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 

ARM's Ronan Synnott demonstrates the Keil Microcontroller Development Kit (MDK) at the 2014 FTF-Americas. The MDK is a complete software development environment for the Kinetis device family.   Features Demonstrating Keil's Microcontroller Development Kit (full feature debug IDE from ARM) solution Connecting via Ulink Pro JTAG connector ARMCC (ARM compiler) View registers, view memory, etc. Values update on the fly, logic analyzer to visualize values in a system and display on a timeline format   Featured NXP Products Kinetis Microcontrollers Links ARM  

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 

Overview The Bluetooth® Low Energy heart rate monitor reference design demonstrates the implementation of a wireless electrocardiogram (ECG) acquisition system. It features the Kinetis® KW40Z system on chip (SoC) which includes an Arm® Cortex® M0+ processor together with a 2.4 GHz radio for Bluetooth Low Energy and 802.15.4. The ECG signal is obtained from the finger tips and processed by the Kinetis KW40Z SoC. Then, the user’s heart rate is calculated and transmitted to a smartphone application using Bluetooth Low Energy. The reference design can be powered by a Li-Ion coin-cell battery. Due to the low-power features of Kinetis KW40Z MCU, a 3.6V 200mA/h Li-Ion coin-cell rechargeable battery can provide the power of up to 40 hours of continuous use. The NXP® MC34671 is in used as a battery charger solution for the device. Features Includes the NXP ®  ultra-low-power Kinetis ®  KW40Z SoC Bluetooth Low Energy/ZigBee platform. The low-power features of this solution allow up to 40 hours of continuous operation using a small coin-cell battery. Fully compliant Bluetooth v4.1 Low Energy Differential input/output port used with external balun for single port operation Block Diagram Board Design Resources

Demo NXP’s Smart Defrost Solution is the newest way to defrost food. From frozen solid to sliceable food in minutes. Our solution uses RF and a smart tuning unit to evenly defrost food. The NXP Smart Defrost reference design consists of the following:    Defrost Appliance Concept                              Smart Defrost Reference Design Block Diagram Reference Design Features • RF creates the energy used to raise food temperature • Smart Tuning Unit intelligently adjusts operation for properties of the food within the defrost chamber • Electrodes provide the delivery of energy into the defrost cavity • Defrost cavity is a shielded, enclosed space for defrosting frozen food • Host control for main appliance control and user input interface Benefits • Reduced time-to-market • Simple integration into system • Predictable repeatable results • Creates even defrost environment • Reliable • Cost-effective interconnection • Minimum software needed for control Links https://www.nxp.com/pages/defrosting:RF-DEFROSTING-PG   Fact Sheets https://www.nxp.com/docs/en/fact-sheet/SmartDefrostRDFS.pdf  https://www.nxp.com/docs/en/fact-sheet/SDS31300FS.pdf

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

  Overview   The Freescale Airbag Reference Platform (ARP) is an application demonstrator system which provides an airbag Electronic Control Unit (ECU) implementation example using complete Freescale standard products for the growing automotive safety segment. The GUI firmware does not constitute a true airbag application but is intended to demonstrate features and capabilities of Freescale's standard products aimed at the airbag market.     Features   Device Description Features MPC560xP|32-bit MCU|Chassis-Safety | NXP  Qorivva 32-bit Microcontroller Scalable MCU family for safety applications e200z0 Power Architecture 32-bit core up to 64 MHz Scalable memory, up to 512 KB flash MC33789 | Airbag Power Supply and PSI5 Sensor Interface | NXP  Airbag System Basis Chip (PSI5) Power supply for complete ECU Up to four Satellite Sensor interfaces (PSI5) Up to nine configurable switch input monitors for simple switch, resistive and Hall-effect sensor interface Safing block and watchdog LIN 2.1 physical layer interface MMA68xx ECU Local X/Y Accelerometer ±20 g to ±120 g full-scale range, independently specified for each axis SPI-compatible serial interface 10-bit digital signed or unsigned SPI data output Independent programmable arming functions for each axis 12 low-pass filter options, ranging from 50 Hz to 1000 Hz MC33797 | Four Channel Squib Driver IC | NXP  Four Channel Squib Driver Four channel high-side and low-side 2.0 A FET switches Externally adjustable FET current limiting Adjustable current limit range: 0.8 to 2.0 A Diagnostics for high-side safing sensor status Resistance and voltage diagnostics for squibs 8-bit SPI for diagnostics and FET switch activation MC33901 High Speed CAN Physical Layer ISO11898-2 and -5 compatible Standby mode with remote CAN wake-up on some versions Very low current consumption in standby mode, typ. 8 μA Excellent EMC performance supports CAN FD up to 2 Mbps MMA52xx MMA51xx High G Collision Satellite Sensor ±60 g to ±480 g full-scale range PSI5 Version 1.3 Compatible (PSI5-P10P-500/3L) Selectable 400 Hz, 3 pole, or 4 pole low-pass Filter X-axis (MMA52xx) and Z-axis (MMA51xx) available

Demo Owner Mark Middleton Processor Expert Software is a development system to create, configure, optimize, migrate, and deliver software components that generate source code for NXP silicon.       Features Processor expert software for Vybrid and i.MX processors Each component encapsulates a discrete set of functionality designed to accomplish the component's design objectives. When used, it may generate configuration files, header files, and/or source code depending on the type of component. A component may represent a hardware abstraction, a peripheral driver, a software algorithm (such as data encryption), or any logical collection of software function. Featured NXP Products Vybrid i.MX Applications Processors based on ARM® Cores Development Software Used Processor Expert Software and Embedded Components Links Vybrid Controller Solutions based on ARM® Technology ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors  

Description Concentrators are important part of the metering system in a state grid, including Type I and II concentrators and Type III transformers, which collect power consumption information downward from power meters and collectors. Concentrators have various communication protocols including RS-485, 470MHz Sub-G wireless system, Power Line Carrier (PLC-Broadband and narrowband carrier), and they usually communicate with main station with Ethernet, 2G/3G/4G, State Grid VPN, etc. NXP offers proven solutions for concentrators and concentrator applications. Features Power Line Carrier Communication protocols: RS-485 470MHz Sub-G wireless system Ethernet 2G/3G/4G State Grid VPN Block Diagram Products Category Name 1: MCU and MPU Product URL 1 i.MX 6ULL Applications Processor | Single Arm® Cortex®-A7 @ 900 MHz | NXP  Product Description 1 The i.MX 6ULL provides various memory interfaces, including 16-bit LPDDR2, DDR3, DDR3L, raw and managed NAND flash, NOR flash, eMMC, Quad SPI and a wide range of other interfaces for connecting peripherals such as WLAN, Bluetooth®, GPS, displays and camera sensors. Product URL 2 Arm® Cortex®-M0+|Kinetis® KM3x 50-75 MHz 32-bit MCUs | NXP  Product Description 2 Kinetis® KM3x MCUs enable single-chip one-, two-, and three-phase electricity meters, as well as flow meters and other precision measurement applications. Category Name 2: Transceiver Product URL 1 SC16C650B | NXP  Product Description 1 The SC16C650B is a Universal Asynchronous Receiver and Transmitter (UART) used for serial data communications. Its principal function is to convert parallel data into serial data, and vice versa. 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. Category Name 3: Power Management Product URL 1 10-Channel Configurable PMIC | NXP  Product Description 1 The PF3001 Power Management Integrated Circuit (PMIC) features a configurable architecture that supports numerous outputs with various current ratings as well as programmable voltage and predefined sequencing. Category Name 4: RTC Product URL 1 https://www.nxp.com/products/peripherals-and-logic/signal-chain/real-time-clocks/rtcs-with-temperature-compensation/accu…  Product Description 1 The PCF2129 is a CMOS Real Time Clock (RTC) and calendar with an integrated Temperature Compensated Crystal (Xtal) Oscillator (TCXO) and a 32.768 kHz quartz crystal optimized for very high accuracy and very low power consumption. Category Name 5: Security Product URL 1 A1006 | Secure Authenticator IC: Embedded Security Platform | NXP  Product Description 1 The Secure Authenticator IC is manufactured in a high-density submicron technology. It is a secure tamper-resistant authentication IC, which offers a strong cryptographic solution intended to be used by device manufacturers to prove the authenticity of their genuine products. Tools Product Link MCIMX6ULL-EVK: Evaluation kit for the i.MX 6ULL and 6ULZ Applications Processor MCIMX6ULL-EVK|i.MX6ULL Evaluation Kit | NXP  KITPF3000FRDMEVM: Evaluation Kit for PF3000/1 Power Management Integrated Circuit Evaluation Kit for PF3000/1 Power Management Integrated Circuit | NXP  TWR-KM34Z50M: Kinetis M Series Tower System Module TWR-KM34Z50M|Tower System Board|Kinetis MCUs | NXP  OM13513: RTC demoboard containing PCF2127T and PCF2129AT RTC demoboard containing PCF2127T and PCF2129AT | NXP  OM67200: Developer Kit for A1006 Secure Authenticator Solutions OM67200: Developer Kit for A1006 Secure Authenticator Solutions | NXP  TJA1100HN: Evaluation Board, TJA1100HN 100BASE-T1 PHY Transceiver TJA1100 Customer Evaluation Board | NXP 

Complete NXP solution for Airbag systems including System Basis Chip, squib drivers, sensors, and MCUs.      Features System created by NXP as a reference design Speed time to market solution of airbag system Reduce design risk and low BOM material cost Complete turnkey solution Product Link Airbag Evaluation Platform (PSI5) Airbag Evaluation Platform (PSI5) | NXP  Links Software and hardware documentation Block Diagram  

Demo Summary The complete mobile transit solution by NXP enables passengers to pay for tickets directly from their mobile phone results in shorter queues at ticket machines and a faster throughput in transport terminals, significantly improving the customer experience. Passengers can buy tickets using their mobile phone, store them on the Secure Element in their phone and later validate them with a single tap on the reader. NXP provides the industry’s most comprehensive end-to-end solution allowing phone manufacturers to easily deploy mobile transit use case using NFC technology as a communication layer together with a Secure Element to ensure intuitive and secure payment transactions for more efficient transit systems. Demo / product features How mobile transit transforms the user experience: Mobile wallet unfolds beyond the scope of payments to encompass mass transit Easily switch between different cities that have a mobile transit infrastructure in place within the same app Enable regular passengers to bypass ticket machines as they purchase their transportation tickets over the air, whenever and wherever they want Create holistic mobile services that support travel information, payments, ticketing and loyalty NXP Recommends The PN66T, an NFC and Secure Element solution for mobile devices, pre-integrated within a Qualcomm 8976 QRD and a Snowball Wallet, resulting from NXP’s strong ecosystem relationships. Links to Video links: YouTube, Vimeo, etc. http://www.nxp.com/products/identification-and-security/nfc-and-reader-ics/nfc-everywhere/nfc-technology:NFC-TECH http://blog.nxp.com/category/near-field-communication/ https://www.youtube.com/playlist?list=PLB598A648939A7E36

  Description A data logger senses parameters such as temperature, processes this data and transmits it using UHF/Bluetooth LE. This data logger has NFC + UHF/Bluetooth LE temperature logging. Block Diagram Products Category Name 1: NTAG IC Product URL 1 NHS3100: NTAG SmartSensor with Temperature Sensor and Digital IOs | NXP  Product Description 1 The NXP® NHS3100 is an IC optimized for temperature monitoring and logging. its embedded NFC interface, internal temperature sensor, and direct battery connection. The NHS3100 includes multiple Power-down modes and a selectable CPU frequency of up to 8 MHz, for ultra-low power consumption.   Category Name 2: BLE Transceiver Product URL 1 QN908x: Ultra-Low-Power Bluetooth Low Energy System on Chip (SoC) Solution | NXP  Product Description 1 The QN908x is an ultra-low-power, high-performance and highly integrated Bluetooth Low Energy designed for human interface devices with a small capacity battery.   Category Name 3: UHF NFC Transceiver Product URL 1 UCODE I2C | NXP  Product Description 1 The UCODE I2C combines two independent UHF Interfaces (following EPC gen2 standard) with an I2C interface. Its large memory can be then read or written via both interfaces. This I2C functionality enables the standard EPC gen2 functionalities to be linked to an electronic device microprocessor. Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN11180.pdf UCODE I2C PCB antenna reference designs https://www.nxp.com/docs/en/nxp/application-notes/AN12194.pdf QN908x RF Certification Guide https://www.nxp.com/docs/en/nxp/application-notes/AN11996.pdf QN908x Hardware Design Considerations https://www.nxp.com/docs/en/nxp/application-notes/AN01786.pdf QN908x Power Consumption Analysis https://www.nxp.com/docs/en/nxp/application-notes/AN11994.pdf QN908x BLE Antenna Design Guide Training Training URL SmartSensor  Hands-On - NTAG I2C Plus Brings NFC Connectivity into Consumer Electronics for Tiny Devices  Related Demos from Communities Related Demos URL NFC Demos - Information, Source codes, Schematics   NTAG I2C Plus interface to Kinetis Freedom boards  Designing with the New Ultra-Low-Power BLE System on Chip 

Description With the growing consumption of energy worldwide, particularly in the residential market, utility providers need increasingly accurate and cost-effective energy metering solutions. The electricity meter is used for measurement and registration of active and reactive energy in single-phase, two-wire networks for direct connection. NXP’s connectivity solutions for smart metering address the challenges smart cities face for reliable, secure communications for remote metering and home energy management. We enable remote metering with NAN technologies like IEEE® 802.15.4 and Wireless MBUS. Additionally, NXP fosters smart energy management inside homes with HAN technologies like ZigBee®. Features All measurements performed by SD ADC Shunt resistor measurements amplified by Programmable Gain Amplifier (PGA) Phase shift between phase voltage and phase current measurements compensated by phase shifter block Active and passive tamper detection with time stamping Highest-resolution AFE with 4 x 24-Bit SD ADC LCD controller Block Diagram Product Category Name 1: MCU Product URL 1 Arm® Cortex®-M0+|Kinetis® KM3x 50-75 MHz 32-bit MCUs | NXP  Product Description 1 Kinetis® KM3x MCUs enable single-chip one-, two-, and three-phase electricity meters, as well as flow meters and other precision measurement applications. Category Name 2: Sensor Product URL 1 ±8g, Low g, Digital Accelerometer | NXP  Product Description 1 The NXP® MMA8491Q 3-axis accelerometer is an ultra-low-power tilt sensor that is ideal for smart meters. Product URL 2 Digital Sensor - 3D Accelerometer | NXP  Product Description 2 The 14-bit accelerometer and 16-bit magnetometer are combined with a high-performance ASIC to enable an eCompass solution capable of a typical orientation resolution of 0.1° and sub-5° compass heading accuracy for most applications. Category Name 3: 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. Category Name 4: Zigbee Product URL 1 Zigbee and IEEE 802.15.4 wireless microcontroller with 512 kB Flash, 32 kB RAM | NXP  Product Description 1 The JN5169 is an ultra-low-power, high-performance wireless MCU suitable for ZigBee applications. Category Name 5: NFC Product URL 1 PN5180 | Full NFC Forum-compliant frontend IC | NXP  Product Description 1 The PN5180 is a high-performance full NFC Forum-compliant frontend IC for various contactless communication methods and protocols. Category Name 6: Power management Product URL 1 TEA172x | NXP  Product Description 1 These highly integrated devices enable low no-load power consumption below 10 mW, reduce component count for a cost-effective application design, and provide advanced control modes that deliver exceptional efficiency. Documentation Filter-Based Algorithm for metering applications:  https://www.nxp.com/docs/en/application-note/AN4265.pdf Tools Product Link TWR-KM34Z75M: Kinetis M Series Tower System Module TWR-KM34Z75M|Tower System Board|Kinetis MCUs | NXP  Single-Phase Metering Single Phase Meter | NXP  Two Phase Power Meter Reference Design Two Phase Power Meter Reference Design | NXP  Three-Phase Power Meter Reference Design Three Phase Power Meter | NXP 

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       NXP makes the securely connected, self-driving car a reality.  2,500 NXP automotive engineers combine unique competencies in Analog/RF and Automotive Microcontrollers. Together they have designed true, world-class solutions making us the   #1 in Car Infotainment, #1 in Secure Car Access, #1 in In-Vehicle Networking, #1 in Body #1 in Safety.   Features enabled by NXP •ADAS & SECURITY •INFOTAINMENT •VEHICLE NETWORKING •BODY •SAFETY •SECURE CAR ACCESS •POWERTRAIN & CHASSIS •STANDARD PRODUCTS   Recommended Products •TUNERS •SOFTWARE-DEFINED DIGITAL RADIO •MULTIMEDIA PROCESSORS •SOUND SYSTEM DSPs & AMPLIFIERS •NFC BT PAIRING •WIRELESS POWER CHARGING •POWER MANAGEMENT •CAN/LIN/ FLEXRAY •ETHERNET •CENTRAL GATEWAY CONTROLLER •SECURITY •RF •MICROCONTROLLERS •POSITION/ ANGLE SENSORS •SYSTEM BASIS CHIPS •MICROCONTROLLERS AIRBAG •ANALOG AIRBAG •MICROCONTROLLERS BRAKING •ANALOG BRAKING •SENSORS BRAKING •TIRE PRESSURE MONITORING •IMMOBILIZER/ SECURITY •REMOTE KEYLESS ENTRY •PASSIVE KEYLESS ENTRY/ GO •BI-DIRECTIONAL KEYS •NFC •ULTRA WIDE BAND •MICROCONTOLLERS •PRESSURE/ MOTION SENSORS •BATTERY MANAGEMENT •DRIVERS

Demo Neural network classification method based on SqueezeNet. Images are captured by the camera processed and classified by the S32V processor and then displayed on the TV monitor with a confidence percentage calculated for each object visualized. Based on SqueezeNet, 501x fewer parameters than AlexNet Low power consumption - Less than 10 watts total Average top 1 accuracy of 58% and top 5 accuracies of 92% CNN built with APEX-DNN library Product Link S32V Vision and Sensor Fusion Evaluation Board https://www.nxp.com/design/development-boards/automotive-development-platforms/s32v-mpu-platforms/s32v-vision-and-sensor-fusion-evaluation-board:SBC-S32V234  S32V234 S32V234 Vision Processor | NXP 

Hi: This thread mainly introduces how to sample multi channels ADC with DMA. The slides is in Chinese. For different MCU family, Kinetis & LPC has different ADC & DMA system. There takes KE15 & LPC51U68 for example, introduce how to enable various ADC & DMA trigger solution. 1.KE15:Three sample projects include: 1.1 LPIT HW trigger ADC & DMA transfer, enable interrupt for get ADC value; 1.2 LPIT HW trigger ADC & DMA transfer, DMA will automatically trigger next transfer; 1.3 Software trigger multi-ADC & DMA transfer;  2.LPC51U68: Two sample projects include: 2.1 Software trigger multi-ADC & DMA transfer;  2.2 SCT HW trigger ADC & DMA transfer, DMA will automatically trigger next transfer; Products Product Category NXP Part Number URL MCU KE15 Arm Cortex-M0+|Kinetis KE1xZ 32-bit 5V MCUs with Touch Interface | NXP  MCU LPC51U68 LPC51U68 | NXP  MCUXpresso SDK Software NXP standard SDK Welcome | MCUXpresso SDK Builder    Tools NXP Development Board URL FRDM-KE15Z Freedom Board FRDM-KE15Z Platform|Freedom Development Board | NXP  LPCXpresso51U68 board LPCXpresso51U68 board for LPC51U68 MCU | NXP 

Overview NXP® and Jungo Ltd. collaborated to deliver an Office-in-a-Box reference platform for the small-to-medium business (SMB) multi-service gateway market. The platform blends Jungo's field OpenSMB software with the NXP MPC8349E mITX reference board. The board features the MPC8349E PowerQUICC® II Pro processor containing a core built on Power Architecture technology and Vitesse's SparX Gigabit Ethernet switch technology. The MPC8349E-mITX reference platform and Jungo's software provide a complete and integrated solution for designing SMB gateways. Create a fully functional gateway within minutes, using the hardware/software reference design. Features MPC8349E mITX Office in a Box Reference Platform features: In addition to the highly integrated MPC8349E processor, the reference platform leverages external components to support these additional features: 10/100/1000 Ethernet port, a 5-port Gigabit Ethernet switch Four-port USB 2.0 interface On-board 4-port PCI serial advanced technology attachment (SATA) controller 32-bit PCI slot, and a 32-bit MiniPCI slot FLASH memory slot Robust memory subsystem Two-port RS-232C interface Power supply SATA hard drive Jungo Software Features: OpenRG/OpenSMB Modules Routing and bridging Networking applications Network Address Translator (NAT)/Network Address Protocol Translator (NAPT) Web-based management Simple Network Management Protocol (SNMP) Remote firmware update PPP: PPPoA and PPPoE Firewall and security Content filtering VPN: IPSec, PPTP and L2TP WLAN security: WPA, 802.1x and RADIUS client File server Print server Zero Configuration VLAN IPv6 VoIP: H.323, SIP and MGCP TR-069—WAN Zero Configuration Management Protocol TR-064—LAN-side DSL CPE Configuration QoS—End-to-end Quality of Service Dual WAN—Fail-over and load balancing Block Diagram Board Design Resources

Description NXP offers highly-reliable, 5V power supply MCUs, which are the perfect fit for motor control in environments with high-electrical noise such as the massage roller in a massage chair. The best motor control technique for this application is the 3-phase hall sensor PMSM motor control with field-oriented motor control. Block Diagram Products Category Name 1 MCU KE02-40 MHz Product URL 1 https://www.nxp.com/design/development-boards/freedom-development-boards/mcu-boards/freedom-development-platform-for-kinetis-ke02-mcus:FRDM-KE02Z40M Product Description 1 The KE02-40MHz MCU includes one 6 channel FlexTimer. FlexTimers can generate four pairs of complementary PWM signals for edge-aligned, center-aligned and phase shift PWM signals. These features mask, invert and control the function for PMSM motors. In addition, the 5-volt capability gives this MCU high-reliability on applications used in high electrical noise environments. Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN5237.pdf Sensorless PMSM Field-Oriented Control on Kinetis KV and KE https://www.nxp.com/docs/en/application-note/AN5294.pdf Low Cost PMSM Sensorless Field- Rev. 1, 05/2017 Application Note Oriented Control Based on KE02 https://www.nxp.com/docs/en/application-note/AN5380.pdf Using FTM, PDB, and ADC on KE1xF to Drive Dual PMSM FOC and PFC https://www.nxp.com/docs/en/application-note/AN4869.pdf Sinusoidal Control of BLDCM with Hall Sensors Based on FRDM-KE04Z and Tower Board Related Software Software URL https://www.nxp.com/webapp/Download?colCode=AN5309SW https://www.nxp.com/docs/en/application-note-software/AN5321SW.ZIP https://www.nxp.com/downloads/en/reference-applications/MCRSP_PMSM_V1.2.0.exe Related Demos from Communities Community Demos URL https://community.nxp.com/thread/465280 https://community.nxp.com/docs/DOC-101472

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