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 remote access unit works as an interface for machinery that can’t be accessed. This tool displays parameters, measurements and can control any features of the linked machine. This remote access unit application is based in an i.MX 6 applications processor that can be programmed with a Linux distribution and Built-in 2G/3G/GPS/Glonass.   Features GPU 3D GPU 2D (Vector Graphics) Camera Interface Cryptographic cipher engines Tamper detection Ethernet Four USB2.0   Block Diagram     Products   Category Name 1: MPU Product URL 1 i.MX 6Dual Applications Processors | Dual Arm® Cortex®-A9 @1.2GHz | NXP  Product Description 1 The i.MX 6 series of applications processors combines broad levels of integration and power-efficient processing capabilities all the way up to bleeding edge 3D and 2D graphics, as well as high-definition video, to provide a new level of multimedia performance for an unbounded next-generation user experience.   Category Name 2: Transceiver Product URL 1 TJA1057 | High speed CAN transceiver | NXP  Product Description 1 The TJA1057 is part of the Mantis family of high-speed CAN transceivers. It provides an interface between a Controller Area Network (CAN) protocol controller and the physical two-wire CAN bus Product URL 2 TJA1101 | 2nd generation PHY Transceiver | NXP  Product Description 2 TJA1101 is a high-performance single port, IEEE 100BASE-T1 compliant Ethernet PHY Transceiver. Product URL 3 Logic controlled high-side power switch | NXP  Product Description The NX5P1100 is an advanced power switch and ESD-protection device for USB OTG applications. It includes under voltage and over voltage lockout, over-current, over-temperature, reverse bias and in-rush current protection circuits.   Category Name 3: Power Management Product URL 1 14-Channel Configurable Power Management IC | NXP  Product Description 1 The PF0100 SMARTMOS Power Management Integrated Circuit (PMIC) provides a highly programmable/configurable architecture, with fully integrated power devices and minimal external components.   Category Name 4: Memory Product URL 1 NXH5104UK: 4 Mbit Serial EEPROM | NXP  Product Description 1 The NXP NXH5104 is a 4 Mbit serial electrically erasable and programmable read-only memory (EEPROM). It provides byte level and page level serial EEPROM functions, sector level protection and power-down functions.   Category Name 5: Sensor Product URL 1 Ultra-low-power, 1.8 V, 1 deg. C accuracy, digital temperature sensor with I2C bus interface | NXP  Product Description 1 The PCT2202 is an I2C bus, serial output temperature sensor available in a tiny WLCSP6 package. It requires no external components.   Category Name 6: RTC Product URL 1 PCF2123 | NXP  Product Description 1 The PCF2123 is a CMOS Real-Time Clock (RTC) and calendar optimized for low power applications. Data is transferred serially via a Serial Peripheral Interface (SPI-bus) with a maximum data rate of 6.25 Mbit/s.   Documentation i.MX 6 Temperature Sensor Module:  https://www.nxp.com/docs/en/application-note/AN5215.pdf    Tools Product Link RD-IMX6Q-SABRE: SABRE Board for Smart Devices Based on the i.MX 6Quad Applications Processors i.MX 6Quad SABRE Development Board | NXP  KITPF0100EPEVBE: Evaluation Kit - MMPF0100, 14 Channel Configurable PMIC EVB- MMPF0100, 14 Channel Configurable PMIC | NXP  OM13512: Demoboard for the SPI-bus RTC PCF2123 Demoboard for the SPI-bus RTC PCF2123 | NXP  NXH5104ADB: NXH5104A Demo Board NXH5104A Demo Board | NXP  OM13257: Universal Temperature Sensor Daughter Card for the Fm+ Development Kit Universal Temperature Sensor Daughter Card for the Fm+ Development Kit | NXP  TJA1100HN: Evaluation Board, TJA1100HN 100BASE-T1 PHY Transceiver TJA1100 Customer Evaluation Board | 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 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

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 

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    

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

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  

G5 Engineering demonstrates an IP camera solution based on i.MX6 apps processor at the FTF Americas 2014.   Features Multiple IP cameras that are aggregated by one i.MX6 and then sent over an IP backhaul to a second i.MX 6 for integration into a single image The images are brought out to the screen. No need to use Windows reducing virus instances With a click of a button can change the display to 1x1 or 1x2 to 4x4 views Featured NXP Products ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Links G5- NXP Partner  

Description The convergence of an aging population and breakthrough technological advances has created endless opportunities for automated medical devices. These devices help ensure the future health of millions of people by providing advances in diabetes care, cardiac care, therapy adherence and general health and wellness applications. Regardless of the end use, developers of healthcare/medicals devices face similar challenges—the need to balance processing requirements with power consumption, support to ensure a fast time-to-market, the need for secure wireless connections and product longevity are all key to healthcare designers. Standard Inhalers are not efficient enough, so a new generation of smart inhalers need to be developed. NXP is a leading high-volume sensor provider with an extensive selection of accelerometers, magnetometers, pressure sensors and touch sensors for medical applications. We combine premium materials, advanced micromachining techniques, thin-film metallization and bipolar semiconductor processing to provide accurate, highly reliable products at competitive prices for optimum patient care and affordability. Features Communication with the smart mobile device via BLE The smart inhaler is provided with sensors that monitor the therapy adherence The cloud server communicate to the mobile phone, for example to provide reminders if the medicine is not taken The smart inhaler needs to authenticate that the gas cartridge is authentic The app in the smart mobile needs to authenticate that the smart inhaler is authentic Wireless connectivity Security integration Brand protection for the gas cartridge Block Diagram Products Category Name 1: Bluetooth Product URL 1 QN908x: Ultra-Low-Power Bluetooth Low Energy System on Chip (SoC) Solution | NXP  Product Description 1 QN908x is an ultra-low-power, high-performance and highly integrated Bluetooth Low Energy solution for Bluetooth® Smart applications such as sports and fitness, human interface devices, and app-enabled smart accessories. It is specially designed for wearable electronics with a small capacity battery. Category Name 2: Power Management Product URL 1 MC34671 | Single-cell Battery Charger | NXP  Product Description 1 The MC34671 is a cost-effective fully integrated battery charger for Li-Ion or Li-Polymer batteries. It tolerates an input voltage up to 28 V, which eliminates the input over-voltage protection circuit required in handheld devices. Product URL 2 Logic controlled high-side power switch | NXP  Product Description 2 The NX3P2902B is ideal for portable, battery operated applications due to low ground current and OFF-state current. Category Name 3: Sensor Product URL 1 ±8g, Low g, Digital Accelerometer | NXP  Product Description 1 The MMA8491Q 3-axis accelerometer is an ultra-low-power tilt sensor. Category Name 4: NFC Product URL 1 NTAG 424 DNA | 424 DNA TagTamper – Advanced security and privacy for trusted IoT applications | NXP  Product Description 1 The NTAG 424 DNA is architected to provide AES-128 cryptographic operation, new SUN authentication mechanism upon each read-out by an NFC enabled mobile device, as well as sensitive data protection with crypto-secure access permissions. Product URL 2  PN5180 | Full NFC Forum-compliant frontend IC | NXP  Product Description 2 The NXP PN5180 NFC frontend, equipped with unique features that improve performance, save energy, and maximize efficiency, enables best-in-class readers that conform to the requirements for EMVCo and NFC Forum specifications, for the broadest possible interoperability. Category Name 5: Secure Product URL 1 A71CH | Plug and Trust for IoT | NXP  Product Description 1 A71CH is a ready-to-use secure element for IoT devices providing a root of trust at the IC level and delivers, chip-to-cloud security right out of the box, so you can safely connect to IoT clouds and services, including AWS, IBM Watson IoT™ Platform, and Google Cloud™ IoT Core without writing security code or exposing keys. Product URL 2  EdgeLock™ SE050: Plug & Trust Secure Element Family – Enhanced IoT security with maximum flexibility | NXP  Product Description 2 With the EdgeLock SE050 IoT devices incorporate security from the start, not as a bolt-on or afterthought. Credentials, preinjected as the root of trust, are stored in hardware and fully isolated from external software access. Products Product Link QN9080DK: A highly extensible platform for application development of QN908x QN9080DK: A highly extensible platform for application development of QN908x | NXP  KIT34671EPEVBE: Evaluation Kit - 34671, Single-cell Li-Ion/Li-Poly Charger Evaluation Kit - 34671, Single-cell Li-Ion/Li-Poly Charger | NXP  OM25180FDK: PN5180 NFC Frontend Development Kit for POS Terminal Applications OM25180 |PN5180 NFC Development Kit for POS Readers | NXP 

Demo Owner: Carlos Neri Want to learn how to create USB based speakers? In this video, you'll learn how you can build speakers to play any sound from any USB system using only TOWER K40X256, TWR-Audio and TWR- serial modules. Watch how you can increase and decrease volume as well as change the frequency on the fly without any audio distortion.     Features Entirely built on the K40X256 Tower system Features HID for volume control to the host USB Stack Featured NXP Products TWR-K40X256: Kinetis K40 Tower System Module TWR-SER: Serial (USB, Ethernet, CAN, RS232/485) Tower System Module TWR-SER2: Enhanced Serial (Dual Ethernet, High-Speed USB) Tower System Module TWR-AUDIO-SGTL: SGTL5000 Codec Tower System Audio Module TWR-ELEV: Tower System Elevator Module Links Tower System Modular Development Platform  

Overview Home broadband access is undergoing the biggest change since the advent of low-cost fiber. Millimeter-wave (mmWave) radio technology is bringing fiber-like speeds without the cost of digging up consumers’ yards to lay new cables. The problems associated with mmWave signal propagation have been mitigated with massive MIMO and signal processing, techniques that NXP’s Airfast modules and Layerscape Access processors have helped enable. However, as with fiber access, the challenge of bringing the broadband connection indoors has remained. The existing approach is to have a technician visit the site and route cabling and possibly power to outdoors, incurring cost, inconveniencing customers, and potentially damaging property. At the 2020 Consumer Electronics Show, NXP demonstrated how its contactless power and connectivity technology overcomes this challenge. NXP’s wireless power technology efficiently transmits power through a window—one made of low-E glass, no less—from a small indoor unit mounted on the window to a corresponding outdoor unit. The same units also transmit broadband data at gigabit speeds using NXP’s wireless data-link technology based on a Layerscape Access programmable baseband processor. This innovative through-glass approach overcomes a practical and economic challenge of internet service providers and helps enhance customer satisfaction. Diagram Differentiation Complete wireless data + power solution. Proprietary Wireless Data-Link technology enables Gigabit speeds and sub-millisecond latency. 65W+ Wireless Power delivery with robust voltage source characteristics & high efficiency. NXP Products Product Name Layerscape Access LA1575 Programmable Wireless Platform | NXP  WPS-65WS Single Coil Wireless Power Solution | NXP 

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

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

NXQ1TXH5 One-Chip Qi Low Power Wireless Charging Transmitter     Demo Owner: Rick Dumont   The NXQ1TXH5 is a one-chip low power Qi transmitter, and it enables an ultra-low cost wireless charging transmitter dramatically reducing application cost while still providing latest WPC version 1.2 Qi compliant performance. The NXQ1TXH5 demo is provided in a small form-factor on which Qi enabled phones can be charged. The demonstration shows the extremely low component count, which is interesting for professionals to understand, and at the same time showing a real-life eye-catching form-factor that draws non-technically skilled person attention. The demonstration challenges people to actually charge their phone and experience charging without wires.   Features: Ultra low component count solution. Reducing application cost by 30-50% compared to other solutions Easy to layout on 2-sided PCB Excellent EMI behaviour without additional external filtering Ultra low standby power of 10 mW meeting 5-start smartphone charger standby rating High efficiency of 75% Excellent thermal behaviour due to NXPs proprietary low RDSon power silicon technology _________________________________________________________________________________________________________________________________________   Featured NXP Products: Product Link NXQ1TXH5: One-chip 5 V Qi wireless transmitter https://www.nxp.com/products/power-management/wireless-power/one-chip-5-v-qi-wireless-transmitter:NXQ1TXH5?&lang_cd=en NXQ1TXL5: Low-cost one-chip 5 V Qi wireless transmitter NXQ1TXL5: Low-cost one-chip 5 V Qi wireless transmitter | NXP  NXQ1TXH5 WPC 1.2 Qi-compliant wireless charger demo board NXQ1TXH5 WPC 1.2 Qi-compliant wireless charger demo board | NXP    _________________________________________________________________________________________________________________________________________    

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 _______________________________________________________________________________________________________

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

Demo DPDK provides a platform independent and vendor-neutral standard APIs for optimized packet processing and traditional networking services. This demo showcases DPDK based networking applications working over NXP QorIQ ARM Processors in host and virtual environment. Come discuss with us how NXP is providing support for these common API while leveraging specific acceleration advantages of the NXP data plane architectures   Features: NXP supports DPDK APIs for developing high performance networking applications in host and virtual environment NXP DPDK implementation leverages the underlying DPAA infrastructure and accelerators to offload the component of packet processing Existing DPDK based applications can seamlessly work over NXP QorIQ platforms.   _______________________________________________________________________________________________________   Featured NXP Products: QorIQ Processors Bades on ARM Technology|NXP QorIQ LS2045A and LS2085A Communication processors _______________________________________________________________________________________________________     N25

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  

  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  

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.