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 Archived content is no longer updated and is made available for historical reference only.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

Description Near Field Communication (NFC) is used for real-time precision marketing based on time, local inventory and the individual when embedded in product displays or the products themselves. NFC is also becoming the preferred method for payment either in smartphones or smart payment cards. NXP secure MCUs and MPUs paired with our contact and contactless readers provide customers with state-of-the-art, comprehensive, pre-certified PCI and EMVCo payment acceptance capabilities that will ease the development process and speed time to market for payment solutions. SmartPOS will be the most important POS in the future. Customers can download authorized third-party software and connect to an acquiring system via cellular communication. It has both the security of traditional POS and the convenience of mPOS. Features Contact card interface (TDA8035) and contactless card interface (CLRC663) Supports the whole system to pass EMV Level 1/2 certification Magnetic Strip Card Reader (MSR) supports 1/2/3 tracker, which could be implemented by ADC module Tamper detection with more active pin pairs Integrated encryption module/accelerator High speed SPI interface to extend memory space Secure boot Code protection USB/UART/SPI communication ports, etc. Block Diagram Products Category Name 1 MCU and MPU Product URL 1 Arm Cortex-M4|Kinetis K21 120 MHz 32-bit USB MCUs | NXP  Product Description 1 The Kinetis K21 MCU features a hardware encryption coprocessor for secure data transfer and storage. Faster than software implementations and with minimal CPU loading. Supports a wide variety of algorithms - DES, 3DES, AES, MD5, SHA-1, SHA-256 Product URL 2 i.MX RT1170 Crossover MCU Family - First Ghz MCU with Arm® Cortex®-M7 and Cortex-M4 Cores | NXP  Product Description 2 i.MX RT1170 includes NXP’s EdgeLock™ 4A security subsystem, including secure boot and crypto engines Category Name 2 Card Reader Product URL 1 High integrated and low power smart card interface | NXP  Product Description 1 The TDA8035 is the cost efficient successor of the established integrated contact smart card reader IC TDA8024. It offers a high level of security for the card by performing current limitation, short-circuit detection, ESD protection as well as supply supervision. Product URL 2 CLRC663 plus | High-performance multi-protocol NFC frontend | NXP  Product Description 2 The CLRC663 plus is a high-performance NFC Frontend with low-power consumption. Is the perfect choice for NFC applications with high-performance requirements like access control, payment, gaming. Category Name 3 RTC Product URL 1 PCF2129 | NXP  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. Designs Products Links Linux Point of Sale (POS) Reader https://www.nxp.com/design/designs/linux-point-of-sale-pos-reader:SLN-POS-LRDR 

Description Industry 4.0 is evolving the industrial landscape and businesses must change their processes and create progressively smaller, more efficient motor control platform designs. NXP supports these trends by securing interfaces, increasing flexibility and design speed of the control stage, and reducing the size of the power stage while still increasing power density. Block Diagram Products Category Name 1: MCU Product URL 1 Arm® Cortex®-M0+|Kinetis® KE06 48 MHz 32-bit 5V MCUs | NXP  Product Description 1 The KE06 delivers a next-generation solution with enhanced ESD/EMC performance for cost-sensitive, high-reliability device applications used in high electrical noise environments. The KE06 features One 6-channel FlexTimer/PWM (FTM) for motor control, along with Two 2-channel FlexTimer/PWM (FTM). Product link 2 Arm® Cortex®-M4|Kinetis KV4x Real-time Control MCUs | NXP  Product Description 2 The KV4x is a high-performance solution offering exceptional precision, sensing, and control for some of the most demanding applications in motor and power control. The KV4x features advanced high-speed and high-accuracy peripherals such as high-resolution pulse-width modulation (PWM) with 312 picosecond resolution, dual 12-bit analog-to-digital converters (ADCs) sampling at 4.1 mega samples per second (MSPS), a total of 30 PWM channels for support of multi-motor systems and dual FlexCAN modules.   Category Name 2: Digital signal controllers Product URL 1 MC56F84xxx|Digital Signal Controllers | NXP  Product Description 1 The MC56F84xxx is the market's fastest digital signal controller, offering exceptional precision, sensing, and control for the most efficient digital power conversion and advanced motor control applications. TheMC56F84xxx has up to 24 PWM channels with input capture.   Category Name 3: CAN transceiver Product URL 1 TJA1044 | High-speed CAN transceiver with Standby mode | NXP  Product Description 1 TheTJA1044 provides an interface between a Controller Area Network (CAN) protocol controller and the physical two-wire CAN bus. TheTJA1044 has an excellent EMC performance at speeds up to 500 kbit/s, even without a common mode choke. Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN4912.pdf Tuning 3-Phase PMSM Sensorless control application using MCAT Tool https://www.nxp.com/docs/en/application-note/AN4870.pdf Tuning 3-Phase BLDC motor sensorless control using MKV10 https://www.nxp.com/docs/en/application-note/AN4560.pdf PWM synchronization using Kinetis Flextimers https://www.nxp.com/docs/en/application-note/AN5014.pdf Three-Phase PMSM Sensorless FOC using MC56F82748 and MC56F84789 with Automated Motor Parameter Identification https://www.nxp.com/docs/en/application-note/AN4826.pdf Schematic and PCB Layout Guidelines for Digital Signal Controllers - Application Note https://www.nxp.com/docs/en/application-note/AN4795.pdf eFlex PWM Fault Handling on MC56F84xxx and MC56F82xxx DSCs - Application Notes https://www.nxp.com/docs/en/application-note/AN4746.pdf   High-Resolution PWM Generation Using MC56F82xx, MC56F84xxx, MC56F823xx, and MC56F827xx DSC Families - Application Notes https://www.nxp.com/docs/en/application-note/AN4680.pdf PMSM electrical parameters measurement https://www.nxp.com/docs/en/application-note/AN4608.pdf Use of PWM and ADC on MC56F84789 to Drive Dual PMS Motor FOC https://www.nxp.com/docs/en/application-note/AN4410.pdf FlexTimer and ADC synchronization for Field-Oriented-Control Tools Tools URL TWR-KV46F150M|Tower System Board|Kinetis MCUs | NXP    Related Demos from Communities   Related Demos URL https://community.nxp.com/docs/DOC-100867  https://community.nxp.com/docs/DOC-101516 

Demo NXP has a full range of high power LDMOS drivers and finals for cellular base stations. Our cellular LDMOS portfolio delivers industry leading performance with powerful and efficient products targeting rapidly growing frequencies and regions in the world. This demo wall features new devices that cover all cellular bands from 575 to 2400 MHz Products A2V09H300-04N 48 V LDMOS Solution • Frequency 720-960 MHz • Final Doherty performance at 8 dB OBO • Gain 19.5 dB • Efficiency 53% • Peak power 56 dBm • OM-780-4 package A2V07/09H400-04N 48 V LDMOS Solution • Frequency 575–960 MHz • Final Doherty performance at 8 dB OBO o Gain 18 dB o Efficiency 53% • Peak power 57.5 dBm • OM-780-4 package A2V07/08/09H525-04N 48 V LDMOS Solution • Frequency 575–960 MHz • Final Doherty performance at 8 dB OBO o Gain 18.7 dB o Efficiency 53% • Peak power 58.5 dBm • OM-1230-4L package A2T23H200W23S 28 V LDMOS Solution • Frequency 2300–2400 MHz • Final Doherty performance at 8 dB OBO o Gain 15.5 dB o Efficiency 50% • Peak power 55 dBm • ACP-1230-4L2S package A3T18H360W23S 28 V LDMOS Solution • Frequency 1805–1880 MHz • Final Doherty performance at 8 dB OBO o Gain 17.5 dB o Efficiency 53% • Peak power 55.5 dBm • ACP-1230-4L2S package A3T21H450W23S 28 V LDMOS Solution • Frequency 2110-2200 MHz • Final Doherty performance at 8 dB OBO o Gain 15.5 dB o Efficiency 49.5% • Peak power 57.4 dBm • ACP-1230-4L2S package

Overview To improve performance in industrial drives, Field Oriented Control (FOC) is an advanced technique used for Permanent Magnetic Synchronous and other motor types. This reference design jump-starts your ability to leverage the NXP® DSCs' advanced feature sets via complete software, tools and hardware platform. Features Bi-directional rotation Application speed ranges from 0 to 100 percent of nominal speed (no field weakening) Four state machine Fault protection for driver DC-bus overcurrent, SW overcurrent, overvoltage and over speed Current control loop execution time: 17 us @ 100 MHz MCU speed PMSM vector control using the quadrature encoder Block Diagram Design Resources

  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  

Description Faced with limited resources and booming demand, the energy industry seeks greater efficiencies within complex energy management and distribution processes, all while providing the best consumer experience. To achieve better service and smarter, streamlined processes, energy providers require reliable, real-time access to data. This smart energy gateway device gathers data from the sensors around it and uploads that information to the internet where it is processed and shown to the user. This solution has two approaches, one with a LPC MCU with low-power consumption and a Sigfox interface to send the data to. The other approach is with an i.MX 6UL MPU with Bluetooth, Ethernet and USB interfaces. Both designs share ZigBee® connectivity in order to communicate with the devices around it. Features LPC MCU offers low-power consumption Sigfox interface to send data i.MX 6UL MPU with Bluetooth Ethernet interface USB interface ZigBee connectivity Block Diagram Products Category Name 1: MCU and MPU Product URL 1 LPC540XX Family of Microcontrollers (MCUs) | NXP  Product Description 1 The LPC54SXX offers a power-efficient and unique architecture, advanced HMI and flexible communication peripherals for real-time performance in the next-generation IoT. Product URL 2 i.MX 6UltraLite Applications Processor | Single Arm® Cortex®-A7 @ 696 MHz | NXP  Product Description 2 The i.MX 6UltraLite applications processor includes an integrated power management module that reduces the complexity of external power supply and simplifies power sequencing. Category Name 2: 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. Product URL 2 PCA9410/9410A | NXP  Product Description 2 The PCA9410 and PCA9410A are highly efficient 3.0 MHz, 500 mA, step-up DC-to-DC converters. They convert input voltages from 2.5 V to 5.25 V to a fixed output voltage of 5.0 V. Product URL 3 TJA1101 | 2nd generation PHY Transceiver | NXP  Product Description 3 The IEEE 802.3bw (100BASE-T1) compliant TJA1101 Ethernet PHY transceiver provides 100 Mbit/s transmit and receive capability over unshielded twisted pair (UTP) cables to withstand the most taxing automotive applications, while still maintaining low-power consumption and system costs. Product URL 4 USB PD and type C current-limited power switch | NXP  Product Description 4 The NX5P3290 is a precision adjustable current-limited power switch for USB PD application. The device includes under voltage lockout, over-temperature protection, and reverse current protection circuits to automatically isolate the switch terminals when a fault condition occurs. Product URL 5 HV start-up flyback controller with integrated MOSFET for 5 W applications, f~burst = 1270 Hz | NXP  Product Description 5 The TEA1721 is a small and low cost module Switched Mode Power Supply (SMPS) controller IC for low power applications (up to 5 W) and operates directly from the rectified universal mains input. Category Name 3: Peripherals Product URL 1 PCF2129 | NXP  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 Product URL 2 BGS8L5 SiGe:C LNA MMIC bypass switch LTE | NXP  Product Description 2 The BGS8L5 is a LNA with bypass switch for LTE receiver applications, in a small plastic 6-pin thin leadless package. It delivers system-optimized gain for diversity applications where sensitivity improvement is required. Product URL 3 PCAL6408A | NXP  Product Description 3 The PCAL6408A is an 8-bit general purpose I/O expander that provides remote I/O expansion for most microcontroller families via the I²C-bus interface. Product URL 4 PCA9626 | NXP  Product Description 4 The PCA9626 is an I²C-bus controlled 24-bit LED driver optimized for voltage switch dimming and blinking 100 mA Red/Green/Blue/Amber (RGBA) LEDs. Product URL 5 Single pole double throw (SPDT) switch | NXP  Product Description 5 The SA630 is a wideband RF switch fabricated in BiCMOS technology and incorporating on-chip CMOS/TTL compatible drivers. Its primary function is to switch signals in the frequency range DC to 1 GHz from one 50 Ω channel to another. Category Name 4: Wireless 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. Product URL 2  Low-Power Multi-Channel UHF RF Wireless Platform | NXP  Product Description 2 The OL2385 device is a radio frequency transceiver with an embedded MCU designed for a wide range of industrial and home applications requiring a very high link budget for bidirectional RF communication. Product URL 3 QN908x: Ultra-Low-Power Bluetooth Low Energy System on Chip (SoC) Solution | NXP  Product Description 3 QN908x is an ultra-low-power, high-performance and highly integrated Bluetooth Low Energy solution for Bluetooth® Smart applications. Category Name 5: NFC Product URL 1 NTAG213F, NTAG216F | NFC Forum Type 2 Tag compliant IC with field detection | NXP  Product Description 1 The NTAG213F offers innovative functionalities like the configuration of a field detection, the SLEEP mode, the FAST_READ command, and a configurable password protection. These capabilities fit perfectly for applications in electronics, i.e. connection handover, Bluetooth® simple pairing, Wi-Fi protected set-ups, device authentication or gaming. Product URL 2  PN5180 | Full NFC Forum-compliant frontend IC | NXP  Product Description 2 The PN5180 is a high-performance full NFC Forum-compliant frontend IC for various contactless communication methods and protocols. Category Name 6: Security Product URL 1 A1006 | Secure Authenticator IC: Embedded Security Platform | NXP  Product Description 1 The A1006 Secure Authenticator Solution is a complete embedded security platform for electronic accessories, mobile phones, portable devices, computing and consumer electronic devices, and embedded systems where a strong security infrastructure is required. Tools Product Link MCIMX6UL-EVK: i.MX6UltraLite Evaluation Kit i.MX6UltraLite Evaluation Kit | NXP  KITPF3000FRDMEVM: Evaluation Kit for PF3000/1 Power Management Integrated Circuit Evaluation Kit for PF3000/1 Power Management Integrated Circuit | NXP  OM13513: RTC demoboard containing PCF2127T and PCF2129AT RTC demoboard containing PCF2127T and PCF2129AT | NXP  OM25180FDK: PN5180 NFC Frontend Development Kit for POS Terminal Applications OM25180 |PN5180 NFC Development Kit for POS Readers | NXP 

Demo These state-of-the-art devices are single-chip solutions for contact, contactless, and NFC operation, and can be loaded with fully-custom applications. Optimized antenna operation and low-power modes enable best-in-class performance. This NFC & BLE hospitality demo showcases a physical access scenario in hospitality with ultimate contactless connectivity through NXP NFC and BLE solutions and superior security with MIFARE DESFire on cards, mobile and wearables Product Features • Total interoperability with smart devices – NFC/BLE • Ultimate contactless connectivity through NXP NFC and BLE solutions • Superior contactless experience and security with MIFARE DESFire on cards, mobile and wearables NXP Recommends PN746X_736X_SERIES|NXP  Ultra low power Bluetooth LE system-on-chip solutio|NXP 

This video shows a part of the LS1046A demonstration of capabilities in different high-demandant computing tasks.

Description With the development of new technologies in today’s world, the automotive industry is now capable of implementing new devices that allow drivers to have wider control of their automobiles. These devices could offer remote diagnostic services for vehicle monitoring, car security, GPS to optimize driving paths, and many other services. T-Box provides a remote communication interface for the vehicle as a wireless gateway. It can provide: Traffic data acquisition Travel track record Information and entertainment services such as navigation, news, weather and other information push Vehicle fault monitoring Vehicle remote control (open lock, air conditioning control, window control, transmitter torque limit, engine start and stop) Driving behavior analysis 4G wireless hotspot sharing and other services Features EMC controller support SDRAM CAN controller (from more than 2 CH to more than 3 CH) Small package (from LQFP to BGA) More I/O pins (more UART, SPI, I2C). Low power (GPIO wakeup and RTC wakeup) Cost effective Block Diagram Products Category Name 1: MCU Product URL 1 LPC1778FET208|Arm Cortex-M3|32-bit MCU | NXP  Product Description 1 The LPC1778FET208 is a low-power, cost-effective MCU featuring up to 512 KB Flash, 96 KB SRAM, 4 KB EEPROM and a wide assortment of connectivity peripherals, including up to five UARTs, three SPI/SSP, and three I²C. Product URL 2 LPC540XX Family of Microcontrollers (MCUs) | NXP  Product Description 2 The LPC54S016 offers power-efficiency and unique architecture, advanced HMI and flexible communication peripherals for real-time performance for the next-generation IoT. Category Name 2: Transceiver Product URL 1 TJA1041A | High-Speed CAN transceiver | NXP  Product Description 1 The TJA1041A is primarily intended for automotive high-speed CAN applications (up to 1 Mbit/s). Product URL 2 TJA1043 | High Speed CAN transceiver | NXP  Product Description 2 The TJA1043 transceiver is designed for high-speed CAN applications in the automotive industry, providing differential transmit and receive capability to (a microcontroller with) a CAN protocol controller. Product URL 3 TJA1051 | High-speed CAN Transceiver | NXP  Product Description 3 The TJA1051 transceiver is designed for high-speed CAN applications in the automotive industry, providing differential transmit and receive capability to (a microcontroller with) a CAN protocol controller. Category Name 3: Peripherals Product URL 1 MC33972 | MSDI with Suppressed Wakeup | NXP  Product Description 1 The 33972 Multiple Switch Detection Interface (MSDI) with suppressed wake-up is designed to detect the closing and opening of up to 22 switch contacts. This device also features a 22-to-1 analog multiplexer for reading inputs as analog. Product URL 2 Tiny Real-Time Clock/calendar | NXP  Product Description 2 The PCF85063TP is a CMOS Real-Time Clock (RTC) and calendar optimized for low power consumption. An offset register allows fine-tuning of the clock. Product URL 3 ±2g/±4g/±8g, Low g, 14-Bit Accelerometer | NXP  Product Description 3 The FXLS8471Q accelerometer is highly versatile and ideal for industrial, consumer and automotive high-performance, low-g applications that offer noise density, board mount offset, temperature performance, and sensitivity. Product URL 4 High-speed CAN core system basis chip | NXP  Product Description 4 The UJA1076A supports the networking applications used to control power and sensor peripherals by using a high-speed CAN as the main network interface. Tools Product Link OM13001: EA LPC1788 Evaluation Board EA LPC1788 Evaluation Board | NXP  LPC54S018M-EVK: LPCXpresso54S018M Development Board LPCXpresso54S018M Development Board | NXP  OM11059A: Demoboard for the I²C RTC PCF85063TP and PCF85063ATL Demoboard for the I²C RTC PCF85063TP and PCF85063ATL | NXP  Sensor Toolbox Development Boards for FXLS8471Q 3-Axis Linear Accelerometer FXLS8471Q 3-Axis Accelerometer Development Boards | NXP 

NXP Thread Commissioning Demo with Arrayent’s Cloud Control Thread devices can be monitored and controlled from anywhere in the world using Arrayent Connect Cloud Devices are easily commissioned onto a Thread network using NXP Thread App & QR code Devices are secure using Arrayent Unique ID (whitelisting) and AES-128 bit encryption. This Demo Is Probably of Interest If You: Want to monitor and control Thread devices that sit behind a consumer grade firewall from anywhere in the world. Want to commission Thread devices in a easy way. Differentiation This Demo Highlights Control and monitor Thread devices that sit behind a consumer grade firewall from anywhere in the world. Commission Thread devices using QR code Description The Thread network is managed by a LS1021A  IT Gateway with FRDM-KW24 Thread Border border reference design. The board supports Thread, Wi-Fi, BlueTooth and NFC too. NXP’s Thread commissioning android App discovers the Thread border router. NXP powered Thread “device” is a card with a NXP Kinetis® KW2xD 802.15.4 Wireless chip with an ARM Cortex M4 MCU board running the Thread protocol and the lightweight Arrayent Connect Agent. The Thread device boards are commissioned (or “paired”) on to the Thread network by using the NXP Thread commissioning Android App takes the device’s unique ID from the  QR code on the  device and pushes Thread network credentials into the device. This is shown again with a second card. Arrayent’s Connect Agent has been pre-loaded into the device boards.  And once the board is connected to the Thread network, the device board starts communicates directly to the Arrayent Cloud. Essentially key attributes on the board are presented up to the Arrayent Connect Cloud web services APIs. The final step is to use the Arrayent devkit app to monitor and control the device board from anywhere in the world.  In this case the we can demonstrate three monitor/control use cases: 1.     Turn on and off the device LED from the mobile app. 2.     Press a button three times to update the Apps button press counter (in this case three times.) 3.     Push the board temperature to the mobile app. What this Demo is All About Video Link : 5310 Find more information Press release: Read on The Business Journals Blog posts to read: NXP and Arrayent Collaborate to Connect Thread Devices at Embedded World, Nuremberg, Germany Thread-Enabled Smart Home Powered by Arrayent Demo Diagram IoT Physical Components Gateways SOC: NXP i.MX6 Applications Processor, NXP Kinetis®KW24D SoC Software: Embedded Linux, NXP Thread Stack for border router End User Products: LS1021A IT Gateway with FRDM-KW24 Thread Border border reference design Edge Devices SOC: NXP Kinetis®KW24D (802.15.4 Wireless chip with an ARM Cortex M4 MCU) Boards/Modules: NXP FRDM-KW24D  Development Board Software: Arrayent Connect Agent ported to the KW2xD, NXP Thread Stack for router end devices Wireless Connectivity SOC: NXP Kinetis®KW24D (802.15.4 Wireless chip with an ARM Cortex M4 MCU) Sensors SOC: KW24D On-chip Temperature, MMA8451Q 3-axis accelerometer Cloud Infrastructure/Services Software/Services: Arrayent Connect Cloud Smart Devices/Apps Software: Arrayent Android DevKit sample app and SDK Software: NXP Android Thread provisioning app IoT System Capabilities Device Management Each device is flashed at time of manufacturing a unique Arrayent Device ID and AES key.  The device ID is bound to a specific customer account at time of device commissioning. Cloud/App Communications/Interworking Arrayent devkit app talks to the Arrayent Connect Cloud’s device services interface through the Arrayent Connect Agent embedded software to connect to the device boards. The App is used to monitor and control the device board from anywhere in the world.  In this case the we can demonstrate three monitor/control use cases: Turn on and off the device LED from the mobile app. Press a button three times to update the Apps button press counter (in this case three times.) Push the board temperature to the mobile app. Security Arrayent uses device ID Whitelisting, that is Arrayent issued device ID is flashed into endpoint MCU memory at time of manufacturing.  The per device unique ID is reserved in the cloud. Arrayent ACA embedded agent and ACC cloud services support AES-128 bit end-to-end encryption with dynamic temporal key refresh. Analytics/Data The Arrayent Connect Cloud support IoT Product Type Product/Component Vendor Research or Procure This Product/Component End User Hardware USB Wireless Keyboard and Touchpad Commercial Logitech Wireless Touch Keyboard K400 with Built-in Multi-Touch Touchpad, Black End User Hardware Dell 22" HDMI Monitor Commercial Dell 22" Monitor End User Smart Device Motorola XT1032 Moto G Android Smart Phone Commercial Motorola Android Smart Phone End User Edge Device Xfinity XR2 Remote Control Unit Commercial Comcast Remote Control End User Edge Device Philips HUE Bulb ZigBee Lightlink (HA 1.2) Commercial Hue, Professional Wireless LED Lighting | Philips Lighting End User Edge Device CentraLite 3-Series Appliance Module (4257050-RZHAC) (Zigbee HA 1.2) Commercial SmartPlug End User Edge Device Axis 0301004 M1011-W camera (WiFi g) Commercial AXIS M1011-W Network Camera, a small wireless IP camera | Axis Communications End User Edge Device Maxxima Style Night Light w/ sensor Commercial Night Light End User Edge Device TP-LINK TL-MR3020 3G/4G Wireless N 150 Portable Router Commercial WiFi Router

The attached document describes how to optimize LCD display performance on RT10xx platform. The content include RT10xx configuration and Emwin setting with LCD parameters. Products Product Category NXP Part Number URL MCU i.MX RT1060 i.MX RT1060 MCU/Applications Crossover MCU | Arm® Cortex®-M7, 1MB SRAM | NXP  MCU i.MX RT1050 i.MX RT1050 MCU/Applications Crossover MCU| Arm® Cortex-M7, 512KB SRAM | NXP  SDK Software Software Development Kit https://mcuxpresso.nxp.com/en/select    Tools NXP Development Board URL MIMXRT1060-EVK i.MX RT1060 Evaluation Kit | NXP  MIMXRT1050-EVK i.MX RT1050 Evaluation Kit | NXP  Was this helpful to you?

For further information visit the complete guide on our NXP Designs: https://community.nxp.com/docs/DOC-344585 

Introduction The FRWY LS1046A comes with the mikroBUS connector that enables the capability to connect different peripheral depending on the application's requirements. The mikroBUS intends to be used for prototyping purposes that facilitate the interconnection of several peripherals. The PN7120 I2C connection delivers a secure and trustworthy connection between both NXP products. Overview The following demo belongs to examples of different usages of the LS1046A MPU, these demonstrations will soon be part of the LSDK. This document showcase the NFC capability to provide an additional layer of security to any access area. NFC access points authorize people with a registered RFID tag to grant access to a particular area. In case the RFID tag isn’t registered or authorized, the access is restricted. The system should alert the denied access to a supervisor in order to take action. The video below shows two NFC applications that can be implemented in the LS1046A, by connecting the Mikroe-2395 module based on the NXP PN7120. This demonstration allows registering new users by entering sensitive data into a local database. The second application validates an NFC tag by comparing the tag ID, with the ones previously registered in the database. The user can access the applications using the LAN with another device like a tablet, this allows the database to be in a non-easy access location for security purposes. Block Diagram Video Products NXP Product Link FRWY LS1046A TP https://www.nxp.com/design/qoriq-developer-resources/ls1046a-freeway-board:FRWY-LS1046A Mikroe-2395 https://www.mikroe.com/nfc-click NXP NTAG 213/215/216 https://www.nxp.com/products/rfid-nfc/nfc-hf/ntag/ntag-for-tags-labels/ntag-213-215-216-nfc-forum-type-2-tag-compliant-ic-with-144-504-888-bytes-user-memory:NTAG213_215_216

Overview This reference design is based on 32-bit DSC MC56F84789, to demo a 3in1 Air-Conditioner Outdoor Unit. This reference design jump-starts your ability to leverage the NXP ®  DSCs' advanced feature sets via complete software, tools and hardware platform. High performance, low cost all DC VF air-conditioner outdoor unit control system Three control objectives (interleaved single-phase PFC converter, fan and compressor) with one MCU device Input voltage range of 85 – 265VAC/40 – 70H Single-phase two channels interleaved PFC converter compatible with global mains input, 99.9% power factor, 8% input current THDi Sensorless FOC algorithm for both compressor and fan Anti-typhoon startup for fan, and on-line load torque compensation control for compressor to reduce system vibration and noise Reliable startup performance under full load and input voltage range Extreme low/high speed (from 1Hz to 150Hz) performance with extended flux observer Over-/under-voltage, over-current, over-temperature, over-input power protection and lock of rotor detection FreeMASTER GUI for easy debugging Features MC56F84789 3in1 Air-Conditioner Outdoor Unit Block Diagram Board Design Resources

Description Application demo uses a model trained off the MNIST dataset to recognize individual handwritten digits written on the touch sensitive LCD screen. Thie model conversion can be found here: https://community.nxp.com/docs/DOC-344227. Software The RT1060 SDK should already be installed in MCUXpresso IDE. Drag-and-drop the .zip file into the Project Explorer view, and then compile and flash. NXP Products Link i.MX RT1060 Evaluation Kit i.MX RT1060 Evaluation Kit | NXP  4.3" LCD Panel 4.3" LCD Panel RK043FN02H-CT | NXP 

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

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

Description Application demo recognizes 10 keywords: "yes", "no", "up", "down", "left", "right", "on", "off", "stop", "go" spoken into the on-board microphone. Use terminal output - 115200 baud - to see results. This demo was created as part of hands-on lab demonstrating model conversion which can be found here: https://community.nxp.com/docs/DOC-344227. Software The RT1060 SDK should already be installed in MCUXpresso IDE. Drag-and-drop the .zip file into the Project Explorer view, and then compile and flash. NXP Product Link i.MX RT1060 Evaluation Kit i.MX RT1060 Evaluation Kit | NXP