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  • Welcome to this Video Tutorial - my name is Ralf Kopsch, Senior Support Engineer for Keil

  • Microcontroller Software Development Tools!

  • We show you how simple it is, to start a new project based on CMSIS RTOS when using RTE,

  • the Runtime Environment, that is integrated in the new Microcontroller Development Kit

  • Version 5.

  • As target hardware I am using a STM32F4 Discovery board that I got at a recent trade show.

  • However - the project setup works similar for other Cortex-M microcontrollers that are

  • supported with a Device Pack in MDK Version 5.

  • You can replicate this Tutorial with a freely available MDK Lite version.

  • The Discovery Board uses the high-performance STM32F4 microcontroller family.

  • The devices are based on the Cortex-M4 processor and offer a rich set of peripherals.

  • Our Discovery Board uses the STM32F407VGT6 microcontroller, but check your actual microcontroller

  • since ST offers multiple board variants. The board uses an 8MHz XTAL, which is important

  • later for the system startup configuration. The Discovery Board includes many external

  • peripherals such as a Digital Accelerometer, a microphone, an

  • audio DAC with speaker amplifier, LEDs, push buttons and an USB port.

  • For the BLINKY example we will use the LED on Port D.13.

  • The Discovery Board includes also an ST-Link and the USB connector labeled CN1 interfaces For the BLINKY example we will use the LED on Port D.13.

  • The Discovery Board includes also an ST-Link and the USB connector labeled CN1 interfaces

  • to this ST-Link. We use a mini USB cable for power supply and

  • interface a PC based MDK debugger. On the PC we have already installed MDK Version

  • 5 along with relevant Software Packs and the ST-Link driver.

  • Now we will start the uVision IDE and create our sample application. 5 along with relevant Software Packs and the ST-Link driver.

  • Now we will start the uVision IDE and create our sample application.

  • To create a new uVision project we select Project and next New uVision Project….

  • Create a suitable folder to store our project and enter a meaningful name, in this case

  • Blinky’.

  • Savecreates the project - and in the next step we will select the device that is

  • used on our Discovery board.

  • In the Database we selectSTMicroelectronicsand pick the STM32F407VG from the list.

  • This device selection defines essential tool settings like the Memory Layout and the

  • Flash programming algorithm.

  • Now, the "Manage Run-Time Environment"-Window shows all available components from the installed Flash programming algorithm.

  • Now, the "Manage Run-Time Environment"-Window shows all available components from the installed

  • Software Packs for this selected device.

  • Our small Blinky project will be based on CMSIS RTOS and we therefore select the Keil Software Packs for this selected device.

  • Our small Blinky project will be based on CMSIS RTOS and we therefore select the Keil

  • RTX.

  • The Validation Output now shows dependencies to required software components, in our case

  • the Device Startup.

  • A click on a message in the Validation Output highlights related software components.

  • We use "Resolve" to automatically select other required software components.

  • Using this button selects the Device Startup and the CMSISCORE which completes our

  • Run Time Environment setup.

  • To apply this RTE setup simply clickOK”.

  • This creates the RTE components in our project tree and includes:

  • the Startup-file , the RTX configuration-file and the CMSIS system files.

  • Now we configure the CMSIS System file for our Discovery Kit,

  • which is using an 8MHz XTAL.

  • This system_stm32f4xx.c configuration file is located in the Device Group of

  • the project window.

  • The STM32 device will run at 168MHz core clock frequencyso we change now the

  • PLL-defines to reflect the 8MHz XTAL.

  • For details about this System-Clock Configuration please check the relevant Reference manual.

  • A direct link to this manual is available in the Books tab.

  • Some RTE components have Configuration Files that require Customization.

  • The RTX configuration file under the CMSIS group

  • can be modified using the MDK configuration wizard.

  • In this file we need to adjust the SysTick Timer Frequency

  • to 168MHz to match the core clock frequency.

  • We are using a CMSIS RTOS main.c template file, which we now add to our project.

  • To do this, right-click onSource Group 1’ and useAdd New Item’.

  • Next select "User Code Template"

  • We choose the "CMSIS-RTOS main-function" and click "Add".

  • Then we open the Template File and start entering our application code:

  • Initially we insert the Device Header file using the context menu.

  • Then we add the code for the Blinky function and

  • define this function as a RTOS thread with normal priority. Then we add the code for the Blinky function and

  • define this function as a RTOS thread with normal priority.

  • Next we add code for the GPIO port initialization.

  • and then we add the start code for the Blinky thread using the ThreadCreate function.

  • Our little Blinky application is now complete and we use the ProjectBuild button to compile

  • and link the program code.

  • The Build Output Window reports potential syntax errors.

  • An error free build shows program size information and zero Errors and Warnings.

  • Before downloading our application to the Discovery board we need to select the

  • Debug and Flash programming unit.

  • Open the dialog ProjectOptionsDebug and select the ST-Link Debugger from the drop

  • down list.

  • At the Utilities-Tab ensure thatUse Debug Driveris selected

  • and verify the settings for the Flash-Algorithm.

  • To verify the settings for the Flash-algorithm open the Settings-dialog.

  • TheSTM32F4xx Flashalgorithm is suitable for the STM32F407VG microcontroller

  • mounted on our Discovery board.

  • Just use the Download button and the flash download progress is shown.

  • Now we start the Debugger

  • ...and click RUN to execute our Blinky application on the Discovery board.

  • The LED on the BOARD should now start to blink.

  • This completes our little demo example, offering an impression about the

  • Microcontroller Development Kit version 5 that you can download from our website

  • to explore this tool by yourself.

  • Visit www.keil.com or contact our sales team for further product details.

  • Thank you for your attention!

Welcome to this Video Tutorial - my name is Ralf Kopsch, Senior Support Engineer for Keil

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Blinky Project with MDK-ARM Version 5 (Blinky Project with MDK-ARM Version 5)

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    Ed に公開 2021 年 01 月 14 日
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