | NXP  __________________________________________________________________________________________________________________________

  Overview The NXP ®  Smart Application Blueprint for Rapid Engineering (SABRE) series of market-focused reference designs delivers the SABRE platform for eReaders based on the i.MX508 processor. The i.MX508 is the first SoC designed specifically for eReaders with a high-performance Arm® Cortex®-A8 CPU and integrated display controller certified by E Ink® for Electronic Paper Display (EPD) panels The SABRE platform provides a reference design for EPD display, touch control, audio playback as well as the ability to add WLAN, 3G modem or Bluetooth® The platform was designed to facilitate software development with faster time to market through support of both Linux® and Android™ operating systems Archived content is no longer updated and is made available for historical reference only.   Features CPU Complex Up to 800 MHz Arm Cortex-A8 32 KB instruction and data caches Unified 256 KB L2 cache NEON SIMD media accelerator Vector floating point coprocessor Multimedia OpenVG™ 1.1 hardware accelerator 32-bit primary display support up to SXGA+ resolution 16-bit secondary display support EPD Controller supporting beyond 2048 × 1536 at 106 Hz refresh (or 4096 × 4096 at 20 Hz) Pixel Processing Pipeline (PxP) supporting CSC, Combine, Rotate, Gamma Mapping Display 6”Electronic Paper Display Panel daughter card powered by E-Ink External Memory Interface Up to 2 GB LP-DDR2, DDR2 and LP-DDR1(mDDR), 16/32-bit SLC/MLC NAND flash, 8/16-bit with 32-bit ECC Advanced Power Management Multiple independent power domains State Retention Power Gating (SRPG) Dynamic voltage and frequency scaling (DVFS) Connectivity High-Speed USB 2.0 OTG with PHY High-Speed USB 2.0 Host with PHY Controllers Wide array of serial interfaces, including SDIO, SPI, I2C and UART I2S audio interface 10/100 Ethernet controller   Design Resources  

   JN-5189 SoC支持二个UART串口。在NXP提供的AN参考设计中，默认使用UART0串口。例程JN-AN-1247 ZigbeeNodeControlBridge应用中，UART0已经用于SerialLink串口通信协议。为了方便调试代码，我们可以使能UART1作为调试打印输出串口。  Products Product Category NXP Part Number URL MCU JN5189 JN5189/88 (T): High Performance and Ultra-low power MCUs for Zigbee®   Tools NXP Development Board URL JN5189 Evaluation Kit for ZigBee and Thread mesh network with NFC Commissioning Advanced Development Kit for JN5189/88   SDK Development Software and ANs URL MCUXpresso SDK Software Welcome | MCUXpresso SDK Builder  Application Note Zigbee 3.0 IoT Control Bridge    

This demonstration builds upon Centec Networks' award winning V350 Top of the Rack (ToR) SDN White Box switch, which features a QorIQ host processor.  The role of this host processor is extended beyond an OpenFlow v1.3 Agent to support L4-7 processing within a OpenFlow programmable paradigm.     Features L2-7 SDN Switch - Extending OpenFlow™ into Layer 7 Processing OpenFlow Agent + L4-7 processing based on QorIQ platforms Centec networks enables Open vSwitch (OVS) offloading to top-of-rack switch Top-of-rack OVS offloading offers better scalability, efficiency and reliability Featured NXP Products P1010 T2081 Links SDN    

Flying glasses demonstrator: Dual PMSM demo uses Qorivva MPC574xP and features spinning glasses mounted on the rotor of a first motor, while the second motor is equipped with a blade, "cutting" the glasses. Four glasses are mounted on the shaft of one motor while it is spinning. The second motor is running at the same time and it turn its propeller in a predefined movement so there is no damage to the glasses.   https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4305972345001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blank   Features Permanent magnet Synchronous Motors Sensor used for speed and positioning measurement Featured NXP Products MPC574xP: Qorivva 32-bit MCU for Automotive and Industrial Functional Safety Applications Training Introduction to PMSM Motor Controls

Demo The NTAG21x family provides a particularly well suited portfolio for NFC enhanced smart consumer products, driving the integration between physical objects and the Internet of Things. These smart products enable deeper customer relationships, real-time customer service, brand protection, condition monitoring and much more. A simple tap with an NFC enabled phone on the product can connect the consumer to the brand (opening a webpage, starting an application, providing additional information) and show the authenticity of a product       Features: Fully NFC Forum tag type 2 compliant Multiple memory options from 48 – 888 Bytes to support simple, complex and multi-purpose applications 32-bit password authentication to protect data stored into the tag UID ASCII mirror, which maps the IC unique serial number as an ASCII encoded string to a stored NDEF message to simplify tag serialization A 24-bit NFC counter, along with an ASCII mirror to improve tag usage analytics Integrated originality signature to enable the detection of unauthorized NTAG copies (and hence of unauthorized products the tags are attached to) Fast read command to speed up tag registration in inline processes such as print media or product label manufacturing   _______________________________________________________________________________________________________   Featured NXP Products: NTAG|NXP UCODE|NXP ICODE|NXP _______________________________________________________________________________________________________

Take a look at this demo using FRDM-KL25Z board with KIT34933EPEVBE evaluation board integrated with a LabView graphical user interface to show how NXP's low-voltage H-bridge motor driver (MC34933EP) is driving the zoom motor within a digital camera.     Features Fully integrated driver Small package for portable applications Built-In 2-Channel H-Bridge Driver H-Bridge Operation Voltage 2.0V~7.0V Output Current 1.0A @TA=25°C Low Total RDS(ON) 0.8Ω (Typ), 1.0Ω (Max) @ TA=25 °C Dual Channel Parallel Driver, RDS(ON) 0.4Ω (Typ). Max DC Current 1.4A PWM Control Input Frequency up to 200 kHz Built-In Shoot-Through Current Prevention Circuit Built-In Charge Pump Circuit (External Cap type) VCC Low Voltage Detection for logic power supply voltage Thermal Detection for H-Bridge driver This product is included in NXP’s Product Longevity Program, with assured supply for a minimum of 10 years after launch Featured NXP Products Product Link Freedom Development Platform for Kinetis® KL14, KL15, KL24, KL25 MCUs FRDM-KL25Z|Freedom Development Platform|Kinetis® MCU | NXP  Freedom Expansion Board - MC34933, Dual H-Bridge, Stepper Motor Driver, 2.0-7.0V, 1.4A Freedom Expansion Board - MC34933, Dual H-Bridge, Stepper Motor Driver, 2.0-7.0V, 1.4A | NXP 

Demo This Quadrocopter demo will use multiple MCU's from S12 MagniV family showcasing the value delivered from high voltage analog integration and industry proven S12Z core and efficiently enabling high speed BLDC control. Now even, going beyond the traditional automotive applications to cover emerging applications such as drones.   High-performance and industry proven S12(Z) MCU for BLDC/DC motor control, sensors and actuators High voltage analog integrations: LIN/CAN Phy, MOSFET gate drive units, LSD/HSDs, op-amps/PGAs Reduced PCB size and cost while improving manufacturing relability Featured NXP Product Auto & Industrial Mixed Signal MCUs|MagniV|NXP

JN516x-EK004 ZigBee Smart Home Kit with NFC Commissioning All necessary hardware components to demonstrate, evaluate and develop ZigBee wireless network solutions with IoT connectivity and NFC commissioning Firmware pre-loaded with demonstration software for both ZigBee nodes and IoT Gateway Free support resources for developing ZigBee applications for the JN516x microcontrollers Expandable with the addition of extra ZigBee nodes, available separately             JN516x-EK004 Evaluation Kit                               NFC Controller on Raspberry Pi Board Physical Components The JN516x-EK004 ZigBee Smart Home Evaluation Kit includes the following hardware components: Gateway Component Raspberry Pi single-board computer to act as IoT Gateway Host JN5169 USB dongle (OM15020) to act as ZigBee Control Bridge Wi-Pi Raspberry Pi dongle for Wi-Fi connectivity NFC controller (PN7120) for NFC commissioning of ZigBee nodes ZigBee Node Components Carrier boards (OM15022) to accommodate expansion board and ZigBee JN5169 module, and incorporating NFC connected tag (NTAG I 2 C) including NFC antenna ZigBee modules (JN5169-001-T00/T01) providing processing platform and RF interface Generic expansion board (DR1199) with switch and level control functionality Lighting/Sensor expansion board (DR1175) with white light, colour light and sensor functionality Software Pre-loaded ZigBee Smart Home demonstration Flash programming utility for firmware re-programming Software Developer’s Kits (SDKs) for developing applications for JN516x microcontrollers Eclipse-based Integrated Development Environment (IDE) for easy application development Application Notes containing example applications and templates This Demo Is Probably of Interest If You: Work with Home Automation, Smart Energy or other similar IoT applications Need a state-of-the-art ZigBee solution Need a secure and convenient way to commission devices to your ZigBee network Key Benefits of Kit All-in-one kit to rapidly get started with your ZigBee application development Leverages NXP NFC solution to commission ‘smart nodes’ out of the box, securely and in just one tap Comprehensive support software and collateral for developing custom ZigBee solutions with IoT connectivity Video Link : 4980 JN516x-EK004 Evaluation Kit Leaflet JN516x-EK004 Evaluation Kit User Guide JN5169 ZigBee Wireless Microcontroller JN5169 USB Dongle for ZigBee (OM15020) ZigBee 3.0 Wireless Network Protocol ZigBee Generic Node Expansion Kit (JN5169XK010) ZigBee Lighting/Sensor Node Expansion Kit (JN5169XK020) NFC Controller (PN7120) NFC Connected Tags (NTAG I 2 C)

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  

NXP's secure over-the-air communication for automotive networks features embedded hardware cryptographic engine for the rapid decryption of received data.   Copy Code   Features   T4240 / T2080 Intelligent Network interface card (NIC) plugs into an x86 server Accelerates the network processing function such as security encryption and switching functions Offloads of Open SSL, HTTPS and virtualized network functions Maximum performance with optimized 40 Gbit/second solution Featured NXP Products T4240: QorIQ T Series T4240/T4160/T4080 24/16/8 Virtual Core T2080: QorIQ T Series T2080/T2081 Eight Virtual Core Communications Processors Links Networking Block Diagrams    

Overview NXP brings a broad portfolio of proven PowerQUICC ®  network communications products, firmware and reference designs that support multiple network interfaces. These reference designs have the flexibility to integrate new features and are adaptable across product lines to protect your investment and maintain an edge over the competition. The NXP ®  MPC8323E-RDB is a turnkey hardware/software reference platform designed to rapidly provide the core elements of tomorrow's multiservice gateway products. Built on Power Architecture technology, the MPC8323E-RDB leverages the processing power of the MPC8323E PowerQUICC II Pro integrated communications processor. Features MPC8323E Integrated Multiservice Gateway features: Flexible WAN interfaces RJ45 100BT Ethernet and connectors for ADSL2+/VDSL2, WiMAX IPv4 Router with VPN capability RJ45 100BT Ethernet and connectors for ADSL2+/VDSL2, WiMAX Up to 640 DMIPS e300 CPU QUICC Engine ®  technology acceleration, 200 MHz Bridging/Routing with NAP/NAPT Firewall support (ACL) QoS for IPTV, VoIP and high-speed data VPN termination and pass-through Board Interfaces: Flexible network interfaces 10/100 Ethernet ADSL2+/VDSL2 WiMAX FXS ports (2) for analog phones 4-port 10/100 Ethernet LAN Two USB 2.0 host (480 Mbps) type A MiniPCI slots (2) Development Environment Our well established vertical ecosystem provides customers with the exact development flow they desire. The MPC8323E-RDB is kitted with: Encased CPE form factor board Linux ®  2.6 (LTIB) Design Resources

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