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          

Demo This demonstration features an Unmanned Aerial Vehicle (UAV) using the powerful Kinetis KV46 MCU controlling four GD3000 Brushless DC pre-drivers to spin the four motors which drive the propellers.   Features KV5x 240MHz ARM Cortex-M7 MCU with high speed ADCs & timers controlling all 4 BLDC motors GD3000 BDLC motor pre-driver featuring fast switching to drive low Q MOSFETs Single MCU solution unique in the market – reduced component count and BOM cost with superior performance   Featured NXP Products KV5x|Kinetis KV5x Connected Control MCUs|NXP 3-Phase Brushless Motor Pre-Driver|NXP   Links Quadcopter Demonstrating UAV Speed Control Using Kinetis KV5x MCUs and GD3000 Motor Pre-Drivers

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

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

这篇文章通过覆盖与GFSK （通用频移键控）通信并行的 低功耗蓝牙 多节点连接，提供了混 合应用程序（ W ireless UART + GFSK Advertising ）的示例。这是 SDK 的另一个示例，其中我 们定义了 混合应用程序，用于与 GFSK 通信并行进行蓝牙 LE 广告和扫描。 Products Product Category NXP Part Number URL MCU KW36/35/34 https://www.nxp.com/products/wireless/bluetooth-low-energy/kw36-35-34-arm-cortex-m0-pluskinetis-kw36-35-34-bluetooth-low-energy-32-bit-mcus-nxp:KW36-35 MCU KW39/38/37 https://www.nxp.com/products/wireless/bluetooth-low-energy/kw39-38-37-32-bit-bluetooth-5-0-long-range-mcus-with-can-fd-and-lin-bus-options-arm-cortex-m0-plus-core:KW39-38-37   Tools NXP Development Board URL FRDM-KW36 Freedom Development Kit https://www.nxp.com/design/development-boards/freedom-development-boards/mcu-boards/frdm-kw36-freedom-development-kit-for-kinetis-kw36-35-34-mcus:FRDM-KW36 FRDM-KW38 Freedom Development Kit https://www.nxp.com/design/designs/freedom-development-kit-for-kw39-38-37-mcus:FRDM-KW38   SDK SDK Version URL MCUXpresso SDK Builder https://mcuxpresso.nxp.com/en/welcome

Demo The MC33SB040X familly is an antilock brake controller designed especially for two wheeler system. Thanks to the plug and play evaluation module controlled by a friendly graphical unit interface, we will show the potential of our product.  Through this demo, we will demonstrate how it is easy to use our solutions and accelerate the development of a complete ABS Motorcycle / Scooter solution.   First Motorcycle ABS IC Familly One Channel ABS IC for Scooters - Two Channels ABS IC for Motorcycles Smallest ABS Package - Low RDSon Low Side Drivers Featured NXP Product http://cache.freescale.com/files/analog/doc/brochure/BR1569.pdf  

Demo Needs for insuring availability of Electrical Power is increasing. Batteries are spreading into automotive, electrical storage systems. This demo will demonstrate the Battery Management Product Family from NXP.   Most scalable and comprehensive battery management solutions Automotive robustness and in-house manufacturing process Designed for Functional Safety   Featured NXP Product 14-Channel Li-ion Battery Cell Controller IC|NXP   Target Applications Automotive Battery Chargers and Management 48V battery applications High-voltage battery management systems (> 800 V) Industrial Energy Storage Systems Uninterrupted power supply (UPS) E-bikes, E-scooters   Block Diagram

Description The S12ZVC is a highly reliable, low-cost 16-bit MCU that offers a built-in voltage regulator along with CAN bus, 12-bit ADC and a 4-channel PWM. This feature is a great asset when developing end-node automotive solutions, such as a switch panel, based on CAN bus integration. This application integrates many buttons and knobs to control automotive systems, for example, Lights, Doors, Audio Systems, Air Conditioner or windows at the driver or passengers reach. Block Diagram   Products Category Name 1: Microcontroller Product URL 1 S12ZVC Mixed-Signal MCUs|MagniV | NXP  Product Description 1 The S12ZVC is a low-cost MCU, designed for the smallest automotive CAN-termination nodes. The S12ZVC core integrates a 5V to 12V voltage regulator, this features enable the capability for the MCU to become an automotive solution; from lights to doors, to trunk locks or air conditioner switches.   Features Features Vreg for 3.5 to 20-volt operating range, scalable in supply for on- and off-chip systems CAN physical layer High-resolution mixed signal: 12-bit resolution ADC 16ns resolution PWM and Timer Related Documentation Document URL Title https://www.nxp.com/docs/en/application-note/AN5090.pdf Using the S12ZVC Device for Industrial Applications https://www.nxp.com/docs/en/application-note/AN4851.pdf Using the High-Resolution Timer and PWM in the S12ZVC   Related Software Related Software URL https://www.nxp.com/downloads/en/board-support-packages/VLG-MC9S12ZVC-DEMOSW.zip https://www.nxp.com/downloads/en/lab-test-software/DEVKIT-S12ZVC-LAB.zip https://www.nxp.com/downloads/en/board-support-packages/DEVKIT-S12ZVC-QSP.zip  Tools Tools URL VLG-MC9S12ZVC Evaluation Board | NXP  Related Demos from Communities URL List of MagniV and S12(X) Examples and Documents  List of MagniV S12(X) Application notes  S12 / MagniV Microcontrollers  CodeWarrior Development Tools  NXP Model-Based Design Tools 

The KW36/35/34 is an ultra-low power, highly integrated single-chip family that enables Bluetooth Low Energy version 5 and Generic FSK (at 250, 500 and 1000 kbps) connectivity for automotive, industrial and medical embedded systems. KW36/35/34 integrates an Arm ®  Cortex ® -M0+ CPU, up to 512 KB Flash and 64 KB SRAM, Bluetooth LE and Generic FSK hardware Link Layers and peripherals optimized to meet the requirements of the target applications. KW36/35/34 supports up to 8 simultaneous Bluetooth LE connections as either a master, a slave or any combination. The KW36 includes an integrated FlexCAN module enabling seamless integration into an automotive or industrial CAN communication network. The FlexCAN module can support CAN’s flexible data-rate (CAN FD) protocol for increased bandwidth and lower latency. The Kinetis KW36A/35A/34A MCUs feature AEC Q100-Grade 2 temperature range qualification while the KW36Z/35Z feature and Industrial qualification. As more and more car OEM are considering to use phone as the car key, which need to localize the driver’s position, most customers prefer to use RSSI based solution as it can be supported by current phone directly, while PDE and AOA is not compatible with current phone. Common RSSI Localization method is acquiring advertising channels, It’s easy, but it is hard to make authentication, can be attacked easily and have low anti-interference ability as it only have 3 channels. So customers are asking for a new method to monitor the data channels with hopping. This demonstration system implement data channel’s RSSI tracing and monitoring of 4 BLE connections at the same time, and designed a GUI to simplify the steps to setup the demo system, and view the result visually.

Demo Owner David Lopez Explore this SafeAssure solution for ASIL D applications. This highly optimized Qorivva MCU and system basis chip (SBC) solution offers independent fail-safe monitoring for power management. It also features MCU external assessment of SBC architecture and concept to fit for ISO 26262 within an optimized ecosystem.   Features Safe Assure solution to fit for ASIL D applications Highly optimized SBC + MCU solution inside a new EVM ecosystem Independent fail-safe monitoring unit for power management and MCU External assessment of SBC (System Based Chip) architecture and concept fit for ISO 26262 MC33907 independent from physical and electrical stand point. It is Monitoring MCU and Power Management Presenting different components for the safe assure program Featured NXP Products Qoriva MCU MPC5643L MC33907 MC33908 Development Hardware Used KIT33908MBEVBE: Evaluation mother board - MC33908, Safe System Basis Chip with Buck and Boost DC/DC up to 1.5 A on Vcore

Radar-detected Emergency Break via V2X to following traffic. RoadLink V2X platform, Ethernet Switch & 77GHz Radar Dolphin transceiver Features enabled by NXP Disrupting the market with an RFCMOS Radar-solution: •Highly integrated, minimal-footprint •Low Power Consumption •Sophisticated Functional Safety Features •Fully invisible mounting •Attractive System Cost Recommended Products •RoadLink Chipset •RF Transceiver (TEF5x00) •Baseband IC (SAF5x00) •Security IC (SXF1700) •Dolphin 77GHz Radar Chip •Ethernet Switch Resources Website http://www.nxp.com/products/rf/millimeter-wave-solutions/radar-technology:RADAR-TECH Video https://www.youtube.com/watch?v=H5eLhER9jZ4

引言 FRDM-KW36包含带有32 kHz晶体振荡器的RTC模块。此模块为以极低功耗模式运行的MCU生成32 kHz时钟源。该振荡器包括一组用作CLOAD的可编程电容器。改变这些电容器的值可以改变振荡器提供的频率。 此可配置电容的范围为0 pF（禁用电容器组）至30 pF，步长为2 pF。 这些值是通过组合启用的电容器获得的。可用值为2 pF，4 pF，8 pF和16 pF。可以完成这四个数值的任意组合。如果可以使用外部电容器，建议禁用这些内部电容器（清除RTC控制寄存器SFR中的SC2P，SC4P，SCS8和SC16位）。 要调整振荡器提供的频率，必须首先能够测量该频率。使用频率计数器将是非常好的，因为它提供了比示波器更精确的测量。您还需要输出振荡器频率。要输出振荡器频率，以任意一个蓝牙演示应用程序为例，您应该执行以下操作： 调整频率示例 本示例将利用Connectivity Software Stack中的心率传感器演示（freertos版本），并假定开发人员具有从SDK到IDE导入或打开项目的知识。 1.从SDK中打开或克隆“心率传感器”项目。 2.在工作区的board文件夹中找到board.c和board.h文件。 3.如下图所示在board.h文件中声明一个void函数。该函数将RTC管脚复用设置为输出到PTB3并能够测量频率。 4. 如下所示在board.c文件中开发BOARD_EnableRtcClkOut函数。 5. 代码如下： 6. 在BOARD_BootClockRUN（board.c文件）之后立即在hardware_init函数中调用BOARD_EnableRtcClkOut函数。 7. 在工作区的board文件夹中找到clock_config.c文件。 8. 在文件顶部添加以下定义。 9. 在BOARD_BootClockRUN函数内部（也在clock_config.c文件中）搜索对函数的CLOCK_CONFIG_EnableRtcOsc调用，然后通过上述任意定义来编辑变量。 10. 最后，在项目源文件夹中的“ preinclude.h”文件中禁用低功耗选项和LED支持： 此时，您可以在PTB3中进行测量，并使用频率计数器进行频率调整。每次对电路板进行编程时，都需要执行POR以获得正确的测量。下表是从FRDM-KW36板版本B获得的，可用作调整频率的参考。 请注意，电容不仅由启用的内部电容组成，还包括封装，内部走线，芯片焊盘和PCB走线中的寄生电容。因此，尽管下面给出的参考测量值应接近实际值，但您还应该在电路板上进行测量，以确保频率是专门针对您的电路板和布局进行调整的。 Labels：KW   KW35 | 36 kinetis kw36a

Description Governing motion and speed, this domain is what makes an automobile move. Movement is based on inputs from the driver or the driver-substitute and can be modified based on personal preferences and environmental constraints, such as road conditions. The vehicle dynamics portion of this domain is where supporting subsystems, such as suspension and steering, ensure stability and a smooth ride. Our angular sensors include magnetic field sensors, integrated amplifiers and programmable sensors. NXP’s 16- and 32-bit single and dual-core automotive MCUs provide enhanced computing power and specialized peripherals for complex electric motor control functions. Integrated power supply solutions are also important elements of a power steering control unit. Features BLDC motor commutation Electronic Power Steering (EPS) Steering angle measurement Window wiper position detection Contactless angle measurement Quick response High accuracy over wider temperature range Block Diagram Products Category Name 1: MCU Product URL 1 32-bit Automotive General Purpose MCUs | NXP  Product Description 1 S32K MCUs combine multiple low power operating modes with autonomous, low power peripherals providing complete control over the dynamic and static power profiles. Category Name 2: CAN Product URL 1 CAN/LIN SBC w/<Gen2 | NXP  Product Description 1 The MC33903 works as an advanced power management unit for the MCU and additional integrated circuits such as sensors and CAN transceivers Product URL 2 UJA1169LTK | Mini High-Speed CAN SBC | NXP  Product Description 2 The UJA1169L is designed to be used in applications that require more than one transceiver or additional power supply resources. Category Name 3: Sensor Product URL 1 KMZ60 | Angle sensor with integrated amplifier | NXP  Product Description 1 The MagnetoResistive (MR) sensor with integrated amplifier is designed for angular control applications and Brushless DC (BLDC) motors with even-numbered pole pairs. Demos Automotive Magnetic Sensors  Training Vehicle Dynamics &amp; Safety: Next-Generation Automotive Security Solutions  Tools Product Link S32K144EVB: S32K144 Evaluation Board S32K144 Evaluation Board | NXP  KIT33903BD3EVBE: Evaluation Kit - MC33903BD3, SBC Gen2 with CAN and LIN EVK - MC33903BD3, SBC Gen2 with CAN and LIN | NXP 

Demo The Beige Box operates as a node in an Intelligent Transportation System (ITS) network. ITS is the dynamic interaction of traffic control infrastructure and vehicles to safely maximize road throughput. The Beige box uses sensor and communications technologies to optimize throughput of vehicles and pedestrians at an intersection while also providing broadband wireless hotspot services.   Features Direct sensing of vehicles and pedestrians via cameras and RADAR Direct sensing of vehicles from their V2X position reports Indirect sensing via Cloud provided information Traffic flow optimization Vulnerable Road User Warnings Traffic light control Direct communication of signal phase and timing to approaching vehicles Broadband wireless hotspot connectivity (cellular and Wi-Fi)   Featured NXP Products QorIQ® Layerscape 2084A and 2044A|NXP  S32V230 Family of Processors|NXP  MR2001 Multi-channel 77GHz Radar Transceiver Chipset|NXP  S32R Radar Microcontroller - S32R27|NXP  V2X Communications|NXP  i.MX6Q|i.MX 6Quad Processors|Quad Core|NXP  TJA1043|NXP  Links Intelligent Roadside Unit|NXP  Beige Box Demonstration CES 2017|NXP  Block Diagram

Built to automotive grade specifications, this Qi compliant wireless charging reference design charges up devices in the car. The devices can integrate into the dash or center console of car.     https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282648274001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blank   Features Wireless Charging Reference design for Automotive applications Integration into dash board or center console 5 Watts of power following Qi standard Near field Communication (NFC) Loop included   Featured NXP Products 5 Watt Wireless Automotive 5 Watt Wireless Industrial Links WCT-5WTXAUTO: Multi-Coil Wireless Charging Tr Block Diagram  

doc&patch explain how to decrease the qspi init clock to avoid the spi read qspi id error in linux S32G Linux BSP初始化QSPI Nor时钟是默认200Mhz，但是JEDEC规范建议读QSPI Nor ID是使用SPI模式，低速时钟，所以默认BSP是有可能读ID不成功的，本文说明如何解决这个问题。 本文采用软件版本为Linux BSP43 目录 1    背景与资料说明... 2 1.1  背景说明... 2 1.2  所需资料说明... 2 2    Linux QSPI Nor驱动说明... 3 2.1  QSPI Nor控制器驱动说明... 3 2.2  QSPI Nor设备驱动说明... 4 2.3  SPI Mem驱动说明... 5 3    代码修改... 6 3.1  将初始化时钟切换成133Mhz. 6 3.2  在初始化后将时钟切换回200Mhz. 7 4    测试... 7 4.1  软件测试... 7 4.2  硬件测量... 7 5    其它注意事项... 8    

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

Demo NXP has developed a whole vehicle multi-layered approach to vehicle security.  This demo will demonstrate the NXP security products in action, and show the 4 steps to securing an automotive electrical architecture, and how these 4 steps provide a barrier to the recent public vehicle hacks.   Features: Try to hack a typical automotive network. Enable and disable NXPs security layers to see how they work to protect the vehicle. Demonstrates various NXP security IP, including: A700x family secured MCUs, MPC5748G connected gateway and HSM/CSE security engines. ___________________________________________________________________________________________________________________________   NXP Recommends MPC5748G|NXP A700x|NXP   ___________________________________________________________________________________________________________________________      

Streaming real-time 3D Graphics Using i.MX 6 Applications Processor and Qorivva MCU. View a 3D car that the user rotates using a touch screen to display environmental reflections.  Both static and live video environmental reflections are calculated on top of the real-time rendered car.     https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282600248001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blank  Features Qorivva MCU sends an encoded video stream to the i.MX6 processor The demo shows a car a 3D spinning vehicle on the LCD. the video stream is used as a reflection on the 3D model Touch screen enabled LCD allowing uswer to rotate 3D model of car i.MX6 Quad has a powerful GPU that renders 3D graphics on real time. This could be used to reconfigure clusters, 3D gauges or other uses Featured NXP Products i.MX6Q: i.MX 6Quad Processors – Quad Core Qorivva 32-bit MCUs based on Power Architecture® Technology

Demo FXTH87 tire pressure monitor sensor solution for heavy trucks integrates a pressure sensor, 8-bit MCU, RF transmitter and a dual axis accelerometer into a single package. This demo will show the highest pressure range of 100–1500 kPa with tightest pressure offset.   1500 kPa Range Tire Pressure Monitoring Sensor Smallest footprint,  Low-power consumption, large customer memory size Pressure sensor, 8-bit microcontroller, RF transmitter, Accelerometer     Featured NXP Product FXTH8715|TPMS|Pressure Sensor|NXP   Other Tire Pressure Monitoring System (TPMS)|NXP