Description An energy display is an easy way for a user to view all the information collected by the sensors around their home. This application needs to support multiple protocols such as Zigbee and IEEE802.15.4 in order to be able to share the information with all the sensors around it. The Sigfox protocol could also be included in the features of this display. Block Diagram Products Category Name 1: Microcontroller Product URL 1 LPC546XX Microcontroller (MCU) Family | NXP  Product Description 1 The LPC546xx MCU family combines power efficiency with multiple high-speed connectivity options, advanced timers, and analog features. The LPC546xx LCD Controller supports both Super-Twisted Nematic (STN) and Thin-Film Transistor (TFT) displays. It has a dedicated DMA controller, selectable display resolution (up to 1024 x 768 pixels), and supports up to 24-bit true-color mode. Product link 2 Zigbee and IEEE 802.15.4 wireless microcontroller with 512 kB Flash, 32 kB RAM | NXP  Product Description 2 The JN5169 is an ultra-low-power, high-performance wireless microcontroller suitable for ZigBee applications that allows OTA upgrade capability without external memory.   Category Name 2: Transceiver Product URL 1 Low-Power Multi-Channel UHF RF Wireless Platform | NXP  Product Description 1 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. The OL2385 is a 2-way RF channel with the most common modulation schemes for networking applications covering a full range of frequency bands from 160 up to 960 MHz   Category Name 3: Wireless charging receiver Product URL 1 NXxA4WP | NXP  Product Description 1 The NX1A4WP is an A4WP (Alliance for Wireless Power) compliant wireless power receiver front end. The integrated rectifier supports voltages of up to 20 V and is protected by an integrated automatic clamping function and an automatic over-power protection function.   Category Name 4: DC-to-DC Boost Converter Product URL 1 PCA9410/9410A | NXP  Product Description 1 The PCA9410 is highly efficient 3.0 MHz, 500 mA, step-up DC-to-DC converters, it converts input voltages from 2.5 V to 5.25 V to a fixed output voltage of 5.0 V. The PCA9410 delivers efficiency of up to 94 % enables an extended battery life in all portable designs.   Category Name 5: RTC with battery backup 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 Oscillator. The PCF2129 has a selectable I2C-bus or SPI-bus, a backup battery switch-over circuit, a programmable watchdog function, a timestamp function, and many other features.   Category Name 6: Security IC 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. The A71CH includes a complete product support package that simplifies design-in and reduces time-to-market.   Category Name 7: Low-rate multiplexor Product URL 1 Universal LCD driver for low multiplex rates | NXP  Product Description 1 The PCF85133 is a peripheral device which interfaces to almost any Liquid Crystal Display (LCD) with low multiplex rates, also features an internal LCD bias generation with voltage-follower buffers. The PCF85133 has a selectable backplane drive configuration: static or 2, 3, or 4 backplane multiplexing Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/TN00025.zip  LPC54608 LCD Dual Frame Buffer with eXecute-In-Place (XIP) from Quad SPI flash https://www.nxp.com/docs/en/nxp/application-notes/AN12027.zip Connecting TFT LCD with LCD controller of LPC MCU https://www.nxp.com/docs/en/application-note/AN11662.pdf High-performance PCB antennas for ZigBee networks Training URL CIT-N1778 Smart Metering RF Technologies  Power Management  Related Demos from Communities URL Designing with the New Ultra-Low-Power BLE System on Chip 

  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.   A smart plug controls the energy supply of devices connected to it. Using a ZigBee® interface this device connects to a gateway where you can send commands to turn on/off or see the power consumption of the device connected to it.   Features   Tamper detection with time stamping USB battery charging (CC/CV) and Energy Star 2.0 compliant Very low current solution for long battery life System BOM is low in component count and cost 6 LED drivers Integrated power amplifier for long range and robust communication   Block Diagram     Products   Category Name 1:  MCU Product URL 1 Arm® Cortex®-M0+|Kinetis® KM1x 50 MHz 32-bit MCUs | NXP  Product Description 1 The KM1x include a high-accuracy, real-time clock delivers less than 5 PPM drift over temperature. Metrology firmware for calculating active, reactive and apparent power using a variety of algorithms is provided free of charge.   Category Name 2: Power management Product URL 1 HV start-up flyback controller with integrated MOSFET for 5 W applications, f~burst = 1270 Hz | NXP  Product Description 1 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. Product URL 2 PCA9410/9410A | NXP  Product Description 2 The PCA9410 and PCA9410A DC-to-DC converters are optimized for battery-powered applications. High efficiency of up to 94% enables an extended battery life in all portable designs.   Category Name 3: 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.   Category Name 4: Peripherals Product URL 1 PCA9955BTW | NXP  Product Description 1 The PCA9955B is an I2C-bus controlled 16-channel constant current LED driver optimized for dimming and blinking 57 mA Red/Green/Blue/Amber (RGBA) LEDs. Product link 2  PCF2129 | NXP  Product Description 2 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.   Documentation Power Management for Kinetis:  https://www.nxp.com/docs/en/application-note/AN4503.pdf   Tools   Product Link TWR-KM34Z50M: Kinetis M Series Tower System Module TWR-KM34Z50M|Tower System Board|Kinetis MCUs | NXP  TEA1721BDB1065: TEA1721 universal mains white goods flyback SMPS demo board TEA1721 universal mains white goods flyback SMPS demo board | NXP  OM15020: JN5169 USB Dongle for ZigBee JN5169 USB Dongle for ZigBee | NXP 

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 

  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 

  Overview Small and medium appliances are part of the things we use every day in our homes. Some of these applications have a similar operating foundation, in this post we present the necessary tools with which you can learn and develop your own application. Block Diagram Base Small and medium appliances are part of the things we use every day in our homes. Some of these applications have a similar operating foundation, in this post we present the necessary tools with which you can learn and develop your own application. For this application we use the i.MX RT1050 as the main MCU. Guides for using NFC with the i.MX RT MCU Guide for using NTAG I²C plus with i.MX RT Boards NFC Reader Library Porting to i.MX RT1050 Guide for user interface with i.MX RT 1050 Hands-On Workshop: Graphics—How To Create Graphics with i.MX RT (1060, 1050 or 1064) - Lab Material 1 Base and Motor Control A second diagram gives us an equal basis, only with the difference of an extra motor control block, we continue to use the i.MX RT 1050 Guide for the use of motor control Get Your Motor Spinning with i.MX RT - Lab 1 Get Your Motor Spinning with i.MX RT - Lab 2 To finish it is necessary to unite everything done with the previous tutorials to have a complete application, which corresponds to the following diagram. Create your application with and share it with us in the NXP Designs community

  Overview Discover multicore solutions for multimedia and display applications with high-performance and low-power capabilities that are scalable, safe and secure. NXP portfolio counts with multicore solutions for multimedia and display applications with high-performance and low-power capabilities that are scalable, safe, and secure. This solution is based on an i.MX RT1050 MCU. This application processor provides industry-leading audio, voice and video decoder with fluent video play effect. Block Diagram Products Category MCU Product URL i.MX RT1050 Crossover MCU with Arm® Cortex®-M7 core  Product Description The i.MX RT1050 is the industry's first crossover MCU and combines the high-performance and high level of integration on an applications processors with the ease of use and real-time functionality of a microcontroller.   Category RTC Product URL PCF85063B: Tiny Real-Time Clock/calendar with alarm function and SPI‑bus  Product Description The PCF85063BTL is a CMOS Real-Time Clock (RTC) and calendar optimized for low power consumption.   Category Wi-Fi Product URL 88W8801: 2.4 GHz Single-Band 1x1 Wi-Fi® 4 (802.11n) Solution  Product Description The 88W8801 is a highly integrated, single-band (2.4 GHz) Wi-Fi 4 1x1 System-on-Chip (SoC), specifically designed to support High Throughput (HT) data rates.

  Overview NXP’s Motion Control and Robotics solution provides the computing performance, embedded connectivity, low latency and a real-time open source operating system to address the requirements for multi-axis motion control and robotics applications.  This solution is based on an i.MX RT1050, which controls four steppers motors that activates the different kind of movement of the robotic arm for the 3D printer to function. This solution also counts with the FreeMASTER GUI for easy debugging and a better presentation and control of the system. Use Cases Our robust product portfolio makes motor and robotics control more precise, secure and effective for the creation of end-products with applications like: 3D printers Industrial applications: Welding machines Material handling Painting and drilling Assembly machines Surgical assistants Block Diagram Products Category MCU Product URL i.MX RT1050 Crossover MCU with Arm® Cortex®-M7 core  Product Description The i.MX RT1050 is the industry's first crossover MCU and combines the high-performance and high level of integration on an applications processors with the ease of use and real-time functionality of a microcontroller.   Category Motor Driver Product URL GD3000: 3-Phase Brushless Motor Pre-Driver  Product Description The GD3000 is a gate driver IC for three-phase motor drive applications providing three half-bridge drivers, each capable of driving two N-channel MOSFETs.   Category Power Management Product URL PCA9412: 3.0 MHz, 300 mA, DC-to-DC boost converter  Product Description The PCA9412 and PCA9412A are highly efficient 3.0 MHz, 300 mA, step-up DC-to-DC converters.

  Overview NXP home appliance solutions make every day easier: through quality, cost-effective products above the performance bar in processing, efficiency, safety, and functionality. NXP's integrated solutions are powering the next wave of smart buildings with cloud-based voice assistance, intelligent automation, monitoring, and safety. From multichannel home theater surround systems to tiny cell phones, we cover virtually every system in the home, in the car, or on the move. The i.MX 8M Mini is NXP’s first embedded multicore applications processor built using advanced 14LPC FinFET process technology, providing more speed and improved power efficiency; he i.MX 8M Mini family may be used in any general purpose industrial and IoT application. This solution provides an all audio and voice low latency processing with with a significant system simplification via integration. Use Cases Discover multicore solutions for multimedia and display applications with high-performance and low-power capabilities that are scalable, safe, and secure. HMI solutions for intuitive experiences Power-saving motor control and power management Voice, vision and anomaly detection Immersiv3D™ audio solution Block Diagram Products Category MPU Product URL i.MX 8M Mini - Arm® Cortex®-A53, Cortex-M4, Audio, Voice, Video  Product Description The i.MX 8M Mini is NXP’s first embedded multicore applications processor built using advanced 14LPC FinFET process technology, providing more speed and improved power efficiency.   Category Power Management Product URL PCA9450: Power Manage IC (PMIC) for i.MX 8M Mini/Nano/Plus  Product Description The PCA9450 is a single chip Power Management IC (PMIC) specifically designed to support i.MX 8M family processor in both 1 cell Li-Ion and Li-polymer battery portable application and 5 V adapter nonportable applications.   Category LED Driver Product URL PCA9955BTW: 16-channel Fm+ I²C-bus 57 mA/20 V constant current LED driver  Product Description The PCA9955B is an I2C-bus controlled 16-channel constant current LED driver optimized for dimming and blinking 57 mA Red/Green/Blue/Amber (RGBA) LEDs in amusement products.   Category Analog Switch Product URL NX3L1G3157: Low-ohmic single-pole double-throw analog switch  Product Description The NX3L1G3157 is a low-ohmic single-pole double-throw analog switch suitable for use as an analog or digital 2:1 multiplexer/demultiplexer.   Category Audio Streaming Product URL NXH3670: Ultra-low Power, Low Latency Audio for Wireless Gaming Headphone  Product Description The NxH3670 constitutes a highly integrated, single-chip ultra-low-power 2.4 GHz wireless transceiver with embedded MCU (Integrated Arm® Cortex®-M0 processor), targeted at wireless audio streaming for gaming headphones, delivering low latency audio and ultra-low power consumption.   Category Wi-Fi Product URL 88W8987: 2.4/5 GHz Dual-Band 1x1 Wi-Fi® 5 (802.11ac) + Bluetooth® 5 Solution  Product Description The 88W8987 is a highly integrated WLAN (2.4/5 GHz) and Bluetooth single-chip solution, specifically designed to support the speed, reliability, and quality requirements of next generation Very High Throughput (VHT) products.   Category Audio Amplifiers Product URL TDF8597TH: I2C-Bus Controlled Dual Channel 43 W/2 Ω, Single Channel 85 W/1 Ω Class-D Power Amplifier with Full Diagnostics  Product Description The TDF8597 is a dual Bridge-Tied Load (BTL) car audio amplifier comprising an NDMOST-NDMOST output stage based on SOI BCDMOS technology.

  Overview Soundbar Market 2019 to showing impressive growth by 2024. NXP’s advanced Immersiv3D audio solution brings breakthrough cinema audio experience to homes at a fraction of the cost Premieres NXP smart sound bar and AV receiver turnkey reference designs supporting Dolby Atmos, the latest audio codecs, and multichannel voice control features i.MX 8M Family targets BOM reduction by replacing Dolby/DTS DSPs in system with higher on-chip ARM processing ability. One-chip solution with flexible SW audio framework (Immersiv3D) to handle audio decode and pre/post processing, latency control, audio distribution and also easy to add voice assistant services (AVS and GVA) with multi-channel AEC and beamforming to create the immersive experience. Engage with rich 3rd parties to provide complete ecosystem (sound-bar with AVS/GVA, acoustics tuning and virtual sound enabling) to the customer. Use Cases 4K/8K TVs getting thinner, but the in-device sound quality is very limited. (such as LG OLED TV is 2.57 mm), audio moves to separate/external sound bars or speakers. Movie and gaming contents provider such as (Blu-Ray Disks, Netflix, VUDU, Prime Video, Hulu, iTunes, PS4, XboX One), pushing Audio quality AND COMPLEXITY higher, such as Dolby ATMOS and DTS:X. Block Diagram Products Category MPU Product URL i.MX 8M Mini - Arm® Cortex®-A53, Cortex-M4, Audio, Voice, Video  Product Category The i.MX 8M Mini is NXP’s first embedded multicore applications processor built using advanced 14LPC FinFET process technology, providing more speed and improved power efficiency.   Category Wi-Fi Product URL 88W8987: 2.4/5 GHz Dual-Band 1x1 Wi-Fi® 5 (802.11ac) + Bluetooth® 5 Solution  Product Description The 88W8987 is a highly integrated WLAN (2.4/5 GHz) and Bluetooth single-chip solution, specifically designed to support the speed, reliability, and quality requirements of next generation Very High Throughput (VHT) products.   Category Wireless Audio Product URL NXH3670: Ultra-low Power, Low Latency Audio for Wireless Gaming Headphone  Product Description The NxH3670 constitutes a highly integrated, single-chip ultra-low-power 2.4 GHz wireless transceiver with embedded MCU (Integrated Arm® Cortex®-M0 processor), targeted at wireless audio streaming for gaming headphones, delivering low latency audio and ultra-low power consumption.   Category RTC Product URL PCA85073A: Automotive tiny Real-Time Clock/Calendar with alarm function and I2C-bus   Product Description The PCA85073A is a CMOS1 Real-Time Clock (RTC) and calendar optimized for low power consumption. An offset register allows fine-tuning of the clock.   Category Temperature Sensor Product URL PCT2075: I2C-Bus Fm+, 1 Degree C Accuracy, Digital Temperature Sensor And Thermal Watchdog  Product Description The PCT2075 is a temperature-to-digital converter featuring ±1 °C accuracy over ‑25 °C to +100 °C range.   Category LED Driver Product URL PCA9955BTW: 16-channel Fm+ I²C-bus 57 mA/20 V constant current LED driver  Product Description The PCA9955B is an I2C-bus controlled 16-channel constant current LED driver optimized for dimming and blinking 57 mA Red/Green/Blue/Amber (RGBA) LEDs in amusement products.   Category Power Management Product URL PCA9450: Power Manage IC (PMIC) for i.MX 8M Mini/Nano/Plus  Product Description The PCA9450 is a single chip Power Management IC (PMIC) specifically designed to support i.MX 8M family processor in both 1 cell Li-Ion and Li-polymer battery portable application and 5 V adapter nonportable applications.   Category Analog Switch Product URL NX3L1G3157: Low-ohmic single-pole double-throw analog switch  Product Description The NX3L1G3157 is a low-ohmic single-pole double-throw analog switch suitable for use as an analog or digital 2:1 multiplexer/demultiplexer.   Category Audio Framework Product URL IMMERSIV3DAF: Immersiv3DTM Audio Framework Software  Product Description The innovative audio framework software integrated with our i.MX 8M Mini applications processor enables consumer electronics OEMs to bring true immersive audio performance and smart capabilities like voice control to a broad range of consumer audio devices.

  Overview Smart, integrated building systems empower users to improve energy efficiency, lower maintenance costs, and conveniently control environments from smartphones and advanced HMIs. Their interconnected features house a platform of big data to make smarter, environmental-friendly decisions while ensuring maximum comfort and performance. Features Smart Peephole implement camera capture and LCD display function at the same time. Touch screen to trigger JPEG compression and storage. User can take it as a reference for basic framework for video transfer. Optional WiFi & BLE module to transmit the captured information to the user. Use Cases Home secure. Supervising children and pets. Loss prevention. Locating bugs and pests. Vandalism deterrence. Block Diagram Products Category MCU Product URL i.MX RT1050 Crossover MCU with Arm® Cortex®-M7 core  Product Description The i.MX RT1050 is the industry's first crossover MCU and combines the high-performance and high level of integration on an applications processors with the ease of use and real-time functionality of a microcontroller.   Category RTC Product URL PCF85063TP: Tiny Real-Time Clock/calendar  Product Description The PCF85063TP is a CMOS Real-Time Clock (RTC) and calendar optimized for low power consumption.   Category Wireless Product URL 1 QN902X: Ultra low power Bluetooth LE system-on-chip solution  Product Description 1 QN902x is an ultra-low power, high-performance and highly integrated Bluetooth LE solution. Product URL 2 88W8801: 2.4 GHz Single-Band 1x1 Wi-Fi® 4 (802.11n) Solution  Product Description 2 The 88W8801 is a highly integrated, single-band (2.4 GHz) Wi-Fi 4 1x1 System-on-Chip (SoC), specifically designed to support High Throughput (HT) data rates.

Overview    This demo uses the i.MX RT600 EVK (MIMXRT685-EVK) with a GUI software to playback MP3 files. An equalizer can be switch on to demonstrate the HiGi-4 audio DSP. Beside the board itself it requires a SD-card with MP3 music tracks and a portable speaker or headphone.    The i.MX RT600 is a crossover MCU family optimized for 32-bit immersive audio playback and voice user interface applications combining a high-performance Cadence® Tensilica® HiFi 4 audio DSP core with a next-generation Cortex-M33 core. The i.MX RT600 family of crossover MCUs is designed to unlock the potential of voice-assisted end nodes with a secure, power-optimized embedded processor. Demoing Guide No software installation required to demo this board. To build this demo, pls. refer to the description at the end of this guide. Insert the SD-Card with mp3 files to on-board SD Card connector, not to the one below the LCD board Connect headphones or external speakers to the 3.5mm jack Line Out (J4) Supply the board through Micro-USB connector (J5) in the upper right edge Three main windows/tabs on the GUI: File playback This screen shows: • Album artwork/NXP logo • Current track information (title, artist, album) • Media controls (prev, play/stop, next) • Volume slider Playlist This screen shows: • Playlist information from mp3 files found in SD card • A track for playback can be selected by touching the line Spectrum visualizer This screen shows: • Seven vertical bars showing the frequency spectrum of the current track being played. • Button for toggling Equalizer On/Off o if on the sound is AM radio style Products i.MX RT600 Evaluation Kit | NXP 

  JN51xx Flash Programmer可以支持NXP JN516x，JN518x全系列Zigbee SoC的程序烧写。通过多端口USB Hub，支持8路芯片同时烧写，可用于小规模量产烧写。这是一个绿色工具，无需安装即可运行。 JN51xx Flash Programmer只支持FT232 USB to UART串口转换接口芯片，具体信息可以参考JN-RM-2065文档。 使用时先选择芯片系列和需要烧写的Firmware固件，执行”Program Flash”即可。 提供JN51xx UART ISP通信协议源代码。

电容式感应触摸按键可以穿透绝缘材料外壳，准确无误地侦测到手指的有效触摸。并保证了产品的灵敏度、稳定性、可靠性等不会因环境条件的改变或长期使用而发生变化，并具有防水和强抗干扰能力，超强防护，超强适应温度范围 电容式触摸按键控制芯片通常广泛适用于遥控器、灯具调光、各类开关以及车载、小家电和家用电器控制界面等应用中。芯片内部集成高分辨率触摸检测模块和专用信号处理电路，以保证芯片对环境变化具有灵敏的自动识别和跟踪功能。芯片还必须满足用户在复杂应用中对稳定性、灵敏度、功耗、响应速度、防水、带水操作、抗震动、抗电磁干扰等方面的高体验要求。本文将介绍一套基于NXP KE16Z64的轻量级TSI算法。 基于KE1XZ64平台的TSI轻量级算法： KE1XZ64继承了KE family的高可靠抗干扰性，并提供了更小的引脚封装尺寸，让客户硬件设计更加便利。其内部集成了改进版的TSI模块，性能更加稳定可靠，该模块支持自耦和互耦两种方式：自耦模式下最多可支持25个按键，互耦模式最多可支持36个按键，因此能够覆盖当前市场上绝大部分的触摸应用场景。 NXP官方的NT LIB软件虽然功能完善，但由于代码量大且程序架构复杂等原因，部分客户不愿意选用。所以该市场对于轻量级应用代码还是有需求的。 此参考设计展示了TSI轻量级算法的具体实现，按照配置模式分为两个对应的参考例程：自耦模式为12个按键的功能实现，硬件基于KE16 PCB，主要适用于按键所需数目少的应用场景；互耦模式为36个按键的功能实现，硬件基于RT-TSI-KE16，主要适用于按键所需数目多的应用场景。该算法精简可靠，十分易于移植，使客户可以很快地上手。并且可以结合使用NXP的GUI监测软件FreeMaster，方便中后期的灵敏度调试及问题追踪。 此套算法在实验室通过了IEC61000-4-6注入电流可靠性测试。 参考代码及说明文档请详见附件压缩包。

This is a quick video for demonstration purposes of the i.MX RT1060 Evaluation Kit capability for running an Embedded Wizzard GUI application and a Neural Network Model as an inference engine.

使用NXP集成丰富的模拟外设和数字接口，针对成本敏感，低功耗电池供电应用场景应用的K32 L2B系列，可以实现额温测量的应用。其具有如下特性： 1. 集成多通道16-bit ADC，可用于采集红外温度传感器的信号，以及采集电池电压，目前K32L2B的16位单端模式精度可以达到13.9位，差分模式可以达到14.5位，使用芯片内置的ADC就可以满足要求，实现0.1度温度测量精度要求。 2. 12-bitDAC为外置运放提供偏置电压；可以节省一颗外部的3V转1.2V电平转换芯片或者外围分离器件搭建的降压转换电路（由于运放的偏置电路消耗电流只需要uA级，目前片内的一路DAC可以满足此要求）。另外Vref 该引脚可以内部输出1.2V参考电压，带载能力也可达1mA。 3. sLCD：低功耗段码显示支持24x8或者28x4段，sLCD引脚既可以做Segment，也可以做COM口的功能，即使未配置为sLCD的引脚也可以做其他IO功能控制口。 4. 3路I2C(其中的2路I2C中一路接红外数字传感器或者接近传感器，另外一路接高精度数字温度传感器，可外接NXP PCT2075温度传感器芯片，还有预留的1路I2C用FlexIO实现标准的I2C或者UART或者SPI通信) 。 5. 2路PWM用于驱动LED指示LED或者蜂鸣器报警信号，以及实现语音播放功能。 6. USB FS 2.0从设备接口，不要额外的晶体。 7. 支持最大256K Flash，48 MHz Arm® Cortex®-M0+内核。K32L2B11VLH0A 64K Flash，32K RAM的配置即可满足额温枪的需要。 8. 低功耗特征：运行模式达 54 uA/MHz，在深度睡眠模式下RAM和RTC处于保持状态的功耗为1.96uA；满足采用采用电池供电的手持式红外测温枪，对系统功耗苛刻的要求。 9. 具有小于10us的快速唤醒模式，能及时唤醒主控进入运行模式。 10. 64 LQFP封装, 至少提供5个GPIOs满足用户人机界面设置按键需求。如果是做额温测试模块外接高端i.MX系列带大屏幕彩色显示屏的应用，可以选择32脚封装，例如K32L2B11VFM0A。 11. 额温枪对Flash容量大小的需求，主要是NTC（RT电阻温度换算表）和红外测温（VT电压温度换算表）标定参数存储，语音播报数据的存储，64K Flash是可以满足要求的。 12. K32 L2B系列具有广泛的产品路线图，支持引脚功能完全兼容，扩展的Flash，可以添加诸如蓝牙以及二维码扫码等新型扩展功能需求。 13. 内置ROM bootloader方便用户程序在线升级和温度参数标定，内置高精度的内部时钟，此功能用于工厂固件生产配置，使用NXP提供的Kinetis Flash Tool下载工具软件 GUI，可以直接方便的通过USB刷新固件和校准配置参数，无需额外的仿真下载调试工具。 14. MCUXpresso ConfigTool：易用的软件配置工具以及完整的外设驱动SDK包方便用户快速原型开发。 目前64脚的IO资源已经用足，所以做额温枪，使用集成段码显示的单芯片，64脚封装应该是主流。当然也有48或者32脚的产品，一般都是需要外置sLCD显示驱动芯片。 基于NXP K32L2B MCU的额温枪参考方案(硬件篇)： https://mp.weixin.qq.com/s/k96HO32ek2i_FjADtdsK9g 基于NXP K32L2B MCU的额温枪参考方案(软件篇)： https://mp.weixin.qq.com/s/QVCeW1RS57tAYaDi8mQ7Lw

This guide is intended as a reference for creating a demo application using the SLN-VIZN-IOT kit. In this guide, we will be constructing a demo e-lock application using the SLN-VIZN-IOT kit for secure face recognition using liveness detection/anti-spoofing. If you haven’t already, be sure to check out the Getting Started Guide for the SLN-VIZN-IOT kit here. Build Process Our e-lock design will make use of GPIO_AD_B0_2 and GPIO_AD_B0_03 to drive an H-Bridge circuit which actuates a lock using a 9-volt battery. These pins (and our ground) can be found on the serial header located on the front of the kit as shown below: To build our e-lock, we will be modifying the sln_vizn_iot_userid_oobe application found in the SLN-VIZN-IOT SDK. Instructions for downloading the SDK and importing the userid_oobe application can be found in the ‘Get Software’ and ‘Build and Run’ sections of the Getting Started Guide. The following video shows the modifications necessary to implement the E-Lock demo using the sln_vizn_iot_userid_oobe project To enable these pins as GPIOs, we must modify pin_mux.h and pin_mux.c found under the board folder. For simplicity, we contained these initializations in a function called BOARD_InitDoorLockPins. The code to enable these pins was generated using MCUXpresso’s integrated Config Tools, although this is not necessary. The MCUXpresso Config Tools can be read about in-depth here. Next, we need to make sure that the BOARD_InitDoorLockPins function we just created actually gets called so that the GPIOs will work the way we want them to. To do this, we will add the function call inside of our main function in main.c. After adding the door lock initialization to main, we will modify sln_system_state.cpp found under the source folder to add the code which will toggle the GPIO’s we setup in the previous step. To do this, we will make use of the GPIO_PinWrite function found in “fsl_gpio.h.” Using this function requires us to add the line “#include fsl_gpio.h” at the top of sln_system.cpp like shown below: The GPIO_PinWrite functions here will be used to unlock the door whenever a face is recognized (sysStateDetectedKnownUser) and lock the door whenever no known users are in view of the camera (sysStateDetectedNoUser). With the software modifications complete, we need to compile the code and flash our kit with the updated firmware. This can be done by using the ‘Debug’ option found in the Quickstart Panel as shown below. Make sure that the project is compiled and flashed is the sln_vizn_iot_userid_oobe project by verifying the name of the project shown at the top of the Quickstart Panel. For more detailed instructions about flashing the SLN-VIZN-IOT, check out the Flash and Debug SLN-VIZN-IOT Project section under Build, Run in the Getting Started Guide.  With the software modifications complete and the updated firmware installed, all that’s left to do is to add some wires from the GPIO pins to the door lock and power on the kit. Now our e-lock is ready to go! When a user with an unrecognized face (indicated by a red LED) tries to turn the handle nothing happens.  But when a user with a recognized face (indicated by a green LED) tries to turn the handle, the lock is disengaged allowing the latch to move. Conclusion With just a few lines of code and some external hardware, we were able to create a fully-functioning face-controlled e-lock that works entirely offline just by using the SLN-VIZN-IOT. Not to mention the fact that there was no need for any ML experience whatsoever. Because the SLN-VIZN-IOT was designed with flexibility in mind, all sorts of use cases can be supported with only minimal effort when compared to a face recognition implemented from scratch. By using the production-ready software that comes provided with the kit, it’s now possible to add local (no cloud connectivity necessary) face and emotion recognition capabilities to all sorts of products in record time. We hope this guide was helpful in showing you how to jumpstart your face recognition project with the power of the SLN-VIZN-IOT. 

Introduction The LS1046A MPU capabilities to manage data are one of the cornerstones in its design, this makes it a perfect choice when the end-application is related to data network management. The Frame Management features enable the possibility to process big data files that later on can be distributed by the network. The LS1046A also offers up-to 3 PCIe 3.0 Lanes to connect-state-of-the-art wireless cards and one SATA 3.0 interface that can be used for high-speed storage purposes. Overview This demonstration belongs to a demo bundle of the FRWY LS1046A, it intends to showcase the performance of the board in different use cases regarding edge computing. This demo provides the user an example of the LS1046A behavior when is used as a video streamer box over the QCA M.2 Wi.Fi. card. The user can access to the video vault by using a LAN infrastructure and reproduce any video in a tablet, smartphone or smart tv. Video streaming applications, centralize the highest workload in specific single or distributed systems, leaving the end-device a low demand workload. Having single-purpose systems allows an easier upgradable storage capacity, which translates to lower costs in these devices. Block Diagram Products NXP Product Link FRWY LS1046A TP LS1046A Freeway Board | NXP

This video shows how to control the QN9080 PWM using NXP's Toolbox Android app via simple commands.

Description NXP's leadership position in the security, contact and contactless identification space makes us the experts in access control solutions that are safe, secure, robust and reliable. NXP has devices for driving user interfaces as well as lock mechanisms. NXP also has different solutions for addressing designs using both contact and contactless identification systems. Putting these NXP devices together makes for compelling access control solutions. Use your phone or smart card for Access control to open doors or give access to machine configurations.  Use cases Corporate/campus access control system Lock manufacturers (mechanical and electronic) Industrial equipment with safety conditions or control restriction Components for multi-user appliances like printers Professional tools Smart lock manufacturer for smart home applications Block Diagram Products Category Name MCU Product URL Arm® Cortex®-M4|Kinetis® K64 120 MHz 32-bit MCUs | NXP  Product Description The Kinetis® K series MCU portfolio offers the broadest selection of pin, peripheral- and software-compatible MCU families based on the Arm® Cortex®-M4 core. Category Name Secure Product URL A71CH | Plug and Trust for IoT | NXP  Product Description  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. Category Name NFC Product URL PN5180 | Full NFC Forum-compliant frontend IC | NXP  Product Description  The PN5180 is a high-performance full NFC Forum-compliant frontend IC for various contactless communication methods and protocols. Tools Product Link Freedom Development Platform for Kinetis® K64, K63, and K24 MCUs FRDM-K64F Platform|Freedom Development Board|Kinetis MCUs | NXP  A71CH Arduino® compatible development kit OM3710/A71CHARD | A71CH Arduino® compatible development kit | NXP  PN5180 NFC Frontend Development Kit for POS Terminal Applications OM25180 |PN5180 NFC Development Kit for POS Readers | NXP 

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