| Module |
Description |
| Humanities |
15 ECTS credits, 12 ECTS credits compulsory courses, 3 ECTS credits optional courses.
Objective:
to introduce opinions and attitudes of science and politics in the field of the specialty and enable to acquire a special foreign language.
Learning outcomes:
student
- possesses the communication and teamwork skills and communication technologies;
- is able to understand the information about speialty in foreign language;
- can use the oral and written language in solving specialty-related problems and situations;
- is able to take part in professional conversations. |
| Mathematics, Sciences and Graphics |
37 ECTS credits, 33 ECTS credits compulsory courses, 4 ECTS credits optional courses.
Objective:
to create a basis and provide basic knowledge about engineering subjects.
Learning outcomes:
student
- has acquired basic knowledge in sciences that are the base of engineering training;
- has acquired the base to continue studying in master level. |
| Economics and Business Administration |
19 ECTS credits, 16 ECTS credits compulsory courses, 3 ECTS credits optional courses.
Objective:
to enable to get to know the basics and regulations about the functioning of economy.
Learning outcomes:
student
- has knowledge about the terminology and basics of economy, the universal principles and concepts of company;
- understands the modern macroeconomic trends and is able to analyse the economic behavior of market participants;
- understands the company´s economic model and the basics of management;
- knows the project management, is able to design a production unit, is able to plan and organize human resources;
- possesses the professional terminology of mechanical engineer and presentation technologies and -techniques. |
| Speciality Core Subjects |
63 ECTS credits, 57 ECTS credits compulsory courses, 6 ECTS credits optional courses.
Objective:
to provide basic knowledge of electrical materials, electrical engineering, electronics, automation, digital technology and engineering calculations.
Learning outcomes:
student
- knows the classification, application, construction and working principles of electrical apparatus;
- knows working principles, construction and applications of transformers and electrical machines;
- is familiar with the materials, their properties and applications;
- is familiar with the basics of theoretical mechanics, electronics and automatic control;
- understands electrotechnical relations and is able to implement them;
- understands the applications of digital technology;
- is proficient with elements of the microprocessor technology;
- has basic knowledge in the field of hydraulic and pneumatic automation;
- is familiar with the kinematic, static and dynamic calculation methods;
- is familiar with electrical materials used nowadays, knows their characteristics and applications in electrical installations;
- understands physical processes of atmospheric electricity in the air, types of lightning, lightning protection and surge arresters, is familiar with the high-voltage equipment used in laboratories, is able to make high-voltage tests and measurements, can describe the insulation coordination;
- is able to read, design and make wiring diagrams, make calculations and construct typical elements;
- can analyse the project and make technically and economically reasonable engineer´s decisions. |
| Electrical Installations and Energy Systems |
17 ECTS credits
Objective:
to provide deepened knowledge about energy and automation technology.
Learning outcomes:
student
- understands the general energy system and its various components, electrical installations of substations and electrical networks, requirements for cable lines, methods to ensure short circuit and overload protection of the electrical current, understands the necessity and methods of reactive power compensation;
- has knowledge of electricity generation, transmission and distribution;
- has knowledge of today´s electricity industry and market;
- knows information transmission systems used in energetics;
- is familiar with the basic concepts of electric lighting, standardized illuminance levels and densities;
- is familiar with the basic principles and theory of electric drives and their control;
- Is familiar with the purpose, applications and control systems of industrial electrical machines and devices;
- knows the construction and working principles of controllers, their data interfaces, programming languages and principles;
- knows the purpose of the automatic control system elements and devices. |
| Electrical Installations - Selection Module 1 |
See Electrical Installations and Energy Systems |
| Energy Systems - Selection Module 2 |
See Electrical Installations and Energy Systems |
| Design Development |
11 ECTS credits, 7 ECTS credits compulsory courses, 4 ECTS credits optional courses.
Objective:
to provide an overview about the design of electrical supply.
Learning outcomes:
student
- can use and relate the theoretical and practical knowledge for the low- and high-voltage power supply design;
- is able to solve tasks in the project;
- is able to analyse and solve organizational problems occurred during the design process;
- is able to formulate topical problems and find different solutions associated with the company;
- is able to use appropriate methods for information collection and its creative and critical interpretation. |
| Working Life |
24 ECTS credits, 11 ECTS credits compulsory courses, 13 ECTS credits optional courses.
Objective:
to enable the acquisition of the knowledge and skills that help to understand the operation of the organisation and support coping in it.
Learning outcomes:
student
- has acquired the general knowledge, skills and attitudes to cope with the labour market;
- orientates in the labour laws. |
| Graduation Thesis |
15 ECTS credits Graduation Thesis, 3 ECTS credits Thesis Practice.
Objective:
to enable to apply the acquired knowledge and skills in solving a theoretical-practical professional problem.
Learning outcomes:
student
- has a systematic overview about the speciality;
- is able to formulate speciality related problems and to analyse them and find different solution possibilities concerning modern technology possibilities and economic efficiency;
- possesses the communication skills and communication technologies required for work;
- can implement the acquired knowledge and skills in professional work. |
| Practical Training |
36 ECTS credits.
Objective:
to enable to implement and control the acquired knowledge and skills in the work environment.
Learning outcomes:
student
- can implement the acquired knowledge and competencies in the production process;
- is able to solve the project tasks, develop technological processes;
- is able to choose the cutting tools and appliances;
- is able to analyse and solve the organizational problems that are connected to product development and production management;
- is able to formulate the company´s current problems and to find different solutions for them. |
