A reference design using DMA to scan ADC0 and ADC1 channels within FreeRTOS task, trigger interrupt when one scan completes. Hardware FRDM-K22F (https://www.nxp.com/design/development-boards/freedom-development-boards/mcu-boards/nxp-freedom-development-platform-for-kinetis-k22-mcus:FRDM-K22F). IDE IAR8.4.2. SDK The code is based on SDK2.2 (or later version) which can be built and downloaded on nxp website https://MCUXpresso.nxp.com  Function Description K22F MCU support 2 ADC modules, they are configured to do ADC channel scanning at same time. The ADC channels are defined in ADC0_Channel_List and ADC1_Channel_List, and the ADC conversion result will be saved in ADC0_Result and ADC1_Result. DMA and DMA MUX are configured to load the ADC channels and save the ADC conversion result. The DMA interrupt will be triggered when the scanning is completed. The ADC scanning is re-started when current loop is completed. Customer can processing the ADC result. To demonstrate multi-tasks, there are the other two tasks was implemented: I2C task and UART2 task.  The sensor on the FRDM-K22F board will be read in I2C task. Uart2 task recieve the data from UART2 and send the data back. Running the Demo ============================================================ 1) Open the IAR project 2) Build the project and download the code to FRDM-K22F board 3) Running the code 4) Add the arrary ADC0_result, and ADC1_Result to living watch window, the ADC result data will be refreshed. Note: Some ADC inputs are floating, so the conversion result may have great changes. 5) Open the terminal, open the serial port, and configure it with 115200/8bit/1 stop bit, the senor data will be printed in the terminal window

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.

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

Showcase the NFC support capability to provide an additional layer of security to any access area.

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

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

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

This video shows how to get GPS coordinates and send them to the internet by using the Sigfox OL2385 board

Overview This reference design demonstrates speed control of the 3-Phase Switched Reluctance (SR) motor with Hall position sensor using the NXP® 56F80x or 56F83XX Digital Signal Controllers (DSCs). It helps start development of the SR drive dedicated to the targeted application The DSC runs main control algorithm; when the start command is accepted, the state of the Hall sensors position signals is sensed and the individual motor phases are powered in order to start the motor in the requested direction of rotation without rotor alignment According to the determined switching pattern and the calculated duty cycle, the on-chip PWM module generates the PWM signals for the SR motor power stage Features Speed Control of an SR motor with position Hall sensors Targeted 56F80X, 56F83XX, and 56F81XX Digital Signal Controllers Running on a 3-Phase SR HV Motor Control Development Platform (115/230VAC) Running on a 3-phase SR LV Motor Control Development Platform (12V DC) The control technique: voltage control with a speed closed loop Hall sensors position reference for commutation Start from any motor position without rotor alignment Manual interface FreeMASTER software control interface and monitor Fault protection Block Diagram Board Design Resources

Demo Summary Our Smart Antennae Solutions make up our Internet Everywhere segment. NXP offers and develops several types of solutions for small-cell PA designers, optimized for performance and integration     Smart Antenna Solutions for "Internet Everywhere" - YouTube      Demo / product features BGA5022 High Performance Small Cell Power Amplifier 4 W peak power 400 MHz bandwidth 40% efficiency DPD agnostic   Links RF | NXP   Fast-Track 5G with NXP   Fast-Track 5G with NXP - YouTube 

Demo e-Cockpit Demo featuring cluster plus infotainment display. Infotainment display created using Crank Storyboard Suite. Cluster developed using CGI Studio   Cluster plus infotainment system with CAN communication Infotainment done with Crank Storyboard™ Suite; cluster done with CGI Studio Working hands-free profile with BlueZ and oFono open source libraries   Featured NXP Products i.MX6 i.MX6QP|i.MX 6QuadPlus Processors|Quad Core|NXP   Links Crank Demo - GUI / Software

Watch the C29x PKC, OpenSSL offload. Secure network traffic is growing ... fast! Security is everywhere and must scale and hardware acceleration is key to this NXP C29x family of crypto coprocessors.     Features SSL Acceleration with Public Key Offload C29x crypto coprocessor runs on industry-leading QorIQ SoC or x86 Enables efficient scaling with growth in secure networking traffic Featured NXP Products Product Link Crypto Coprocessor https://www.nxp.com/products/processors-and-microcontrollers/legacy-mcu-mpus/crypto-coprocessors/crypto-coprocessor:C29x?&tid=vanC29x C29x PCI Express® Adapter Platform C29x PCI Express® Adapter Platform | 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

Overview The NXP® home health hub (HHH) reference platform is designed to speed and ease development for telehealth applications using seamless connectivity and data aggregation for remote access and improved healthcare management. Multiple connectivity options to obtain data from commercially available wired and wireless healthcare devices such as blood pressure monitors, pulse oximeters, weight scales, blood glucose monitors, etc. Provides connectivity to take action with collected data by sharing it through a remote device with a display such as a tablet, PC or smartphone or through the Cloud Delivers a real-time connection to caregivers for comfort and safety to the person being monitored Features Automatic reporting of vital sign measurements Cloud connectivity and secure integration into medical vaults Pervasive mobile device access Daily activity alarms, security alarms and passive monitoring of safety sensors for early detection of injury or security risks Anytime consultation with monitoring center, medical staff, family and friends Anytime and intuitive access to trusted health resources Compelling user interface for a remote display Block Diagram Board Videos Design Resources

Demo The driver does not use a steering wheel or pedals to control a car on a race. All he uses is the movement of his head to turn the car and his mouth to accelerate and stop.       Featured NXP Products   K64_120 |Kinetis K64 120 MHz MCUs|NXP Freedom Development Platform for Kinetis|NXP Sensor Fusion|NXP   Links Arrow SAM Project   Videos          

  Description NXP Home Appliances is dedicated to provide intelligent, reliable and appealing solutions to make everyday life a bit easier.Home appliances are part of our daily lives and have been evolving with us. Our wireless MCUs add HAN, WiFi and NFC and along our security devices ensure high-quality wireless connectivity. We have a wide range of precise sensors and complete solutions to simply add voice control to any home appliance. From gas cooktops to inductive and RF cooking; electric toothbrushes with low-energy consumption and battery charging; blenders with efficient, reliable and robust motor control, and all of them need to have sensing options and secure connectivity to offer a personalized and optimal experience. Block Diagram Products Category Name 1: MCU Product URL 1 Arm Cortex-M4|Kinetis KE1xF 32-bit 5V MCUs | NXP  Product Description 1 Kinetis KE1xF MCUs are the Kinetis E high-end series MCUs, providing a robust 5V solution with the high-performance Arm® Cortex®-M4 core running at up to 168 MHz. The KE1xF features a Flextimer featured 8ch PWM supports 3-phase motor control with dead-time insertion and fault detect.   Category Name 2: Gate Driver Product URL 1 GD3100 | Single-Channel Gate Driver for IGBTs/SiC | NXP  Product Description 1 The GD3100 is an advanced single-channel gate driver for IGBTs/SiC. The integrated Galvanic isolation and low on-resistance drive transistors provide a high charging and discharging current. The GD3100 features SPI for programmability and diagnostics.   Category Name 3: LED Driver 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 in amusement products. The PCA9955B works at 31.25 kHz with a duty cycle that is adjustable from 0 % to 100 % to allow the LED to be set to a specific brightness value.   Category Name 4: AC/DC Product URL 1 TEA19363LT: GreenChip SMPS Primary Side Control IC with QR/DCM Operation and Active x-Capacitor Discharge  Product Description 1 The TEA19363LT is a member of the GreenChip family of controller ICs for switched mode power supplies.   Category Name 5: Small Engine Control Product URL 1 MC33813: One Cylinder Small Engine Control IC  Product Description 1 The NXP® MC33813 is an engine control analog power IC delivering a cost-optimized solution for managing one and one-cylinder engine. Category Name 6: Temperature Sensor Product URL 1 PCT2075: I2C-Bus Fm+, 1 Degree C Accuracy, Digital Temperature Sensor And Thermal Watchdog  Product Description 1 The PCT2075 is a temperature-to-digital converter featuring ±1 °C accuracy over ‑25 °C to +100 °C range. Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN5380.pdf  Using FTM, PDB, and ADC on KE1xF to Drive Dual PMSM FOC and PFC Tools Tools URL TWR-KE18F|Tower Development Board|Kinetis® MCU | NXP  Training Training URL Power Regulation/Market Trend and Overview of NXP AC/DC Power Solutions  Advanced Analog Solutions