![]() ![]() ![]() Under ‘ Connectivity’ the ‘ USB_OTG_FS’-mode is changed to Host_Only and in the NVIC Settings all global interrupts are enabled.Īnd under ‘ Middleware’ the ‘ USB_HOST’- ‘ Class for FS IP’ is set to ‘ Communication Host Class (Virtual Port Com)’. This project-based on a new STM32 project with these changes in the. If you want to use another setup you will have to make sure it supports USB Host and beware that the GPIO setup might be different and may need to be reconfigured in the. For this example, we will use the same STM32 Microcontroller & BlueIO & create a demo BLE project. We have used an STM32 Nucleo-144 development board with STM32H743ZI microcontroller which is a micro mbed-Enabled Development Nucleo-144 series ARM® Cortex®-M7 MCU 32-Bit Embedded Evaluation Board. The commands that are used in this example are: It will then accept 3 different inputs from the UART and send one of 3 preprogrammed commands to the BleuIO Dongle based on the input. ![]() When a BleuIO Dongle is connected to the Nucleo boards USB port the STM32 will recognize it. The project is a simple example showcasing a quick way to set up a STM32Cube project as a USB CDC Host capable of communicating with the BleuIO Dongle. In this tutorial, we will learn how to Create BLE Project using STM32 Microcontroller & BlueIO. Overview: Create BLE Project using STM32 Microcontroller & BlueIO 5.1 Downloading the project from GitHub.1 Overview: Create BLE Project using STM32 Microcontroller & BlueIO. ![]()
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