STM32F4x_Template.uvproj has all Keil configuration that you still have to make, see next chapter “Configuring Keil”.) You now have a template project folder that you can use to every new project. To the template project folder : STM32F4x_Template\stm32f407xx_lib – STM32F4-Discovery ( firmware to manage LEDs, Buttons, audio and acceloremeter chips, on discovery board ) – STM32F4xx_StdPeriph_Driver ( STM32F407 peripheral drivers ) – CMSIS (Cortex Microcontroller Software Interface Standard for Cortex-M processors ) To get the fowwing files and move them to a STM32F4-Discovery FolderĬreate folder \STM32F4x_Template and \STM32F4x_Template\stm32f407xx_lib > unzip file -> created folder : STM32F4xx_DSP_StdPeriph_Lib_V1.3.0 > stm32f4_dsp_stdperiph_lib.zip downloaded – Verify if correctly installed at Device Manager – Connect to USB cable the ST32F407-Discovery board and launch C: \ Keil \ ARM \ STLink \ ST-LinkUpgrade.exe To the PC, Windows detects the new hardware. When connecting ULINK pro for the first time ULINK pro uses a specific Keil USB driver, which is part of the Keil tools. – Launch C:\ Keil \ARM \ ULINK installULINK.exe Or launch C:\ Keil \ ARM \ STLink \ USBDriver \ ST-Link_V2_USBdriver.exe Unzip and launch : dpinst_amd64 (圆4) or dpinst_x86 (x86) MDK-ARM is specifically designed for microcontroller applications, it is easy to learn and use, yet powerful enough for the most demanding embedded applications.Ī Lite/evaluation version is available for free, but limited to 32KBytes of code. The MDK-ARM is a complete software development environment for Cortex ™-M, Cortex-R4, ARM7 ™ and ARM9 ™ processor-based devices.
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