ASH WARE's Andy Klump demonstrates a ETPU simulator as well as an MC33816 simulator at the FTF Americas 2014. Both simulators are popular in the automotive industry.       Features Demo of eTPU and MC33816 simulator. Both simulators are popular in the automotive industry Develop software in state machine visual tool Waveform window allows users to visualize different states using analog signals, single step, break points, etc. Featured NXP Products eTPU MC33816 Links Ash Ware  

本文说明在STR Resume后，如何解决M 核与A核的GPIO状态冲突的问题，并简单剖 析了Linux GPIO驱动。 目录 1 背景说明与参考资料 .................................................. 2 1.1 背景说明 ................................................................. 2 1.2 参考资料 ................................................................. 2 2 S32G linux GPIO驱动说明 ......................................... 3 2.1 SIUL2 GPO功能说明 .............................................. 3 2.2 Linux GPIO驱动DTS .............................................. 4 2.3 Linux GPIO驱动初始化 ........................................... 6 3 Rework办法 ............................................................... 7 3.1 SIUL2 GPO驱动PM函数 ........................................ 7 3.2 Rework方法 ............................................................ 9 4 测试办法 .................................................................. 10

Demo The i.MX 6UltraLite SABRE CPU boards and base boards, powered by the ultra-efficient ARM Cortex-A7 core, showcase the i.MX 6UltraLite running the Linux OS with low run-current and simple power supply circuit.SABRE CPU and base board running Linux OS   SABRE CPU and base board running Linux OS Low run-current and simple power supply circuit Attached EVM card demonstrates the payment card interface compatibility Featured NXP Product i.MX 6UltraLite Applications Processor|NXP i.MX Applications Processors|ARM® Cores|NXP   Other

Demo Owner: Andrew Patterson Mentor Graphics' Andrew Patterson demonstrates AUTOSAR and vehicle network design using Mentor Embedded design tools and run-time software on MCUs. Also showcased is combining infotainment and instrument cluster solutions on i.MX 6 series applications processors.     https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282653864001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blankFeatures Showcasing the setup of a typical car entertainment system Android Jelly Bean OS on an i.MX6 with Wi-Fi enable It can behave as an access point so other smart devices can connect or as a client and reach out to external networks Instrument cluster display running Linux clients with various applications that can connect to the car Featured NXP Products ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Links NXP Connect - Mentor Graphics  

Demo Owner: Dominic Selvaraj Firstview Consultants' Dominic Selvaraj demonstrates a custom dashboard application for an 18-wheel truck using i.MX 6 processor at the FTF Americas 2014.     https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282651084001" style="color: #05afc3; background-color: #ffffff; font-size: 14.4px;" target="_blank  Features Showcasing a secondary dashboard application for 18 wheeler trucks The dashboard features a touchscreen interface and runs Android operating system It has 4 cameras in a model truck (360 view around the vehicle) The gauges have been transformed into virtual gauges driven by vector graphics Co-pilot navigation and multimedia radio on vehicle   Featured NXP Products ARM® Cortex®-A9 Cores: i.MX 6 Series Multicore Processors Links NXP Connect - Firstview  

Demo This Quadrocopter demo will use multiple MCU's from S12 MagniV family showcasing the value delivered from high voltage analog integration and industry proven S12Z core and efficiently enabling high speed BLDC control. Now even, going beyond the traditional automotive applications to cover emerging applications such as drones.   High-performance and industry proven S12(Z) MCU for BLDC/DC motor control, sensors and actuators High voltage analog integrations: LIN/CAN Phy, MOSFET gate drive units, LSD/HSDs, op-amps/PGAs Reduced PCB size and cost while improving manufacturing relability Featured NXP Product Auto & Industrial Mixed Signal MCUs|MagniV|NXP

Demo Virtual Doctor       Features Connecting patients with clinicians anywhere, anytime, with real steaming secure patient data, vital signs, diagnostics, video conferencing Integrated Medical Tablet IDM100 is a secure HIPAA compliant healthcare platform designed for clinical and at home use Powered by NXP’s IMX6x MCU and was prototyped using the Healthcare AFE Reference Design   NXP Recommends i.MX 6Dual Processors|Advanced 3D Graphics Kinetis K20 100 MHz|ARM Cortex-M4|32-bit USB MCUs Power Management for i.MX Processors   Links Dictum Health   P13

本文探讨了如何解决i.MX8MP EMC测试遇到的问题，主要针对辐射超标问题。除了硬件方案，着重探讨了LVDS展频等软件方案。

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

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

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

Connected mobility: Phones, drones and connected automobiles The number of people living in cities is expected to double by 2050, meaning congestion and pollution will increasingly be a problem for city dwellers. As a result, the cities of the future will demand smarter solutions for urban living such as intelligent traffic management solutions and connected vehicles, including drones. This transformation is already well underway. Innovations are helping to create a more entertaining, customised experience for consumers as well as making transport, on the land and in the air, safer and easier. But this is just the beginning, let NXP Semiconductors, pioneers of the connected car, give you a glimpse of the future of urban transport and the technology that will enable it   Reveal: 2016 Rinspeed Etos Concept Car - YouTube 

Demo This demo shows the wide voltage operating range of the AXPnT Translator family. An onboard oscillator provides a low frequency clock to drive the input channel. LEDs indicate the signal on the input and output side of the translator. Two dials allow the user to independently set the input and output voltage rails. This demo visually shows how logic translators operate and that the AXPnT family has the widest operating range of current translators     Features: Input voltage range 0 to 2.5V, output voltage range 0 to 5.5V (widest in industry) Based on ultra-lower power AXP Logic family   _______________________________________________________________________________________________________   Featured NXP Products: NXP's AXP Translators _______________________________________________________________________________________________________     SP02

本文说明了S32G如何储存mac地址，包括dts保存，systemd指定和fuse保存的办法： 目录 1 需要的软件................................................................. 2 2 背景说明 .................................................................... 2 3 PFE eMAC MAC地址说明 ......................................... 2 3.1 DTS配置 ................................................................. 2 3.2 源代码说明 ............................................................. 3 3.3 测试 ........................................................................ 4 4 GMAC0 MAC地址说明 .............................................. 4 4.1 DTS配置 ................................................................. 4 4.2 源代码说明 ............................................................. 4 4.3 SystemD脚本 ......................................................... 5 4.4 固定GMAC MAC地址的修改办法 ........................... 6 5 用Uboot命令烧写FUSE MAC地址项 .......................... 7 6 修改为从fuse中获得GMAC0 MAC地址 ...................... 9 6.1 Uboot代码修改 ....................................................... 9 6.2 Uboot写MAC寄存器说明 ...................................... 10 6.3 测试 ...................................................................... 10  

Dear All: Customer has encountered eMMC boot failure issue in their i.MX8X platform, finally we confirmed this issue related to external pull-up resistors on DAT0~7 and CMD pins to comply with eMMC SPEC. Please refer to attached "Case Study-i.MX8X boards eMMC boot failure issue.pdf". Thanks.

本文说明S32G3 M7核Standby MCAL demo 详细情况及定制，并在进入Standby之前 调用QSPI 接口将QSPI NOR flash配置进入 deep power down模式，以节省用电。 目录 1    参考资料说明... 2 2    G2和G3 Demo的区别... 2 3    G3 MCAL Demo的实现... 4 3.1  修改UART驱动... 4 3.2  实现时钟关闭代码... 4 3.3  配置电源模式切换驱动... 5 3.4  配置唤醒源... 5 3.5  加入PMIC驱动... 6 3.6  主函数逻辑实现... 7 3.7  运行测试... 7 3.8  未来开发计划... 8 4    将QSPI NOR设置进入Deep Power Down模式... 8 4.1  Fls层的修改... 10 4.2  中间层的修改... 10 4.3  QSPI_IP层的修改... 13 4.4  主测试函数调用... 16 4.5  Fls驱动的测试... 17 5    将Deep Power Down功能集成到STANDBY工程中并测试    18 5.1  EB配置... 18 5.2  主测试函数与编译修改... 20 5.3  运行测试... 21

现在越来越多的客户，对于S32G PFE在master/slave的使用有了需求。 但是，PFE只有4个HIF接口，HIF0~HIF3，而PFE有3个EMAC口，以及LLCE2PFE也需要要给HIF，从而HIF成为一个关键资源。 同时，有些客户需要从A核，M核的业务考量，A核和M核的网络不仅要和外部设备进行通信，同时A核和M核内部也有通信需求，并且需要把业务报文和管理报文分离，这就对PFE master/slave的使用场景有了更多变化，以及对各种配置有了更多需求。 因此，针对PFE/Slave的几种使用典型的使用场景，进行配置。

在进行时钟同步时，目前S32G2/G3有一种很典型的使用场景： Grand master clock  <-> S32G PFE <-> 其余连接在PFE 某些 eMAC口上的设备 外部的grand master clock，连接在PFE的一个eMAC上，要同步S32G以及连接在PFE其余eMAC上的设备时钟。 但是S32G2/G3的PFE仅仅是支持timestamp，对于将S32G PFE设置成交换机使用时，PFE不能实现Transparent clock的功能。 因此，本文讨论将PFE + S32G SoC当作Transparent clock，以及将PFE + S32G当作boundary clock，来同步S32G以及其余部件的时钟。

本文说明如何配置MCAL ICU模块为GPIO Input。 默认的MCAL ICU模块是使用FTM输入为示例的。 本文采用软件版本为MCAL RTD 4.0.2 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    创建ICU工程... 3 2.1  打开工程... 3 2.2  编译与运行... 3 2.3  默认工程说明... 4 3    增加GPIO输入支持... 6 3.1  修改说明... 6 3.2  修改Port模块... 6 3.3  修改ICU模块... 7 3.4  Platform模块... 8 3.5  主测试程序修改... 9 3.6  测试结果... 10