Difference between revisions of "STM32World"
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# Simple boards such as the common [[Blue Pill]] and [[Black Pill]] boards | # Simple boards such as the common [[Blue Pill]] and [[Black Pill]] boards | ||
# Complex boards such as most of [[ST]]'s Nucleo and Discovery boards | # Complex boards such as most of [[ST]]'s Nucleo and Discovery boards | ||
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| + | The problem with the simple boards is that you have a very limited selection of [[MCU]]s and you end up with a ratnest of jumper wires. | ||
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| + | The problem with the complex boards is that they are too opinionated. I have a [[STM32F405]] based discovery board and that one includes a complex audio part, which I have never needed nor used. | ||
== [[STM32World Form Factor|Form Factor]] == | == [[STM32World Form Factor|Form Factor]] == | ||
Revision as of 03:09, 6 May 2022
STM32World is a series of development boards designed for rapid development and prototyping.
The idea is to have MCU boards available with multiple MCU's (possibly including non ST ones such as the ones from GigaDevice).
The boards will be stackable but rather than trying to cram every single imaginable device into every board, these will be deliberately kept simple. A CAN transceiver board will include a CAN transceiver and nothing else.
As much as possible, peripheral board will be designed in such a way that they will not conflict with each other, even though this might not be possible to achieve 100 %.
All files for hardware and software is available at STM32World Github Repository
Why?
There are a gazillion STM32 development boards available on the market. A very reasonable question would be: "Why create another one?"
In general development boards fall into two different categories:
- Simple boards such as the common Blue Pill and Black Pill boards
- Complex boards such as most of ST's Nucleo and Discovery boards
The problem with the simple boards is that you have a very limited selection of MCUs and you end up with a ratnest of jumper wires.
The problem with the complex boards is that they are too opinionated. I have a STM32F405 based discovery board and that one includes a complex audio part, which I have never needed nor used.
Form Factor
STM32World boards are meant to be stackable.
All boards are 3" x 2". In many cases this is much bigger than needed but PCB's are cheap and having the boards at that size makes layout much easier.
Board Ideas
| Name | Type | Description | Status | |
|---|---|---|---|---|
|
MCUSTM32F405 | MCU | MCU Board using the STM32F405 MCU | Under development |
|
MCUSTM32F411 | MCU | MCU Board using the STM32F411 MCU | Under development |
|
MCUSTM32F103 | MCU | MCU Board using the STM32F103 MCU | Under development |
|
|
MCUGD32F405 | MCU | MCU Board using the GD32F405 MCU | Under development |
| 200px | MCUSTM32G030 | MCU | MCU Board using the STM32G030 MCU | Under development |
|
PRGSTL | Programmer | Board designed like a ST-Link/V2.1 device | Under development |
|
IOAW9523 | I/O | I²C AW9523 based GPIO Expander and LED driver | Under development |
|
MEMW25Q128 | Storage | W25Q128 SPI Serial Flash | Under development |
| HID01 | Display/Keyboard | Display and touch keyboard | Under development | |
| DWS2812 | Display | WS2812B RGB LED Array | Under development |
Pin Use
The STM32 processors are not 100 % flexible in mapping I/O pins, so certain peripherals can only be mapped to certain pins. Because of that, some of our board will conflict with each other.
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Board Specific
| Pin | MCUSTM32F405 | Remarks |
|---|---|---|
| PA0 | ||
| PA1 | ||
| PA2 | ||
| PA3 | ||
| PA4 | ||
| PA5 | ||
| PA6 | ||
| PA7 | ||
| PA8 | ||
| PA9 | ||
| PA10 | ||
| PA11 | D- | |
| PA12 | D+ | |
| PA13 | ||
| PA14 | ||
| PA15 | ||
| PB0 | ||
| PB1 | ||
| PB2 | ||
| PB3 | ||
| PB4 | ||
| PB5 | ||
| PB6 | ||
| PB7 | ||
| PB8 | ||
| PB9 | ||
| PB10 | ||
| PB11 | ||
| PB12 | ||
| PB13 | ||
| PB14 | ||
| PB15 | ||
| PC0 | ||
| PC1 | ||
| PC2 | ||
| PC3 | ||
| PC4 | ||
| PC5 | ||
| PC6 | ||
| PC7 | ||
| PC8 | ||
| PC9 | ||
| PC10 | ||
| PC11 | ||
| PC12 | ||
| PC13 | ||
| PC14 | ||
| PC15 |