| Study Location | Kyiv |
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| Academic Field | G5 Electronics, electronic communications, instrumentation and radio engineering |
| Type | Undergraduate, Full time (on-line study is available) |
| Nominal Duration | 4 years (240 ECTS) |
| Study Language | English |
| Awards | Bachelor of Electronics, electronic communications, instrumentation and radio engineering |
| Entry qualification | The certificate of Completed Secondary Education is required. Compulsory entrance exam. The entry qualification documents are accepted in English (except for documents issued in Ukraine upon completion of studies at local educational institutions) . In most cases you can request a suitable transcript from your school. If this is not the case, you will need official translations along with verified copies of the original. You must take the original & legalized (according to the international agreements) entry qualification documents along with you when you finally enter the university. |
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| Territory requirements | General entry requirement - Student visa. Citizens of the Russia, Iran, Belarus and North Korea who do not hold a permanent residence permit in Ukraine may be admitted for studies only with an individual authorization from the Ministry of Education and Science of Ukraine. |
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| Language Requirements | English (B1/B2) |
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Entrance Exam Description
During the selection process we examine the competency of the applicant in two ways:
The faculty decides about the eligibility of the applicant by examining the documents of previous studies (degree, subject, results). This is followed by an entrance exams that evaluate the level of study-language and basic subjects depends on speciality.
The exams can be conducted online. In order to validate the entrant’s person, exams taken remotely are recorded on video, as is the person verification process. The recording is archived for at least five years on University’s grounds and the link to that recording is available in the united base of Ministry of Education of Ukraine.
Program Structure
Year 1 – Foundations in Electronics & Physics
Subjects: Higher Mathematics (Calculus, Linear Algebra), Physics & Engineering Physics, Fundamentals of Programming, Introduction to Electronics, Computer Architecture & IT Tools, Technical Drawing / CAD Basics, English / Ukrainian Language.
The first year builds a strong foundation in math, physics, and basic electronics. You learn how electronic devices and circuits work, preparing you for biomedical and physical applications.
Year 2 – Core Electronic & Biomedical Principles
Subjects: Digital & Analog Electronics, Signals and Systems, Microcontrollers & Embedded Systems, Circuit Design & Simulation, Biomedical Instrumentation Basics, Applied Mathematics & Statistics, Physics of Biological Systems.
The second year introduces core electronic concepts and biomedical applications. You start learning how to design and measure signals from sensors and medical devices.
Year 3 – Advanced Biomedical & Physical Electronics
Subjects: Biomedical Sensors & Measurement Systems, Medical Devices & Instrumentation, Embedded Systems for Healthcare, Digital Signal Processing, Data Acquisition & Processing, Electronics for Diagnostics & Therapy. Elective Courses (e.g., Medical Imaging, Smart Sensors).
In the third year, you focus on designing and integrating electronic systems for healthcare and research. You gain hands-on experience with sensors, medical devices, and instrumentation.
Year 4 – Professional Practice & Capstone Project
Subjects: Advanced Biomedical Electronics & Devices, Medical Instrumentation Safety & Standards, System Design & Integration, Industrial / Clinical Internship, Bachelor’s Thesis / Capstone Project. Advanced Electives (e.g., Wearable Devices, Automation in Medicine).
The final year emphasizes practical experience and project work. You design, test, and implement biomedical electronic systems, preparing you for a career in healthcare technology or research.
Overview
The program trains students to work with advanced electronic systems used in healthcare, biomedical research, and industrial applications. You will learn how electronic devices, sensors, medical instruments, and measurement systems function, and how to design, test, and maintain them. This program is ideal for students passionate about electronics, medicine, and innovative technologies that improve human health and safety.
Career Opportunities
Graduates can work as biomedical electronics engineers, medical device specialists, instrumentation engineers, laboratory equipment developers, or automation specialists. They are prepared to join hospitals, biomedical research centers, medical equipment manufacturers, healthcare technology companies, or pursue advanced studies in biomedical engineering and electronics.