| Study Location | Kyiv |
|---|---|
| Academic Field | G Engineering, Manufacturing and Construction |
| Type | Undergraduate, Full time (on-line study is available) |
| Nominal Duration | 4 years (240 ECTS) |
| Study Language | English |
| Awards | Bachelor of G5 Electronics, Electronic Communications, Instrument Engineering and Radio Engineering |
| Entry qualification | Start your studies with a Certificate of Completed Secondary Education and the entrance exam. A valid invitation is required — documents in English are accepted, otherwise provide official translations. For enrollment, bring original, legalized documents translated into Ukrainian with notary certification. After admission, your documents undergo nostrification to be officially recognized in Ukraine. |
|---|
| Territory requirements | Citizens of the Russia, Iran, Belarus and North Korea are not allowed. |
|---|
| Language Requirements | English (B1/B2) |
|---|
Entrance Exam Description
Subjects of the exam: English Language, specialty exam.
Program Structure
The educational structure is organized to develop your knowledge and skills step‑by‑step:
1. Foundation Courses
Build essential scientific and engineering basics: Mathematics, Physics, Electrical Fundamentals; Technical Communication & English; Introduction to Electronics and Materials; Scientific Thinking and Engineering Ethics.
2. Core Professional Training
Form the heart of the program with engineering and systems knowledge: Electronic Devices & Circuits; Signal Processing and Sensor Systems; Embedded Systems & Microcontrollers; Digital and Analog Electronics; Systems Design and Integration; Medical Instrumentation and Diagnostics; Communication Technologies and Network Basics.
These courses give practical skills in designing, testing and controlling devices and systems used in everyday electronics and medical devices.
3. Practical Labs & Projects
Hands‑on experience is a key part of learning: Laboratory work with real electronic components; Design projects in hardware and software integration; Simulations, prototyping and measurement techniques.
4. Electives & Specialized Subjects
Students may choose additional subjects in areas such as: Biomedical sensor systems; Power electronics; Internet of Things (IoT) electronics; Advanced communication technologies.
This provides flexibility to tailor the program to specific interests and career goals.
5. Final Project (Bachelor Thesis)
In their final year, students complete a capstone project that synthesizes theory and practice — often solving real industry or research‑oriented problems in electronics, systems design or medical engineering.
Overview
The program designed for future engineers who want to work with electronic devices, systems, communication technologies and medical engineering solutions. It equips students with a deep understanding of how electronic components operate, how they are designed and integrated into complex systems — including technologies used in medical equipment and diagnostic systems. The program blends engineering fundamentals, hands‑on practice, modern tools and real‑world problem solving to prepare graduates for technological innovation and industry challenges.
Career Opportunities
Graduates are prepared for a wide range of roles in the electronics, communication and medical technology sectors, such as:
- Electronic Systems Engineer – design, test and implement electronic devices and systems;
- Hardware Designer / Developer – work with circuits, sensors, embedded systems;
- Systems Integrator – combine hardware and software into optimized solutions;
- Medical Electronics Specialist – develop and maintain medical diagnostic and therapeutic equipment;
- Telecommunication Equipment Engineer – work on networks, communication systems, signal processing;
- Technical Support & Maintenance Engineer – serve industry and healthcare technical support needs.
The strong practical focus and interdisciplinary nature of the program make graduates attractive to employers in advanced electronics production, medical tech companies, communication equipment manufacturers, research labs and high‑tech startups.