Study location	Latvia, Riga
Academic field	Electricity and energy 06.2 (ISCED 522) Electrical engineering (JACS H620)
Type	Bachelor, full-time
Nominal duration	4.5 years (270 ECTS)
Study language	English
Awards	BSc (Bachelor of Engineering Sciences in Electrical Engineering and Qualification of Electrical Engineer in Industrial Adaptronics or Adaptronics in Health Care and Medicine or Adaptronics in Information Systems)
Course code	AECA0
Accreditation	29.05.2013 - 28.05.2019 Accreditation Certificate #365

Tuition fee	€3,550 per year
Application fee	€150 one-time
Deposit	€250 one-time Refundable
Registration fee	To be confirmed You need to choose an individual service package. Please contact the center curator or your agent and consult. You can also familiarize yourself with packages baltic.study/en/packages You become a part of student union and ambassador program automatically after you will get Base or Standard or VIP status. *Do not forget to ask discount

Entry qualification

High school / secondary education (or higher) Secondary (High) School Graduation Certificate or 4-year Vocational Secondary Education and Transcript with good results, particularly in mathematics and/or physics. Education documents must be accompanied by English translations of all certificates and transcripts along with approval of the documents authenticity. Often you can get 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 entry qualification documents along with you when you finally go to the university.

Territory requirements	Applications are NOT accepted from the following territories (based on citizenship): Bangladesh, Iraq, Pakistan, Yemen.

Language requirements

English Accepted proof of proficiency: FCE or CAE, IELTS 5.5+ or TOEFL 69+ Non-native English speakers are requested to present a copy of Internationally recognized English certificate. We accept the following: • TOEFL iBT – 72 or above; • TOEFL pBT – 532 or above; • IELTS – 5,5 or above; • TOEIC test score – 780 or above; • Cambridge English Language Assessment – B2 First • Pearson Test of English Academic (PTE A) – 59 or above; • Duolingo – 95 or above;

Other requirements	At least 1 reference(s) must be provided. A motivation letter must be added to your application. Every student should pass pre-recorded video interview and entrance examination in Mathematics before receiving the final admission. More details will be provided during the application process.

Overview

FACULTY OF POWER AND ELECTRICAL ENGINEERING
The Bachelor programme of Engineering Sciences in Adaptronics has been designed to prepare students to work in, or control engineering teams.

Our Electronics and electrical engineering technology programs prepare students with the underlying principles of how circuits work, learning how to develop and test system prototypes, the calibration of instruments or the preparation of systems reports.

This Bachelor study programme provides a blend of knowledge from electrical technologies and computer sciences focusing on state-of-the-art electrical technological equipment, including how to apply the latest automation devices in traditional electro-technical systems and microprocessor control systems.

The aim of the programme is to provide a professional education in Adaptronics and prepare students for the workplace or for further studies at the Masters level.

KEY FEATURES
Progressive Research Based Learning: Students of RTU are encouraged to be involved in the activities under the control of Doctoral Researchers, with a belief that their minds will bring new dimensions to the research activities in the Faculty and add to their experience prior to entering the workforce.

Programme structure

A Compulsory courses 104.0 CP / 156.0 ECTS 
A1 General education study courses 38.0 CP/ 57.0 ECTS
Subject
Mathematics
Physics
Mechanics
General Chemistry
Introductive Course in Adaptronics
Latvian Language
New Product Design and Development Methodology
Business and Investments
Labour Protection and Occupational Safety
Descriptive Geometry and Engineering Graphics
History and Culture of Latvia

A2 Field specific theoretical basic study courses and IT study 34.0 CP/ 51.0 ECTS
Subject
Fundamentals of Electrical Engineering Theory
Electricity and Magnetism
Computerization of Mathematical Tasks in Electrical Engineering
Electronic Equipment
Computer Studies (basic course)
Electrical Measuring
Basics of Regulation Theory
Digital Electronics and Computer Architecture
Theory of Circuits
Programming Technologies in Industrial Electronics

A3 Field specific professional study courses 32.0 CP/48.0 ECTS
Subject
Power Electronics
Electrical Machines
Basics of Electric Power Engineering
Digital Electronics (Study Project)
Electric Supply (Study project)
Programming Technologies (study project)
Basic Signal Theory
Adaptive Systems in Biology
Digital Electronics (basic level)
Theory of Electrical Drive Systems

B  Compulsory elective study courses 30.0 CP/ 51.0 ECTS 
B1 Field-specific study course 26.0 CP/ 39.0 ECTS 
Industrial adaptronics 26.0 CP/ 39.0 ECTS
Subject
Modern production technologies
Computer Vision
Application of Computers in Electrical Equipment Design
Artificial Intelligence
Analysis of Biological Signals
Adaptive Systems in Industrial Electronics
Embedded systems (course project)
Industrial Sensors and Actuators
Elements of Adaptive Systems
Autonomous Robotic System (course project)
Adaptronics in healthcare and medicine 26.0 CP/39.0 ECTS
Subject
Introduction to Medical Engineering
Analysis of Biological Signals
Smart Nanostructured Materials
Medical Instrumentation
Computer Aided Control Systems in Medicine
Artificial Intelligence
Nanobiomimetics
In Biological Systems Rooted Robots
Embedded systems (course project)
Elements of Adaptive Systems
Biological Robots (course project)
Adaptronics in information systems 26.0 CP/ 39.0 ECTS
Subject
Elements of Automatics
Energy Effective Technologies
Fundamentals of Industrial Computer Networks
Adaptive Systems in Industrial Electronics
Computer Modelling of Intelligent Agents
Optimization Algorithms
Databases for Transportation Networks
WEB site design for transportation systems

B2 Humanities and social sciences study courses 4.0 CP/ 6.0 ECTS
Subject
General Sociology
Economics

C  Free Choice Courses 6.0 CP/ 9.0 ECTS
D Internship 20.0 CP/ 30.0 ECTS 
E Final Examination 20.0 CP / 30.0 ECTS
Subject
Bachelor Thesis Including Project
Engineering Project

Career opportunities

CAREER OPPORTUNITIES
Students completing the Bachelor in Adaptronics will have a fundamental working knowledge of the theoretical and practical issues related to the implementation of the various electrical technologies in differing economic sectors, automation principles and expected implementation.

The necessary expertise will be obtained to begin a practical and diverse career as technicians or controllers.

Successful Graduates may also continue studies in academic Master or professional higher education programmes (with the opportunity to obtain electrical engineer qualification).