NURE Kharkiv national university of radioelectronics

Design Automation Department

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Do you want to control robots? The first step is a lecture about STM32!

We are waiting for you on Tuesday, April 15, at 7:45 a.m. at the lecture “Controlling Power Circuits with STM32 Microcontrollers”!

Here is the link where everyone can join the lecture:

https://nure-ua.zoom.us/j/8227661614?pwd=sUQNtN9UZIPjVweakn2bDMlgdENyCb.1

We invite students and everyone interested to an informative lecture on the basic principles of controlling various actuators using STM32 microcontrollers.

You will have a deep dive into the world of controlling various actuators using STM32 microcontrollers.

In the lecture, you will learn about the key aspects of controlling motors, servo motors, solenoids, lamps, and other types of loads. The basics of digital electronics and modern power components, such as MOSFETs, transistors, and relays, as well as driver circuitry for high-power loads will be covered.

Special attention will be paid to the practical aspects of GPIO and PWM configuration on STM32 microcontrollers using the HAL library. The lecturer will also discuss the basics of building interfaces between the microcontroller and power executive modules, including the use of pull-up resistors and low-side drivers.

In addition, you will learn the basics of digital logic, logic elements, and the benefits of using switching circuits. Types of circuits for load control, including low-side switching and bridge drivers, will be covered, as well as an overview of MOSFET drivers available in Ukraine. Some types of key converter and voltage stabilizer designs will also be discussed.

Don’t miss this great opportunity to gain valuable knowledge and improve your skills in the field of power circuit management using STM32 microcontrollers!

Innovative approaches to controlling real-world devices in embedded systems directly contribute to the achievement of the UN Sustainable Development Goals (SDGs):

  • SDG 7: Affordable and Clean Energy: Increase the energy efficiency of devices and control systems, optimize energy consumption, and use renewable energy sources integrated into embedded systems (e.g., controlling solar panels).
  • SDG 9: Industry, Innovation and Infrastructure: Develop innovative control technologies that increase the efficiency of industrial processes, reduce waste and optimize the use of resources.
  • SDG 11: Sustainable cities and communities: Creating smart cities with intelligent lighting, transportation, energy and water management systems that improve quality of life and reduce environmental footprint.
  • SDG 12: Responsible consumption and production: Optimize the use of resources in production processes, design durable and energy-efficient products, and promote the transition to a circular economy.
  • SDG 13: Combat climate change: Reduce energy consumption and greenhouse gas emissions through more efficient management of energy-intensive devices and systems.

The implementation of these innovative approaches allows us to create more efficient, safer and environmentally responsible embedded systems that play a key role in achieving global sustainable development goals.