Demo WaRP7 is an open source platform backed by the development community, design and manufacturing capabilities of element14. Features: CPU:  NXP i.MX 7Solo applications processor (Cortex TM -A7/Cortex TM –M4) Memory: 8GB eMMC 5.0 and 4Gb LPDDR3 Connectivity: WiFi, Bluetooth, BLE, USB-OTG, NFC Multimedia I/F: Camera, MIPI Display, Audio Sensors: Accelerometer, Barometer, Gyroscope Power: PMIC, Battery charger  BSP: Linux 3.14, Android 5.1 __________________________________________________________________________________________________________________ Featured NXP Products: i.MX7D: i.MX 7Dual Processors - Heterogeneous Processing with dual ARM® Cortex®-A7 cores and Cortex-M4 core Link WaRP7

Demo Owner Mike Stanley     Features Measuring the output from sensors, then computing the orientation of the device with the KL25 Kinetis Microcontrollers using advanced filtering techniques such as: Kalman filtering, Indirect Kalman filtering Built a representation of the current orientation of the device, linear acceleration Fusion software incorporated in standard OS systems Windows, iOS, Android Software library, visualization tools and full development suite are available for customers Featured NXP Products FXOS8700CQ (6- Axis Accelerometer + Magnetometer) FXAS21002 (3-Axis Gyroscope) Development Hardware Used FRDM- KL25Zhttps://community.nxp.com/external-link.jspa?url=http%3A%2F%2Fwww.nxp.com%2Fproducts%2Fsoftware-and-tools%2Fhardware-development-tools%2Ffreedom-development-boards%2Ffreedom-development-platform-for-kinetis-kl14-kl15-kl24-kl25-mcus%3AFRDM-KL25Z FRDM-FXS-MULTI Design Resources Sensor Fusion Library for Kinetis MCUs Sensor Fusion Toolbox for Android Sensor Fusion Toolbox for Windows Training Hands on Workshop: Sensor Fusion Library for Kinetis MCUs Links Sensor Fusion NXP Community: Sensors Best of Sensors Expo (2014 Sensor's Expo)  

Smart Pump Monitor Demo This demo shows a small water pump rig consisting of a water pump and 3 valves put together to collect data for supervised machine learning. Normal operation as well as abnormal conditions may be simulated with the rig. There are 2 sensor boards attached by clamps to the water pipe. Each sensor board has many sensors on it, but only the accelerometer will be used to gather the data. One board is used for data logging.  The other runs a model which was generated via machine learning based on data logged from the first board.  Pump vibration measurements are processed through the model by the MCU on that board to determine the operating state of the system Features Use of accelerometer to measure pipe vibration Sensing algorithm detects when the pump is clogged or drawing on air How to find patterns in data taken by NXP Sensors Links Sensor Fusion 10-Axis Sensor Data Logger http://www.nxp.com/files/sensors/doc/user_guide/RD-KL25-AGMP01-UG.pdf Related demos NXP Sensor Toolbox Demo Vibration Monitoring - Prediction using NXP Sensors Sensor Fusion for Kinetis MCUs

This NXP demo is a combination of two demos running on the MIMXRT1050-EVK board, showing USB Type-C power delivery and a GUI with touch interface running on the i.MXRT1050 MCU. See video of demo below.   First example is USBPD demo from the MCUXpresso Software Development Kit (SDK) for the kit. This SDK can be downloaded from https://mcuxpresso.nxp.com. The SDK USBPD project is included at \SDK_2.3.0_EVK-MIMXRT1050-OM13588\boards\evkmimxrt1050_om13588\usb_examples\usb_pd. This demo uses the FreeRTOS version. Generic description of this demo is included here in the SDK at \SDK_2.3.0_EVK-MIMXRT1050-OM13588\docs\usb\MCUXpresso SDK USB Type-C PD Stack User's Guide.pdf. Second example is a washing machine GUI using TouchGFX. This example is provided by Draupner Graphics with source code in their TouchGFX release, with more details shared here: https://touchgfx.com/nxp-semiconductors/i-mxrt1050-display-kit/ Here is a video overview of using this combined demo: Hardware Requirements ===================== For the full demo shown in the video, the following hardware is required: MIMXRT1050-EVK - eval kit for i.MXRT1050 MCU LCD - comes with MIMXRT1050-EVK OM13588 (x2) - USB Type-C shield board, two shields required FRDM-K64F - Kinetis K64 Freedom development board 0.1" female headers for Arduino connectors, not included Cables: USB Type-A to male micro-B (2 cables needed) USB Type-C male to Type-C male 9V power supply with barrel connector (2 supplies needed). Come with OM13588 kits Software Details ================ This demo was built with the following software versions: IAR Embedded Workbench for ARM v8.20.2 MCUXpresso SDK_2.3.0_EVK-MIMXRT1050-OM13588, Build Date: 2017-12-11 MCUXpresso SDK_2.3.0_FRDM-K64F-OM13588, Build Date: 2018-01-10 TouchGFX v4.9.0 Setup Video NXP Recommend Product Link USB Type-C Shield Board for Kinetis® Freedom and LPC Boards OM13588: USB Type-C Shield Board | NXP  i.MX RT1050 Evaluation Kit i.MX RT1050 Evaluation Kit | NXP  Freedom Development Platform for Kinetis® K64, K63, and K24 MCUs FRDM-K64F Platform|Freedom Development Board|Kinetis MCUs | NXP 

Demo Watch as the i.MX 8 development vehicle takes data in from the camera and uses one GPU and applies an image segmentation algorithm. The info is then fed to another GPU dedicated to a neural network inference engine which recognizes the traffic sign Products i.MX 8 Series Applications Processors|NXP  Training i.MX 8 Applications Processors Family Overview: i.MX 8, i.MX 8X, i.MX 8M  i.MX 8M Processor Overview and the Road Ahead  Micron’s Memory Solutions for the New i.MX 8 Microprocessor   

Demo Summary An autonomous vehicle platform leveraging NXP’s new BlueBox engine, and deploying NXP silicon and software solutions at each ADAS node. The system demonstration incorporates the BlueBox central computing engine, together with radar, lidar, and vision sensing, as well as an on-board secure V2X system     Local Motors 3D Printed Car and NXP V2X Tech Showcase - YouTube      Demo / product features   BlueBox—a unique solution designed to help meet the stringent automotive safety, power and processing performance requirements of autonomous vehicle platforms S32V automotive vision and sensor fusion processor LS2085A embedded compute processor Up to 90,000 DMIPS at < 40 W, ISO 26262 supported   NXP Recommends   Product Link NXP BlueBox https://www.nxp.com/design/development-boards/automotive-development-platforms/nxp-bluebox-autonomous-driving-development-platform:BLBX?&tid=vanBlueBox S32V234 S32V234 Vision Processor | NXP        Document Number: https://community.nxp.com/docs/DOC-330366       A20

Demo This solution showcases the i.MX 6QuadPlus along with the MMPF0100 Power Management to enable the 2D/3D cluster, infotainment and rear view camera.      Features: High performance smooth 3D graphics based on the i.MX 6QuadPlus applications processor running on Linux. On the fly rendering of the infotainment menu. Seamlessly integrate extremely responsive instruments and highly complex 3D content Optimal usage of the CPU and GPU to achieve high-end graphics on the power effective and system cost effective i.MX Switch between HD video playback and the rear view camera on the secondary display Menu can be blended over the map (BG layer) using transparency   _______________________________________________________________________________________________________________________ Featured NXP Products: Product Link i.MX 6QuadPlus Processor i.MX 6QuadPlus Applications Processors | Quad Arm® Cortex®-A9 with extreme graphics performance and enhanced power manag…  i.MX 6DualPlus Processor i.MX 6DualPlus Applications Processors | Dual Arm Cortex-A9 for extreme graphics performance| 1.2 GHz | NXP  14-Channel Configurable Power Management IC 14-Channel Configurable Power Management IC | NXP  SABRE for Automotive Infotainment Based on the i.MX 6 Series SABRE|Automotive-Infotainment|i.MX6 | NXP    _________________________________________________________________________________________________________________________   Screen shot 1: Cluster with 3D maps Real-Time 3D map (created in Blender): 640 abstract buildings. 20 different building types. 3 “special” buildings. One building type. 5x5 map grid. Dynamic, directional lighting. Calculating and updating car chase camera every frame. Smooth 3D animations even at 30 Hz. This is no video!     Screen shot 2: Secondary Display playing Video or RearView Camera

doc&project&patch&script explain to support GD qspi nor in lauterbach, flash tool,ivt,fls mcal, fls bootloader and linux/ chinese/english 目录 1    背景和参考资料... 2 1.1  背景说明... 2 1.2  参考资料... 3 1.3  硬件连接... 5 2    Lauterbach脚本驱动开发(可选) 5 2.1  准备参考脚本... 5 2.2  QuadSPI_ReadID.. 6 2.3  配置QSPI NOR为DOPI模式... 7 2.4  使用DOPI模式 READ_8DTRD.. 10 2.5  测试结果... 13 3    Flash tool算法镜像开发... 14 3.1  Flash SDK实现的算法... 15 3.2  开发新的flash源代码... 17 3.3  测试结果... 20 4    开发IVT参数头... 22 4.1  S32G QSPI控制器配置区别... 24 4.2  QSPI的配置区别... 28 4.3  测试结果... 29 5    开发MCAL Fls驱动... 30 5.1  MCAL Fls驱动工程说明... 30 5.2  FlsMem配置页... 34 5.3  MemCfg配置页... 35 5.4  测试结果... 49 6    开发Bootloader工程中Fls驱动... 51 6.1  Bootloader工程说明... 51 6.2  Bootloader与MCAL Fls驱动的不同点... 53 6.3  镜像打包... 54 6.4  测试结果... 56 7    开发Linux驱动(可选) 57 7.1  Linux GD驱动支持情况... 57 7.2  时钟相关的修改... 58 7.3  在DTS中增加GD flash的支持... 60 7.4  修改源代码增加flash信息结构体... 61 7.5  修改源代码中flash的fixup支持DTR模式... 62 7.6  Turning dummy值解决读错位的问题... 64 7.7  测试结果... 65   Content 1    Background and References. 2 1.1  Background. 2 1.2  References. 3 1.3  Hardware Link. 5 2    Lauterbach Script development(Optional) 6 2.1  Preparing the refer script 6 2.2  QuadSPI_ReadID.. 6 2.3  Configure QSPI NOR to DOPI mode. 8 2.4  Use DOPI mode  READ_8DTRD.. 11 2.5  Test report 13 3    Flash tool algorithm image development 15 3.1  Algorithms implemented by Flash SDK. 15 3.2  Develop new flash source code. 17 3.3  Test Report 21 4    Develop IVT Parameter Header 23 4.1  S32G QSPI Controllder configuration difference. 25 4.2  QSPI Configuration Difference. 30 4.3  Test Report 30 5    Develop MCAL Fls driver 31 5.1  MCAL Fls Driver Project Details. 31 5.2  FlsMem Configuration page. 35 5.3  MemCfg Configuration page. 36 5.4  Test Report 51 6    Develop Bootloader Project Fls Drivedr 52 6.1  Bootloader Project Details. 52 6.2  Difference of Bootloader and MCAL Fls Driver 54 6.3  Image Package. 56 6.4  Test Report 58 7    Develop Linux Driver(Optional) 59 7.1  Linux GD Driver Details. 59 7.2  Modification of Clock. 60 7.3  In DTS add GD flash Support 62 7.4  Modify source code and add flash information structure  63 7.5  Modify the fixup of flash in source code to support DTR mode  64 7.6  Turning Dummy Value to Solve the Misplacement Problem   66 7.7  Test Report 67

Overview   The RDS12VR is a solution engineered for window lift, power windows, and sun roof systems. Developed in partnership with Tongji University and based on the 16-bit S12 MagniV® S12VR mixed-signal microcontrollers, the RDS12VR offers control by multiple LIN salve nodes or LIN master node, through the easy-to-control Graphics User Interface (GUI). The RDS12VR reduces unnecessary external components, lowers the total bill of material (BoM), improves system quality, and saves space in automotive applications through a smaller PCB. The RDS12VR solution includes hardware for real door/window in-vehicle applications, as well as software including anti-pinch algorithms and low-level S12VR drivers for reducing time to market. Block Diagram   Products Product Features S12VR  16-bit S12 MagniV® S12VR mixed-signal microcontrollers, efficient and scalable relay driven DC motor control solution   Features Features   Window manual/automatic up/down, automatic up/down with stop function Anti-pinch in both manual/automatic mode, anti-pinch region and force can be adjusted Stuck detection out of anti-pinch region, motor overload protection Soft stop when window is close to the top/bottom Self learning, calibration by updating the window/motor parameters stored in EEPROM Use hall sensor as well as current sense to judge anti-pinch in algorithm Power   Fault diagnosis, indicating low voltage, over voltage/current/temperature etc. Low power mode (leveraging S12VR low power mode) to reduce power consumption GUI Easy-to-control GUI, set the parameters and get the status Window lift can be controlled either by multiple LIN salve nodes or LIN master node, through GUI Functional Safety Able to comply with relevant content in US Federal Motor Vehicle Safety FMVSS No. 118 standard Document DRM160, Window Lift and Relay Based DC Motor Control Reference Design Using the S12VR Microcontrollers     

  Overview The conventional timing relays offers a simple solution where the control of the systems needs to be simple or the communication isn’t possible. These have some inconvenient since they aren’t precise and are vulnerable to be modified. This application can control one or many relays. Using NFC communications, the time outputs are configured precisely and also can be programmed some functions that conventional timing relays can’t replicate. Also, the device can be password protected to block intruders or any external disturbance. Block Diagram Products Category MCU Product URL LPC8N04: Low-Cost Microcontrollers (MCUs) based on Arm® Cortex®-M0+ Core  Product Description LPC8N04 is a cost-effective MCU which serves as an entry-level connectivity solution for embedded applications with integrated NFC connectivity.   Category Power Management Product URL TEA1721BDB1065: TEA1721 Universal Mains White Goods Flyback SMPS Demo Board  Product Description This reference design demonstrates the TEA1721 as a -12 V and -3.3 V AC/DC SMPS converter that can provide 5 W into a load.   Category RTC Product URL PCF8563: Real-time clock/calendar  Product Description The PCF8563 is a CMOS Real-Time Clock (RTC) and calendar optimized for low power consumption.

Demo Advantages of i.MX6 Dual/Quad Plus Features Memory bandwidth utilization greatly improved On-die caches for GPU Multi-source GPU composition Featured NXP Products i.MX6DP i.MX6QP

Description Modern home appliances use electronics to provide a host of new features consumers expect. NXP MCUs and sensors keep up with the demand for constant improvements in reliability, cost, and energy efficiency. NXP helps to simplify consumers’ lives with sensor and MCU technology for home appliances. NXP technologies power the latest smart washing machine designs—from user interface, to motor control, to system management, to connectivity. Features Capacitive touch integrated in MCU and I2C devices TFT driving RF remote control NFC-based programming Display drivers, RTC, LED drivers Mux/Demux ESD protection AC power monitoring Fabric and detergent detection NFC-based maintenance Secure device identify Smart sensors Block Diagram Products Category Name 1: MCU Product URL 1 Arm® Cortex®-M4|Kinetis® KV3x Real-time Control MCUs | NXP  Product Description 1 The Kinetis® KV3x family of MCUs delivers a high-performance solution for BLDC, PMSM and ACIM motor control applications. Product URL 2 Arm Cortex-M0+|Kinetis KE1xZ 32-bit 5V MCUs with Touch Interface | NXP  Product Description 2 The robust TSI module provides a high level of stability and accuracy to any HMI system. Product URL 3 i.MX RT1050 MCU/Applications Crossover Processor| Arm® Cortex-M7, 512KB SRAM | NXP  Product Description 3 The i.MX RT1050 provides a Advanced multimedia for GUI and enhanced HMI. Includes a support to Wireless connectivity interface for Wi-Fi®, Bluetooth®, Bluetooth Low Energy, ZigBee® and Thread™ Category Name 2: Real Time Clock Product URL 1 PCF2123 | NXP  Product Description 1 The PCF2123 is a CMOS Real-Time Clock (RTC) and calendar optimized for low power applications. Category Name 3: Drivers 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. Product URL 2 PCA9955BTW | NXP  Product Description 2 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. Product URL 3 TEA172x | NXP  Product Description 3 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. Category Name 4: NFC Product URL 1 NTAG I2C | NXP  Product Description 1 The NTAG I2C plus has been designed to be the perfect enabler for NFC in home-automation and consumer applications, this connected NFC tag is the fastest, least expensive way to add tap-and-go connectivity to just about any electronic device. Category Name 5: 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 very high link budget for bi-directional RF communication. Product URL 3 QN908x: Ultra-Low-Power Bluetooth Low Energy System on Chip (SoC) Solution | NXP  Product Description 3 QN908x integrates a Bluetooth Low-Energy radio, controller, protocol stack and profile software on a single chip, providing a flexible and easy to use Bluetooth Low Energy SoC solution. Category Name 6: Security 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. Demos i.MX RT1050 EVK i.MX RT1050 EVK with Storyboard Suite Demo Applications  Tools Product Link TWR-KV31F120M: Kinetis® KV3x Family Tower® System Module TWR-KV31F120M|Tower System Board|Kinetis® MCUs | NXP  FRDM-KE15Z: Freedom Development Platform for Kinetis® KE1xMCUs FRDM-KE15Z Platform|Freedom Development Board | NXP  MIMXRT1050-EVK: i.MX RT1050 Evaluation Kit i.MX RT1050 Evaluation Kit | NXP  OM13512: Demoboard for the SPI-bus RTC PCF2123 Demoboard for the SPI-bus RTC PCF2123 | NXP  NTAG I2C plus Explorer Kit with NFC Reader OM5569-NT322ER | NTAG I2C plus Explorer Kit + reader | NXP  OM15020: JN5169 USB Dongle for ZigBee JN5169 USB Dongle for ZigBee | NXP  TEA1721BDB1065: TEA1721 universal mains white goods flyback SMPS demo board TEA1721 universal mains white goods flyback SMPS demo board | NXP 

Demo We will present Ethernet AVB System Solution Demo running on Vybrid VF6XX or Calypso 6M/3M MPC574XG. Application will show audio playback of multi-channel audio streams received via Ethernet/Broadcom BroadRReach physical interface/, audio data streaming capability from external source or memory, audio sample rate conversion (Vybrid specific), Virtual Autosar Ethernet driver (cross core implementation) and cross core communication module capabilities.   Audio over AVB network—multi-channel audio streaming Syntonized audio playback over multiple audio end nodes Complex AVB solution supporting Power Architecture® and ARM® architecture   Product Link Vybrid Controller Solutions Tower System Module Vybrid VF6xx Tower System Kit with Arm DS-5 | NXP  Evaluation System for MPC574xB/C/G Family Evaluation System for MPC574xB/C/G Family | NXP 

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  

  From GUI to prototype to Product - Fast The evolution of Embedded GUI Design   Products ARM Cortex-A9|i.MX 6 Multicore Processors   Links NXP Partner Program - Crank Software Partner Profile   Other Demo Videos Storyboard Demo Launcher on Freescale's iMX6 Sabre Lite From Photoshop to Crank Storyboard Suite to i.MX Series Hardware in Minutes

Overview NXP's industrial printer solution allows you to leverage the Internet of Things (IoT) technologies and easily integrate a reliable, fast, and secure design that differentiates and provides value to your customers. NXP provides an extensive technology portfolio including high-performance MPUs with advanced integrated security and connectivity features, cryptographic accelerators, and a 10-15 year product longevity program. This enables designers to successfully develop reliable, high performing, and secure printers.   Interactive Block Diagram Recommended Products   Category Products Features MPU i.MX 6SoloX Applications Processors | Arm® Cortex®-A9, Cortex-M4 | NXP 1x Cortex-A9 up to 1 GHz 1x Cortex-M4 up to 200 MHz 24-bit parallel CMOS sensor interface 2x 10/100/1000 Ethernet PCIe 2.0 (1 lane) FlexCAN 5x SPI, 6x UART, 4x I2C, 5x I2S/SSI, 8x PWM   i.MX 8M Applications Processor | Arm® Cortex®-A53, Cortex-M4 | 4K display resolution | NXP  Quad Arm Cortex-A53; Cortex-M4F OpenGL® ES 3.1, OpenGL® 3.0,Vulkan®, Open CL™ 1.2 Dual PCIe with L1 substates for fast wake-up from low-power mode Gigabit Ethernet controller supporting AVB and EEE 4x PWM, 3X SPI, 4X I2C Secure Authenticator A1006 | Secure Authenticator IC: Embedded Security Platform | NXP  Authentication time (on-chip calculations) < 50 ms Unique static pair of ECC Private Key Power Consumption: 500 μA active RTC PCF8523 | NXP  Provides year, month, day, weekday, hours, minutes, and seconds based on a 32.768 kHz quartz crystal. Resolution: seconds to years. Load Switch USB PD and type C current-limited power switch | NXP  VIN supply voltage range from 4.0 V to 5.5 V All-time reverse current protection with ultra-fast RCP recovery Adjustable current limit from 400 mA to 3.3 adjustable current limits from 400 mA to 3.3 A Clamped current output in the over-current condition USB Type-C PTN5150 | NXP  Compatible with legacy OTG hardware and software Support plug, orientation, role and charging current detection Level Translator Voltage Level Translators (Level Shifters) | NXP  Bi-directional level shifter and translator circuits include a range from single-bit to 32-bit widths GPIO Expander PCAL6416AEX | NXP  The 16-bit general-purpose I/O expander Latched outputs with 25 mA drive maximum capability The operating power supply voltage range of 1.65 V to 5.5 V PMIC 14-Channel Configurable Power Management IC | NXP  Four to six buck regulators depending on configuration, Single/dual phase/parallel options, DDR termination tracking mode option, DVS option 5V boost regulator for USB OTG CAN Transceiver TJA1057 | High Speed CAN Transceiver | NXP  VIO option allows for direct interfacing with 3.3 V and 5 V-supplied microcontrollers I2S port to allow routing to the applications processor Functional behavior predictable under all supply conditions Thermally protected AC/DC AC-DC Solutions | NXP  Increased efficiency and no-load power of the total application Universal mains operation: 90 - 264 Vac / 47 - 63Hz Over Current Protection (OCP), Over Power Protection (OPP), Over Temperature Protection (OTP) Motor Driver Dual H-Bridge Motor Driver 2-8.6 V 1.4 A 200 kHz | NXP  Low Total RDS(ON) 0.8 Ω (Typ), 1.2 Ω (Max) @ 25°C Undervoltage Detection and Shutdown Circuit Output Current 0.7 A (DC) Temperature Sensor PCT2075: I2C-bus Fm+, 1 Degree C Accuracy | NXP  Pin-for-pin replacement for LM75 series but allows up to 27 devices on the bus Power supply range from 2.7 V to 5.5 V Temperatures range from -55 °C to +125 °C Wireless MCU Arm® Cortex®-M0+|Kinetis® KW41Z 2.4 GHz Bluetooth Low Energy Thread Zigbee Radio MCUs | NXP  2.4 GHz Bluetooth Low Energy version 4.2 Compliant IEEE Std. 802.15.4 Standard Compliant AES-128 Accelerator (AESA), True Random Number Generator (TRNG)

Description   Sigfox is a French company founded in 2009 that builds wireless networks to connect IoT devices. Their original focus was on industrial/professional applications such as water meters. Sigfox has recently been applying their technology to consumer applications such as smart watches and home alarms. The key parameters for the application is the requirement to exchange continuously and securely small amounts of data. A wireless base station is a transceiver that connects other devices to one another and/or to a wider area. In this particular application we are implementing a Sigfox base station.   Features Low power Securely Small amounts of data Securely transmitting small amounts of data   Block Diagram     Products   Category Name 1: MCU Product URL 1 Layerscape LS1012A Communication Processor for the IoT | NXP  Product Description 1 The QorIQ® LS1012A processor, optimized for battery-backed or USB-powered, space-constrained networking and IoT applications.   Category Name 2: Wireless 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 bi-directional RF communication.   Category Name 3: Power Management Product URL 1 VR5100 Multi-output DC-DC for COMM Processor | NXP  Product Description 1 The VR5100 is a high-performance, multi-output DC-DC regulator designed to power single or dual core LS1 processors like LS1012A and LS1024A.   Category Name 4: Peripherals Product URL 1 Logic controlled high-side power switch | NXP  Product Description 1 The NX5P2190 is an advanced power switch with adjustable current limit. It includes under-voltage and over-voltage lockout, over-current, over-temperature, reverse bias and in-rush current protection circuits. Product URL 2  TJA1101 | 2nd generation PHY Transceiver | NXP  Product Description 2 TJA1101  offers 100Mbit/s transmit and receive capability per port over up to at least 15m of unshielded twisted pair (UTP) cable.   Tools   Product Link OM2385/SF001 - OL2385 Wireless sub-GHz Transceiver SIGFOX Development Kit with KL43Z OM2385/SF001 - SIGFOX Development Kit | NXP  Layerscape FRWY-LS1012A board FRWY-LS1012A Development Platform | NXP  KITVR5100FRDMEVM: Evaluation Kit for VR5100 Power Management Integrated Circuit Evaluation Kit for VR5100 Power Management Integrated Circuit | NXP 

QGroundControl mission planner optimized by Qt Company to run on a Technexion TEP-15 industrial panel computer. QGroundControl is part of the Dronecode Platform. ======= Please see www.hovergames.com and www.nxp.com/hovergamesdrones for more drone hardware. ======= Features: A low power, rugged, fa n-less, cost effective reference solution NXP i.MX6 Quad core processor QGroundControl is an intuitive and powerful ground control station, is part of the Dronecode Platform and supports MAVLink enabled UAVs such as those based on the PX4 Pro Autopilot and ArduPilot. Technexion TEP-15 industrial panel computer running Ubuntu or Yocto Linux  The Qt Company optimized HMI & app Communicates with the NXP RDDRONE-FMUK66 Drone Flight management unit and KIT-HGDRONEK66 www.HoverGames.com drone kit Partner Information: Technexion offers both SBCs SOMs and Panel computers using NXP i.MX family processors Qt Company provides optimized solutions and consulting services for Qt framework    See NXP UAV landing page for solutions for Rovers and Drones and the HoverGames Drone reference design, and software coding challenge. ##

Demo Owner: Nicholas Sargologos Demonstration of the IoTgateway reference design based on QorIQ Processor LS1021A multicore - utilizing the Freedom board, the Node Red network configuration tool and IBM Cloud Services   Features Multi-protocol support for IoT devices and high speed WAN / LAN for cloud connectivity The demo supports two data flows using Open source MQTT messaging protocol. There are two nodes powered by Kinetis micro-controllers and IoT Gateway. Node 1 is equipped with a sensor cluster serves as a publisher Node 2 is connected to as small fan and serves as a subscriber MQTT flows are carried from the nodes and the Iot gateway via Wi-Fi Java based environment is used to establish connectivity between nodes   Featured NXP Products LS1021A Links Product Link LS1021A-IoT Gateway Reference Design LS1021A-IoT Gateway Reference Design | NXP  Freedom Development Platform for Kinetis® KL14, KL15, KL24, KL25 MCUs FRDM-KL25Z|Freedom Development Platform|Kinetis® MCU | NXP  Block Diagram   News Buzz IoT designs need to start in the right direction - Embedded Computing Design

Watch this demonstration that shows designing made easy with NXP's MMPF0100 and MMPF0200. These devices are optimized for i.MX 6 applications processors. Power-sensitive applications include portable medical devices, gateways, routers, home security systems, e-readers, tablets, and home energy management solutions.   Features MMPF0100 and MMPF0200 (PMIC) evaluation kit PMICs are optimized for i.MX 6 applications processors Light-Load Efficiency Exceptional Quiescent current Large amount of One-Time Programmable memory on board Flexibility: Programming kit connects the device via USB port and user can set up the start-up frequency, voltage levels, current limit and the timing of each regulator on the device Featured NXP Products MMPF0100 MMPF0200https://community.nxp.com/external-link.jspa?url=http%3A%2F%2Fwww.nxp.com%2Fproducts%2Fpower-management%2Fpmics%2Fpmics-for-i.mx-processors%2F12-channel-configurable-power-management-ic%3AMMPF0200 Block Diagrams