Here for our tutorials, TrueSTUDIO will be used for writing, compiling, and debugging code because it is free to download and use even for commercial projects without any license requirement. IAR Embedded Workbench® for ARM® (EWARM).The STM32 family consists of 32-bit Microcontrollers that support the following IDEs and toolchains: So here we also need an IDE for our STM32 Nucleo64 Boards to perform programming and debugging. Getting started with any microcontroller will need a programming IDE like we have Arduino IDE for Arduino boards, Atmel Studio for AVR microcontroller, MP Lab for PIC, etc. Selecting and Downloading the Required Development Platforms for Nucleo64 Boards Even, if you have a different version, most things discussed in the tutorial will suffice for you to get started. We have selected this board mainly because of its low cost. Note: There are many versions of STM32 Nucleo64 Development Boards, the particular board used in this tutorial is NUCLEO-F030R8. The video also demonstrates how to program STM32 using ARM Mbed Platform but for this tutorial, we will use another free to use platform from ST Microelectronics called TrueSTUDIO. If you are completely new to the STM32 Nucleo64 Development Boards, do check out this Nucleo64 Review video to understand the basics of this board before you proceed further. Nucleo64 Development Boards are low cost and easy to use platform for professional developers as well as for hobbyist. Similarly, starting with this article, we will also plan a sequence of STM32 Nucleo64 Development Board Tutorials which can help absolute beginners to learn and develop using the STM32 Platform. We have already covered a sequence of PIC Microcontroller tutorials, which guides beginners for learning PIC microcontrollers. In fact, for most people, Arduino would have been their first development board, but as we dig deep and begin professional designs, we will soon realize the limitations of Arduino (like cost, versatility, stability, speed, etc.) and understand the need to shift into a more native Microcontroller platform like PIC, STM, Renesas, etc. 2.4 GHz RF transceiver supporting IEEE 802.15.Many of us should be familiar with the popular microcontrollers and development boards like Arduino, Raspberry Pi, ESP8266, NoduMCU, 8051, etc.Board-specific features (STM32WB55RG only).Support of a wide choice of Integrated Development Environments (IDEs) including IAR Embedded Workbench ®, MDK-ARM, STM32CubeIDE, and Mbed Studio.Comprehensive free software libraries and examples available with the STM32CubeWB MCU Package.On-board ST-LINK/V2-1 debugger/programmer with USB re-enumeration capability: mass storage, Virtual COM port, and debug port. On-board footprint to mount a CR2032 battery socket.Flexible power-supply options: ST-LINK, USB V BUS, or external sources.Integrated PCB antenna and SMA connector footprint.Board connectors: ARDUINO ® Uno V3 expansion connector ST morpho extension pin headers for full access to all STM32WB I/Os.STM32WB55RG (1-Mbyte Flash memory, 256-Kbyte SRAM, in VFQFPN68 package) or STM32WB15CC (320-Kbyte Flash memory, 48-Kbyte SRAM, in VFQFPN48 package) ultra‑low‑power wireless microcontroller featuring: Dual-core 32‑bit (Arm ® Cortex ®-M4 and dedicated M0+ CPU for real-time radio layer) 2.4 GHz RF transceiver supporting Bluetooth ® specification v5.2.
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