Multi Source Translation Content

cancel
Showing results for 
Show  only  | Search instead for 
Did you mean: 

Multi Source Translation Content

Discussions

Sort by:
FreeMASTER 3.2 - Release Announcement Version 3.2 of the NXP FreeMASTER tool has just been published online.  This is the first version of the new 3.2.x release line. It is backward compatible with previous 3.x and 2.x versions (see previous release announcements). The latest version brings new features and bugfixes described in this article. The updated installer is available along with documentation and other resources at http://www.nxp.com/freemaster.   Release description FreeMASTER is a powerful data visualization tool developed and provided by NXP to help users monitor and control embedded applications running on NXP’s targets. It works with almost all NXP Arm ® Cortex®-M microcontrollers from both Edge Processing and Automotive business lines as well as with DSC and legacy Power Architecture, ColdFire and HCS12/Z platforms. Note that the license terms and conditions does not allow using FreeMASTER with non-authorized systems from other vendors. Version 3.2.0 is the first version of the new 3.2.x release line. The installer does not replace the older installations in the system, version 3.2 it may co-exist simultaneously with the older versions.  Version 3.2 is fully backward compatible with all previous versions and it adds new features described here. Traditionally, it supports runtime monitoring of embedded applications, displaying variable values, oscilloscope real time graphs, fast transient recorder graphs and enables connectivity to 3rd party applications. The major new feature introduced by this version is a support of Microsoft Edge WebView2 browser component which can be used to render dashboard and other control applications running embedded in the FreeMASTER main application window. In total, there are now three options of hosting the active HTML content inside the FreeMASTER: the legacy Microsoft Internet Explorer component introduced in versions 1.x and 2.x; Chromium CEF component introduced in version 3.0 and the new Microsoft Edge WebView2 component. The new Edge WebView2 is also based on a Chromium engine so it is fully compatible with the FreeMASTER's JSON-RPC client interface. Additionally the Edge also partially supports the COM+ host object embedding which enables to access the "legacy" FreeMASTER ActiveX interface. Such versatility enables a smooth migration path for old dashboards and control pages created originally for Internet Explorer into the modern browser framework. Note that the Internet Explorer browser and related technology is being phased out by Microsoft and the IE-based applications may no longer operate properly in near future. Please read more in the IE migration whitepaper accessible at the FreeMASTER Welcome page. FreeMASTER Lite service which is a part of the FreeMASTER installation package provides the communication core for Windows and Linux systems. It is accessible similarly as the FreeMASTER desktop application over the JSON-RPC interface. FreeMASTER Lite also embeds the popular Node-RED framework for graphical programming and provides many examples of use with the FreeMASTER tool. Find more information related to Node-RED in the dedicated training video.  Note: Installing FreeMASTER Lite will require you to enter an activation code. Get your free code on the License Keys tab at the license information page. FreeMASTER Node.js Installable Modules enable convenient use of the FreeMASTER JSON-RPC components in a Node.js applications managed by the ‘npm’ package manager. New Features The key new feature is a support of Microsoft Edge WebView2 browser component which can be used to migrate old dashboards and other HTML applications running in FreeMASTER from Internet Explorer to the modern browser with minimal changes in the HTML and JScript code. Additionally, the ActiveX and JSON-RPC interface has been extended by new methods enabling to access project content and project options programmatically from a script environment. Release target audience Both FreeMASTER and FreeMASTER Lite are primarily targeted to our customers, engineers and developers of NXP embedded applications from Industrial, IoT and Automotive areas who want to monitor and control their applications at runtime. FreeMASTER is also a strong framework which can be used to create interactive demos and user interfaces helping to use the embedded applications by yet wider target audience. Prerequisites FreeMASTER tools run on the host computer and communicate with the target microcontroller application using Serial, CAN, Ethernet/WiFi network, JTAG, BDM or other physical interface. The microcontroller communication drivers are available as part of MCUXpresso SDK, S32 Design Studio or as a standalone installation package. Get familiar with the communication protocol and the microcontroller driver API before using the FreeMASTER tool. License terms and conditions permit use of FreeMASTER solely with systems based on NXP microprocessor or microcontroller systems. Packages A single self-extracting installation package which contains both FreeMASTER desktop application and the new FreeMASTER Lite service is available for Windows platforms. A package with the FreeMASTER Lite service is also available for Linux. Access the installation and documentation at the FreeMASTER home page at https://www.nxp.com/freemaster.
View full article
Fast boot for lx2160 in adas FAST BOOT FOR lx2160 IN adas •Objective To speed ​​​​up bringup of LX2 chip-based systems •Pain Points to Address The bringup time is much longer than 3s, which is very sensitive in ADAS systems or time-sensitive systems. •Value Proposition / Key Features The guide can help customers shorten uboot time from 5s to less than 1.5s, saving more than 70% bootup time. •Deliverables Demo based on LX2160ARDB board. Reference codes and patches. Guide for Fast boot document. Fast boot 广泛用于嵌入式设备,现以lx2160ardb板为例进行相关探索。 启动流程: 优化思路: 1.适当提高FSPI时钟速率 diff --git a/lx2160asi/flexspi_divisor_32.rcw b/lx2160asi/flexspi_divisor_32.rcw index 422139c..0f8d5c9 100644 --- a/lx2160asi/flexspi_divisor_32.rcw +++ b/lx2160asi/flexspi_divisor_32.rcw @@ -7,8 +7,10 @@ * Modify FlexSPICR1 register, to increase FlexSPI clock closer to 50MHz, * with divisor value as 32. * => 750 * 2 / 32 ==> 46.875MHz + *write 0x1e00900,0x00000013 + * 0f -12 =125M */ .pbi -write 0x1e00900,0x00000013 +write 0x1e00900,0x0f .end ​ 2.关键路径优化 固化spd参数 固化ddrc参数 BL33 裁剪 详细patch和测试结果参考附件。 Automotive Communications Infrastructure Technologies
View full article
QT demo on Freescale i.MX51 EVK General Re: QT demo on Freescale i.MX51 EVK Congratulations, but a bit of documentation would go a long way. ltib version? qt version? how to(s) would really be appreciated!
View full article
Freescaleのi.Mx6q Sabre SDでのOpenGLアプリケーションの高速ブート <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> Adeneo Embeddedのエンジニアの能力は次のとおりです。 Freescaleのi.Mx6q Sabre SDでのOpenGLアプリケーションの高速ブート (マイビデオで視聴)
View full article
How to enable the Debug (print) Viewer in Keil uVision4 IDE console It took me a while, plus a few contradicting and confusing answers from ARM support until I managed to make this work. Therefore, I do want to share with you the easiest method in order to save you some precious time (tested with MQX 4.0): 1. Make sure to install keil's TAD plugin during the MQX installation (it can also be installed separately from MQX\tools\keil_extensions\uVision4). 2. Make the following changes in the MQX configuration file "user_config.h": #define BSPCFG_ENABLE_IODEBUG   1 #define BSP_DEFAULT_IO_CHANNEL  "iodebug:" 3. Rebuild BSP debug library. 4. Configure Debugger as detailed in your MQX release documentation, which can be found in the following folder: MQX\doc\tools\uv4\MQX-uVision4-Getting-Started.pdf That's it, you're good to go - now you can see printf's using your uVision4 IDE console!
View full article
TWR-TFC-K20 Kinetis K20 Freescale Cup Tower Card Overview: The TWR-TFC-K20  is an all-in-one tower CPU card that can be used to create an autonomous race vehicle for the the Freescale Cup.   It has all the interfaces necessary for the car to sense the track and control the vehicle    This card is also a great platform for teaching embedded systems.   The TWR-TFC-K20 uses a Freescale Kinetis K20 MCU and has some really cool I/O to keep students interested. Features: Servo Outputs 3-pin Header to connector directly to steering Servo 1 Extra Servo header. Camera Interfaces 1. 5-pin header to connect directly to a Freescale Line Scan Camera 2. Header for 2nd linescan camera (optional) 3. RCA Camera Interface. Includes an LMH1981 Sync Extraction chip and connection to MCU to allow for low resolution (64x64) image capture at 60FPS Power Accepts direct battery power – onboard switching regulator 5-18v All circuitry except for motor controller can be optionally powered over USB Connector DC Motor Drivers QTY 2 MC33887APVW : Dual, Independent 5A Motor Driving Circuit. Supports forward, reverse and braking. Independent control over each drive motor allows for an active differential implementation Current Feedback to MCU ADC to allow for closed loop torque control CPU/ Programming Integrated Kinetis MK20DN512ZVLL10MCU with OSJTAG Additional I/O Some basic I/O for debugging. 4-poistion DIP Switch + 4 LEDs + 2 pushbuttons. Inputs for Tach Signal/Speed Sensor Design Files Rev Beta [B] (Current Production version) Schematics, Assembly Prints, BOM, etc. - Includes 3d view Rev B Errata: None known! Example Code: All software relating to the TWR-TFC-K20 is held in an Google Code Subversion repository.   This is the only way the source is distributed.   Never used a version control system yet?   Now is the time to learn (Google is your friend)!   All "real" software development processes use some form of version control.  TortoiseSVN is a nice client for SVN! Google Code Repository: https://code.google.com/p/tfc-twr/ This code works with Rev B of the board. All major interfaces & peripherals have been tested. At some point we will make a video going through the code. By default, the Linescan camera code is enabled. The code in main.c is pretty easy to follow. There is also code for the NTSC camera but must enabled in the TFC_Config.h file via a pre-processor directive. There is also code used for the OSTAG interface, Labview demo applications and drivers for the USB Videos: Freescale Cup Content
View full article
Route the ACOMP output and CTimer0 Cap0 input to the same pin via SWM For the LPC8xx family, the peripheral module input or output signals are not connected to external pads fixedly as most processor does . With SWM module, the peripheral module input or output signals can be routed to any external GPIO pins via software configuration There is special requirement that one peripheral output signal functions as the input signal of another peripheral, in the case, the peripheral output signal and the peripheral input signal can be routed to the same pad via SWM so that the input and output signals are connected internally without external cable. The LPC802 has ACOMP module, CTimer module and SWM module, per customer requirement, the ACOMP output signal and CTimer0 capture 0 input signal can be routed to the same GPIO pin without external connection so that the ACOMP output signal can trigger CTimer0 capture 0 event internally. In the doc, I give the code to configure the CTimer, ACOMP and the SWM, explain the configuration,introduce the tools, board and result. LPC800 Peripherals
View full article
Emtrion's i.MX6 DIMM Modules and Kits Hi all, Below is our press release for our i.MX6 solutions, i.e., kits and boards. emtrion GmbH, a company specialised in Embedded Systems design, hardware and software, Freescale Proven Partner, announces the availability of a new industrial processor module based on the multicore Cortex-A9 i.MX6 SoC family from Texas Instruments. This new module, called DIMM-MX6, extends the emtrion DIMM family and offers a full electrical and mechanical compatibility with the other modules of the emtrion DIMM series. emtrion guarantees the availability of its new module for at least 10 years. The DIMM-MX6 module from emtrion brings high computing capabilities with up to 10.000 DMIPS, multiple NEON SIMD and VPFU co-processors at a low power level, without requiring any active cooling system. The DIMM-MX6 module is available in several versions, with either i.MX6 Solo (1 core), Dual (2 cors) or Quad (4 cores) and on-board memories ranging from 512MB up to 8GB for the Flash (SLC NAND) and from 512MB up to 2GB RAM (DDR3). The new module is also qualified for an extended temperature range of -40°C to +85°C. In addition to boards and kits, emtrion offers support for a broad range of operating systems, board support packages (BSP) as well as engineering services. The DIMM-MX6 is available now with a BSP for Linux, that will be followed by additional BSP for Windows Embedded Compact 7 (WEC7), for QNX 6.5 and for Android 4.0. The BSP are available together with a developer kit. Each developer kit includes a DIMM-MX6 industrial module, a base board, a display and a development environment. All parts are mounted together and programmed by emtrion. The kits are shipped ready to use. General
View full article
Auto Insmod Kernel Modules Through Modprobe with Extra Parameter Wireless HW module on i.MX 6 DQ HDMI dongle board is bcm4330 that is SDIO interface. Modprobe  default configuration will only insmod bcm4330.ko without any kernel module parameter, while bcm4330,ko needs extra firmware binary and nvram configuration file absolute path/filename  as parameter like firmware_path=/lib/firmware/bcm4330/fw_bcm4330.bin nvram_path=/lib/firmware/bcm4330/nvram_bcm4330.txt. To auto insmod bcm4330 kernel module with those parameters by modprobe we need a modprobe configuration file. Now create this file at /etc/modprobe.d/bc4330.conf, it's content as below: #For BCM4330 special install requirement options bcm4330 firmware_path=/lib/firmware/bcm4330/fw_bcm4330.bin nvram_path=/lib/firmware/bcm4330/nvram_bcm4330.txt Of course we need copy correct firmware and nvram configuration file to directory as /etc/modprobe.d/bc4330.conf set. i.MX6Dual i.MX6Quad Re: Auto Insmod Kernel Modules Through Modprobe with Extra Parameter wonderful
View full article
如何在 CodeWarrior(Classic、Eclipse)/KDS 中支持多个目标 在某些应用中,我们希望一个项目可以支持多个目标。一些典型的例子:用户需要不同的固件在具有不同晶体的不同PCB上运行;或者有时用户需要一个项目同时支持调试和发布模式;另一个广泛使用的例子是,用户需要一个项目支持多个零件编号等。 实施多目标工程,我们至少要考虑三个方面: 根据不同的目标,某些文件/代码可能被包含或不被包含。 根据不同的目标,编译器/链接器设置可能会不同。 如果涉及引导加载程序,不同的目标可能与不同的引导加载程序固件链接。   在本文中,我将分别使用 Classic CodeWarrior 和 Eclipse CodeWarrior10.x/KDS 讨论这个主题。 原始附件已移至: Multi-Targets-Project_Classic-CW-HCS12-v5_1.zip 原始附件已移至: Multi-Targets-Project_KDS-v3_2.zip 回复:如何在 CodeWarrior(Classic、Eclipse)/KDS 中支持多个目标 <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> 有时宏已启用,但编辑器仍然显示为灰色。请参阅此处的解决方案: 修复 Eclipse 索引 | Eclipse 上的 MCU
View full article
MC56F83000开发指南 MC56F83000 是最新的 DSC 系列,它具有前一代系列所没有的新功能,我在这里列出它们,以便客户在开发应用项目之前了解这些功能。 1)不支持USBTAP设备 2)支持ROM引导加载程序,因此用户可以在重置后使用blhost工具在引导加载程序模式下下载代码 3) 编写配置字段,以便 MC56F83xxx 知道它是从 Flash 中的应用程序代码还是引导加载程序代码启动 4) 在 ISR 之前添加 #pragma macro 作为前缀
View full article
MC33879/80 diagnose & fault report explain 1. Any of three kinds of fault trigger fault bit toggle to 1 OT: Temp>155℃ OC:short to battery/supply or over-current condition. OL:open load when OUTPUT OFF 2. base on truth table below, user can recognize the fault type Output OFF(0) Output ON(1) HS Open load/ short to BAT(OC) short to GND(OC)/OT LS Open load/ short to GND(OC) short to BAT(OC)/OT Open load(OL) and Short circuit base on Vds><Vout(FLT-TH) 33879 33880 OL: Vds Short to BAT: Vds > VFLT-TH && OC Short to GND: Vds< VFLT-TH &&OC   HS|LS Configurable Driver
View full article
Processor Expert - MQX Liteプロジェクトの作成(CodeWarrior) <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> CodeWarrior Development Studioを利用してゼロからMQX Liteコンポーネントを作る方法について説明します。 Processor Expertでタスク関数とRTOSコードが格納される場所についても解説します。
View full article
Build bootloader without spl in Yocto Software environment: L5.4.47_2.2.0 Hardware i.MX8QXPC0 EVK board In the uuu script we can see the bootloader imx-boot-imx8qxpc0mek-sd.bin-flash is necessary. The default BSP build generate in the yocto project is with the spl, some customers are confused about the how to build the imx-boot-imx8qxpc0mek-sd.bin-flash. Here I give the manually compile way and generate it in yocto. In the yocto generate it is more convenient than the manually compile way. Hope this can do help for you. i.MX 8 Family | i.MX 8QuadMax (8QM) | 8QuadPlus Linux Yocto Project
View full article
アプリケーションノート:Window Builderで文字列テーブルを編集する <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> Window Builder では、文字列テーブルはリソース マネージャーの主要な要素の 1 つです。このアプリケーションノートでは、文字列テーブルの使用を容易にするためのヒントとコツを提供します。 PEG(ペグ) GUI
View full article
应用说明:使用窗口生成器编辑字符串表 <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> 在 Window Builder 中字符串表是资源管理器的关键元素之一。本应用说明提供了简化字符串表使用的技巧和窍门。 PEG GUI
View full article
JN5189/K32W/QN9090 無線認証書 無線認証は、JN5189、QN9090、およびK32W製品で実施されています。 証明書または適合宣言書は、添付ファイルで入手できます。 そして 、K32W061、QN9090またはJN5189で初めてPCBを構築するための最良の方法については 、 ここ をクリックしてください!
View full article
GStreamer ffmpeg <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> 视频解码 gst启动文件rc位置=sample.mp4!qtdemux!ffdec_h264 !mfw_v4lsink 说明: 在 LTIB BSP 3.0.35_4.0.0 上,准备包并在其上应用附加的补丁,然后构建。 在 Yocto 上,添加 gst-ffmpeg 包的简单方法是在 conf/local.conf 文件中添加这两行: IMAGE_INSTALL_append = " gst-ffmpeg " LICENSE_FLAGS_WHITELIST = '商业' i.MX6_全部 多媒体 回复:GStreamer ffmpeg <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> 是的。有两个符号未定义,当动态加载 ffmpeg 库时会失败,所以最后所有元素都会被加载。步骤:准备包,移动到源文件夹并修补(patch -p1 < patchname )。顺便说一下,失败的 BSP 是 3.0.35_4.0.0,目前它是最新版本。 回复:GStreamer ffmpeg <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> ffmpeg 插件无法在最新的 BSP 中加载,请在此处分享补丁以修复它。
View full article
FreeMASTER 3.1.2 Update - Release Announcement Version 3.1.2 of the NXP FreeMASTER tool has just been published online.  This version is backward compatible and fully replaces older 3.1.0 and 3.1.1 releases. It brings new features and bugfixes described below. The updated installer is available along with documentation and other resources at http://www.nxp.com/freemaster.   Release description FreeMASTER is a powerful data visualization tool developed and provided by NXP to help users monitor and control embedded applications running on NXP’s targets. It works with almost all NXP Arm ® Cortex®-M microcontrollers from both Edge Processing and Automotive business lines as well as with DSC and legacy Power Architecture, ColdFire and HCS12/Z platforms. Version 3.1.2 is a minor update of the 3.1.x mainline release. If there is any previous 3.1.x version already installed on the host computer, the FreeMASTER 3.1.2 overwrites the installation and it remains referred as a general mainline version 3.1. Older 2.x and 3.0 versions are not removed.  Version 3.1.2 is backward compatible with all previous versions. It supports variable monitoring, oscilloscope real time graphs, fast transient recorder graphs and connectivity to 3rd party applications. An HTML rendering engine based on Chromium with full support of JSON-RPC, HTML5 and JavaScript is available to create custom dashboards and other user interfaces that can run inside FreeMASTER or standalone in local or remote web browser. Older Internet Explorer rendering, ActiveX interface and protocols defined for versions 2.x are also still supported. FreeMASTER Lite service which is part of the FreeMASTER installation package provides the communication core for Windows and Linux systems. It is accessible similarly as the FreeMASTER desktop application over the JSON-RPC interface. FreeMASTER Lite also embeds the popular Node-RED framework for graphical programming and provides many examples of use with the FreeMASTER tool. Find more information related to Node-RED in the dedicated training video.  Note: Installing FreeMASTER Lite will require you to enter an activation code. Get your free code on the License Keys tab at the license information page. FreeMASTER Node.js Installable Modules enable convenient use of the FreeMASTER JSON-RPC components in a Node.js applications managed by the ‘npm’ package manager. New Features Version 3.1.2 introduces brand new features extending data visualization and communication options: Array Viewers New Array Viewers enable to display static arrays as graphs similarly to a Recorder feature. The Array Viewers may be viewed as a simpler and lighter replacement for the Recorder. The Viewer can read one or more array from the target memory and display the values in a graph. Another scalar variable is used as a trigger, causing the graph to refresh any time it changes the value. FreeMASTER can optionally clear the trigger variable automatically after displaying the graph, providing an acknowledge to the target that it may prepare new data. The primary benefit of the Array Viewer is that it only needs the Read Memory feature (and Write Memory only in case of the trigger acknowledge is used). This is the reason why it can operate over any communication interface, including the direct-access JTAG or BDM interfaces which do not use any communication protocol between Host PC and the target MCU. Also in many situations, displaying the whole arrays of values present in the target memory is more natural than using the Recorder which is oriented more towards capturing scalar variables’ transitions in time. Refer to User Guide for more information about setting up the Array Viewers in your FreeMASTER project. TCP and UDP communication New Network communication plug-in has been introduced to enable direct TCP or UDP communication with the target MCU over an Ethernet network. The plug-in is compatible with the FreeMASTER communication driver v3.0.4 available in MCUXpresso SDK v2.10 along with new 'fmstr_net' example application for i.MX-RT10xx and K64F platforms. The network communication supports multiple client sessions (multiple FreeMASTER connections made to the same target board). The FreeMASTER "feature locking" has been extended and is now used consistently for all features. Recorders, Oscilloscopes, Pipes and other instances are now "locked" before use, so they are usable by a single FreeMASTER client at one time. An automatic discovery option can be enabled in the FreeMASTER communication driver so the target boards attached to local network appear automatically in the list within the plug-in configuration dialog. This simplifies connection to targets with dynamic IP address assigned by DHCP or another autoconfiguration protocol. The network plug-in is also supported by the FreeMASTER Lite. Other changes List of other minor changes in version 3.1.2 Number of communication retries made during initial board detection is now configurable in the Options dialog. Important change: Use of a long Break signal sent to RS232 serial line is now also optional and it is turned off by default. The Break signal should not be used with a virtual serial port emulated on the CMSIS-DAP device as it causes target board resets. Enable enumeration (enum) types to be parsed from ELF file and put to global Enumerations list from where it can be bound to Variable objects.   Chromium Embedded Framework (CEF) updated to version 89.0.6+g6f30454+chromium-89.0.4389.72. This should fix a image tooltip appearance issue on Windows 10 and some other minor issues. The tooltip issue may remain present on Windows 7 and older systems. BDM/JTAG plug-ins extended to support new version of iSystem.connect interface which is used by iSystem winIDEA 9.21 and later. Bugfixes and other extensions: Fixed project import of variables with global enumeration type assigned. The enumerations were not imported properly which could even lead to crash during import. Fixed import of virtual variables and import of Variables' comment and description fields. Also virtual variables are not exported to FreeMASTER Lite configuration files.  Fixed ELF/DWARF parser problem of estimating array element size when element type information is missing. Fixed CAN plug-in bug of RX buffer flushing in PEAK-Systems driver. The Peak communication could get corrupted after a single bus error. Fixed Oscilloscope and Recorder behavior when an invalid variable was in inserted into the list. Invalid variable was causing other variables to receive wrong values. Fixed excessive message boxes when opening projects with many resource files missing. Now all files can be extracted or redirected into a temporary directory after single message prompt. Fixed problem of initial page display after loading project with CEF activated when any dialog or message box appears during the loading phase (e.g. Resource redirect prompt). Release target audience Both FreeMASTER and FreeMASTER Lite are primarily targeted to our customers, engineers and developers of NXP embedded applications from Industrial, IoT and Automotive areas who want to monitor and control their applications at runtime. FreeMASTER is also a strong framework which can be used to create interactive demos and user interfaces helping to use the embedded applications by yet wider target audience. Prerequisites FreeMASTER tools run on the host computer and communicate with the target microcontroller application using Serial, CAN, Ethernet/WiFi network, JTAG, BDM or other physical interface. The microcontroller communication drivers are available as part of MCUXpresso SDK, S32 Design Studio or as a standalone installation package. Get familiar with the communication protocol and the microcontroller driver API before using the FreeMASTER tool. License terms and conditions permit use of FreeMASTER solely with systems based on NXP microprocessor or microcontroller systems. Packages A single self-extracting installation package which contains both FreeMASTER desktop application and the new FreeMASTER Lite service is available for Windows platforms. A package with the FreeMASTER Lite service is also available for Linux. Access the installation and documentation at the FreeMASTER home page at https://www.nxp.com/freemaster. FreeMASTER 3.1.2 Update - Release Announcement
View full article
Processor Expert - 製品の紹介 (CodeWarrior) <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> Processor Expert UI、コンポーネントとは何か、CodeWarrior Development Studioでプロジェクトにコンポーネントを追加する方法を学びます。
View full article