STM32: Difference between revisions
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imported>Rmarko (add opencm3, timer calc) |
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== Libraries == | |||
=== libopencm3 === | |||
Minimalistic firmware library/framework. | |||
==== Bootstrapping on Fedora ==== | |||
===== Library ===== | |||
* dnf install arm-none-eabi* | |||
* mkdir embedded | |||
* git clone https://github.com/libopencm3/libopencm3 | |||
* cd libopencm3 | |||
* # Edit TARGETS in Makefile and keep only targets that you need (or just stm32/f1 for example). | |||
* make -j8 | |||
* cd .. | |||
===== DFU bootloader ===== | |||
This is a bootloader for Device Firmware Update via USB (stm32/f1). | |||
* git clone https://git.48.io/libopencm3_dfu | |||
* cd libopencm3_dfu | |||
* # connect JTAG | |||
* make flash | |||
* # or flash via USART & stm32flash, see flashing section above | |||
* make stm32flash | |||
===== Sample application ===== | |||
For use with DFU bootloader (stm32/f1). | |||
* git clone https://git.48.io/libopencm3_template | |||
* cd libopencm3_template | |||
* # flash via dfu | |||
* make dfu | |||
* # or with JTAG | |||
* make flash | |||
===== Library examples ===== | |||
* git clone https://github.com/libopencm3/libopencm3-examples | |||
* # Either fetch git submodule pointing to libopencm3 and repeat steps in Library section | |||
* # or symlink libopecm3 dir to previously built libopencm3 | |||
* cd libopencm3-examples | |||
* rmdir libopencm3 | |||
* ln -s <PATH_TO-->/libopencm3 . | |||
* # try building miniblink example | |||
* cd examples/stm32/f1/stm32-h103/miniblink | |||
* make | |||
===== Troubleshooting ===== | |||
* use make V=1 when make fails | |||
= Calculating Timer Frequency = | |||
== MUCH WIP == | |||
period_target_ms = p1 | |||
period_hz = p2 | |||
1000ms / p1 = p2 | |||
E.g. for 20ms (servo) period | |||
1000ms / 20 ms = 50 hz | |||
cpu_freq = 72Mhz | |||
prescale = 72 | |||
72MHz / 72 = 1Mhz | |||
This increases out count register CNT by 1 000 000 each second. | |||
To calculate what is the correct value for the ARR register (which defines the period), | |||
we divide the result of the prescaled frequency | |||
by the intended frequency for our period: | |||
1 000 000 Hz / 50 Hz = 20 000 | |||
Now every time the CNT register is increased by one, this is the equivalent to 1us. | |||
The duty cycle now could by set easily. | |||
E.g. for a 1.5ms duty cycle we set the CCRx register to 1500. | |||
== Stepper == | |||
driver_max_duty = 250khz | |||
From http://www.kaltpost.de/?page_id=412 | |||
Revision as of 19:02, 9 November 2016
STM32 programming
Boot mode configuration
<syntaxhighlight lang="bash"> BOOT0 BOOT1 Boot mode Address
x 0 Main Flash memory 0x8000000 0 1 System memory (built-in bootloader) 0x1FFFB000 1 1 Embedded SRAM 0x20000000
in Main flash memory and System memory boot modes address is aliased to 0x0
</syntaxhighlight>
Legend
<syntaxhighlight lang="R"> o o o BOOT1 o o o BOOT0 --- </syntaxhighlight>
Boot to bootloader
<syntaxhighlight lang=" --- ">R</syntaxhighlight>
Boot to main flash
<syntaxhighlight lang=" --- ">R</syntaxhighlight>
Flashing
- Flashing is done via USART1 (A9 TX A10 RX)
Converting Elf to Bin
Required if you only have elf files produced by your toolchain - stm32flash accepts only *.bin files.
<syntaxhighlight lang="bash"> arm-none-eabi-objcopy -O binary miniblink.elf miniblink.bin </syntaxhighlight>
Using stm32flash
Test connection with
<syntaxhighlight lang="bash"> stm32flash /dev/ttyUSB0 </syntaxhighlight>
Flash and run from 0x0
<syntaxhighlight lang="bash"> stm32flash /dev/ttyUSB0 -w miniblink.bin -g 0x0 </syntaxhighlight>
Pinout
Libraries
libopencm3
Minimalistic firmware library/framework.
Bootstrapping on Fedora
Library
- dnf install arm-none-eabi*
- mkdir embedded
- git clone https://github.com/libopencm3/libopencm3
- cd libopencm3
- # Edit TARGETS in Makefile and keep only targets that you need (or just stm32/f1 for example).
- make -j8
- cd ..
DFU bootloader
This is a bootloader for Device Firmware Update via USB (stm32/f1).
- git clone https://git.48.io/libopencm3_dfu
- cd libopencm3_dfu
- # connect JTAG
- make flash
- # or flash via USART & stm32flash, see flashing section above
- make stm32flash
Sample application
For use with DFU bootloader (stm32/f1).
- git clone https://git.48.io/libopencm3_template
- cd libopencm3_template
- # flash via dfu
- make dfu
- # or with JTAG
- make flash
Library examples
- git clone https://github.com/libopencm3/libopencm3-examples
- # Either fetch git submodule pointing to libopencm3 and repeat steps in Library section
- # or symlink libopecm3 dir to previously built libopencm3
- cd libopencm3-examples
- rmdir libopencm3
- ln -s <PATH_TO-->/libopencm3 .
- # try building miniblink example
- cd examples/stm32/f1/stm32-h103/miniblink
- make
Troubleshooting
- use make V=1 when make fails
Calculating Timer Frequency
MUCH WIP
period_target_ms = p1 period_hz = p2
1000ms / p1 = p2
E.g. for 20ms (servo) period
1000ms / 20 ms = 50 hz
cpu_freq = 72Mhz prescale = 72
72MHz / 72 = 1Mhz
This increases out count register CNT by 1 000 000 each second. To calculate what is the correct value for the ARR register (which defines the period), we divide the result of the prescaled frequency by the intended frequency for our period:
1 000 000 Hz / 50 Hz = 20 000
Now every time the CNT register is increased by one, this is the equivalent to 1us. The duty cycle now could by set easily. E.g. for a 1.5ms duty cycle we set the CCRx register to 1500.
Stepper
driver_max_duty = 250khz