STM32: programming (STM32F1) via USB with STM32duino boot-loader – 2
STM32duino-bootloader is created for STM32F103 boards to use with the Arduino_Core_STM32 repo and the Arduino IDE; very useful to program the microcontroller directly via USB.
STM32duino-bootloader is created for STM32F103 boards to use with the Arduino_Core_STM32 repo and the Arduino IDE; very useful to program the microcontroller directly via USB.
WeAct STM32F411CEU6 high-resolution pinout and specs
WeAct STM32F401CCU6 high-resolution pinout and specs
I must fill a tank 1.5 km away, so I create a 2-part controller.
A server with a relay to manage the pump and a client solar/battery-powered to check the tank’s status and notify the status to the server.
We are going to assemble the Server PCB.
Navigating the STM32 world is more complicated than other microcontrollers, one of the reasons is that it is an extremely large world and there are many options for both software and hardware.
In this tutorial we try to create a path to follow to reach a good knowledge of these devices.
Let’s start with the famous STM32 Blue Pill, let’s see how to program it and the basic features.
I must fill a tank 1.5 km away, so I create a 2-part controller.
A server with a relay to manage the pump and a client solar/battery-powered to check the tank’s status and notify the status to the server.
Here we are going to look at the Client software.
STM32F103C6T6 high-resolution pinout and specs
STM32F103C8T6 high-resolution pinout and specs
I must fill a tank 1.5 km away, so I create a 2-part controller.
A server with a relay to manage the pump and a client solar/battery-powered to check the tank’s status and notify the server’s status.
Here, we are going to look at the Server software.
In this article, we look at the Wake On Radio (WOR), one of the essential features of our Ebyte E220 UART LoRa device based on LLCC68 Wireless Modules.
Then we understand how to manage complex structures that are better optimized than string format data.