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manual:demos:nucleo_f091rc_iar [2017/07/19 12:47] voorburg created |
manual:demos:nucleo_f091rc_iar [2023/12/04 22:17] (current) voorburg [Supported firmware update interfaces] |
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===== Supported firmware update interfaces ===== | ===== Supported firmware update interfaces ===== | ||
- | ^ UART ^ CAN ^ USB ^ TCP/IP ^ SD-card ^ | + | ^ RS232 ^ CAN ^ USB ^ TCP/IP ^ SD-card ^ Modbus RTU ^ |
- | | Yes | Yes | No | No | No | | + | | Yes | Yes | No | No | No | No | |
===== Development Environment ===== | ===== Development Environment ===== | ||
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This demo is targeted towards the [[http://www.st.com/content/st_com/en/products/evaluation-tools/product-evaluation-tools/mcu-eval-tools/stm32-mcu-eval-tools/stm32-mcu-nucleo/nucleo-f091rc.html|Nucleo-F091RC]] board, with 256 kB internal Flash EEPROM and 32 kB internal RAM. | This demo is targeted towards the [[http://www.st.com/content/st_com/en/products/evaluation-tools/product-evaluation-tools/mcu-eval-tools/stm32-mcu-eval-tools/stm32-mcu-nucleo/nucleo-f091rc.html|Nucleo-F091RC]] board, with 256 kB internal Flash EEPROM and 32 kB internal RAM. | ||
- | To compile the demo programs you can use the [[http://www.emblocks.org/|EmBitz]] development environment from Em::Blocks. The version that was used to create these demo programs was {{:manual:embitz_1_00.zip?linkonly|EmBitz version 1.00}}. | + | To compile the demo programs you can use the [[http://www.iar.com/|IAR Embedded Workbench for ARM]] development environment. |
To program the bootloader into the internal flash, the on-board ST-Link debugger interface was used. Firmware updates via the serial communication port are preconfigured to use the virtual COM-port offered by the ST-Link. This means that no additional hardware is needed, besides a standard micro-USB cable. | To program the bootloader into the internal flash, the on-board ST-Link debugger interface was used. Firmware updates via the serial communication port are preconfigured to use the virtual COM-port offered by the ST-Link. This means that no additional hardware is needed, besides a standard micro-USB cable. | ||
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Before the bootloader can be used, it needs to be built and programmed into the STM32F091's internal flash memory. The steps in this section only need to be done once. | Before the bootloader can be used, it needs to be built and programmed into the STM32F091's internal flash memory. The steps in this section only need to be done once. | ||
- | When using EmBitz, simply open the project file by double-clicking the file: \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_GCC\**Boot**\ide\**stm32f091.ebp** from the Windows Explorer. To build the bootloader, select //Build -> Rebuild all target files// from the program menu. | + | When using IAR EWARM, simply open the workspace from within the Embedded Workbench. The workspace file (stm32f091.eww) is located at: \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_IAR\**Boot**\ide\. Once opened, select //Project->Rebuild All// from the menu to compile all the bootloader sources and link them together into the final executable. |
- | The bootloader program is now ready to be programmed into the internal flash memory of the STM32F091. Make sure the board is connected to your PC via a micro-USB cable. Next, select //Debug -> Start Debug Session (F8)// from EmBitz's program menu to flash the bootloader program. Once done, you can start the bootloader program by selecting //Debug -> Run (F5)// from the program's menu. | + | The bootloader program is now ready to be programmed into the internal flash memory of the STM32F091. Make sure the ST-Link Debugger Interface on the Nucleo-F091RC board is connected to your PC via a USB cable. Next, select //Project -> Download and Debug (Ctrl+D)// from the menu to flash the bootloader program. Once done, you can start the bootloader program by selecting //Debug -> Go (F5)// from the menu. |
Alternatively, you can use your favorite programmer to flash the bootloader using one of the following files, depending on what file type your programmer supports: | Alternatively, you can use your favorite programmer to flash the bootloader using one of the following files, depending on what file type your programmer supports: | ||
- | * \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_GCC\**Boot**\bin\**openblt_stm32f303.elf** | + | * \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_IAR\**Boot**\bin\**openblt_stm32f091.out** |
- | * \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_GCC\**Boot**\bin\**openblt_stm32f303.srec** | + | * \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_IAR\**Boot**\bin\**openblt_stm32f091.srec** |
===== Building the Demo Program ===== | ===== Building the Demo Program ===== | ||
- | When using EmBitz, simply open the project file by double-clicking the file: \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_GCC\**Prog**\ide\**stm32f091.ebp** from the Windows Explorer. To build the demo program, select //Build -> Rebuild all target files// from the program's menu. | + | When using IAR EWARM, simply open the workspace from within the Embedded Workbench. The workspace file (stm32f091.eww) is located at: \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_IAR\**Prog**\ide\. Once opened, select //Project->Rebuild All// from the menu to compile all the demo program sources and link the together into the final executable. |
The output file is | The output file is | ||
- | * \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_GCC\**Prog**\bin\**demoprog_stm32f091.srec** | + | * \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_IAR\**Prog**\bin\**demoprog_stm32f091.srec** |
===== Firmware update procedure ===== | ===== Firmware update procedure ===== | ||
- | To download the demo program \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_GCC\**Prog**\bin\**demoprog_stm32f091.srec** using the bootloader, follow the instructions in the following links, depending on the communication interface you intend to use: | + | To download the demo program \Target\Demo\ARMCM0_STM32F0_Nucleo_F091RC_IAR\**Prog**\bin\**demoprog_stm32f091.srec** using the bootloader, follow the instructions in the following links, depending on the communication interface you intend to use: |
- | * [[manual:uart_demo|Firmware updates using the UART communication interface]] | + | * [[manual:rs232_demo|Firmware updates using the RS232 communication interface]] |
* [[manual:can_demo|Firmware updates using the CAN communication interface]] | * [[manual:can_demo|Firmware updates using the CAN communication interface]] | ||