Platform ST STM32: The STM32 family of 32-bit Flash MCUs based on the ARM Cortex-M processor is designed to offer new degrees of freedom to MCU users. It offers a 32-bit product range that combines very high performance, real-time capabilities, digital signal processing, and low-power, low-voltage operation, while maintaining full integration and ease of development.
Microcontroller |
STM32L433RC |
Frequency |
80MHz |
Flash |
256KB |
RAM |
64KB |
Vendor |
Please use nucleo_l433rc_p
ID for board option in “platformio.ini” (Project Configuration File):
[env:nucleo_l433rc_p]
platform = ststm32
board = nucleo_l433rc_p
You can override default ST Nucleo L433RC-P settings per build environment using
board_***
option, where ***
is a JSON object path from
board manifest nucleo_l433rc_p.json. For example,
board_build.mcu
, board_build.f_cpu
, etc.
[env:nucleo_l433rc_p]
platform = ststm32
board = nucleo_l433rc_p
; change microcontroller
board_build.mcu = stm32l433rc
; change MCU frequency
board_build.f_cpu = 80000000L
ST Nucleo L433RC-P supports the next uploading protocols:
blackmagic
cmsis-dap
jlink
mbed
stlink
Default protocol is stlink
You can change upload protocol using upload_protocol option:
[env:nucleo_l433rc_p]
platform = ststm32
board = nucleo_l433rc_p
upload_protocol = stlink
Debugging - “1-click” solution for debugging with a zero configuration.
Warning
You will need to install debug tool drivers depending on your system. Please click on compatible debug tool below for the further instructions and configuration information.
You can switch between debugging Tools & Debug Probes using debug_tool option in “platformio.ini” (Project Configuration File).
ST Nucleo L433RC-P has on-board debug probe and IS READY for debugging. You don’t need to use/buy external debug probe.
Compatible Tools |
On-board |
Default |
---|---|---|
Yes |
Yes |
Name |
Description |
---|---|
Arduino Wiring-based Framework allows writing cross-platform software to control devices attached to a wide range of Arduino boards to create all kinds of creative coding, interactive objects, spaces or physical experiences |
|
The ARM Cortex Microcontroller Software Interface Standard (CMSIS) is a vendor-independent hardware abstraction layer for the Cortex-M processor series and specifies debugger interfaces. The CMSIS enables consistent and simple software interfaces to the processor for interface peripherals, real-time operating systems, and middleware. It simplifies software re-use, reducing the learning curve for new microcontroller developers and cutting the time-to-market for devices |
|
Arm Mbed OS is an open source embedded operating system designed specifically for the ‘things’ in the Internet of Things. It includes all the features you need to develop a connected product based on an Arm Cortex-M microcontroller, including security, connectivity, an RTOS and drivers for sensors and I/O devices |
|
STM32Cube embedded software libraries, including: The HAL hardware abstraction layer, enabling portability between different STM32 devices via standardized API calls; The Low-Layer (LL) APIs, a light-weight, optimized, expert oriented set of APIs designed for both performance and runtime efficiency |
|
The Zephyr Project is a scalable real-time operating system (RTOS) supporting multiple hardware architectures, optimized for resource constrained devices, and built with safety and security in mind |
|
The libOpenCM3 framework aims to create a free and open-source firmware library for various ARM Cortex-M0(+)/M3/M4 microcontrollers, including ST STM32, Ti Tiva and Stellaris, NXP LPC, Atmel SAM3, Energy Micro EFM32 and others |