| Qualification Awarded | Master degree, Ing. |
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| Level of Qualification | Second Cycle |
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| Access to Further Studies | The graduates may continue in a Third cycle |
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| Graduation Requirements | 120 ECTS Credits, Final state examination, Diploma thesis |
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| Mode of Study | Full-time |
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| Programme Director or Equivalent | Personal ID | Name |
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| PAL70 | prof. Ing. Petr Palacký, Ph.D. |
| Course Structure Diagram with ECTS Credits | 1. year / Winter semester | 1. year / Summer semester |
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| 30 ECTS Credits | 30 ECTS Credits |
| 2. year / Winter semester | 2. year / Summer semester |
| 30 ECTS Credits | 30 ECTS Credits |
| Specific Admission Requirements |
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| Specific admission requirements are determined by the Dean of the faculty. For more information please click here. |
| Specific Arrangements for the Recognition of Prior Learning |
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| Informal learning - max. 60% of credits gained in prior lifelong learning can be recognized, as determined by the Dean of the Faculty. |
| Qualification Requirements and Regulations |
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| Qualification Requirements: |
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| Finished higher education in Bachelor's degree programme. |
| Regulations: |
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| The Czech educational system is regulated by the Higher Education Act (Act 111/1998). Studies at VSB-TUO are regulated by the Statute of VSB – Technical University of Ostrava. |
| Profile of the Programme |
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| The aim of the Master's degree program is the training of specialists, who develop their abilities for independent creative work with bachelors graduates. Further study of theoretical and applied subjects according to the study plan and elaboration of the diploma thesis, the student will demonstrate the ability to apply creatively the knowledge of the studied program. The quality of teaching in the Master's degree program in Applied Electronics will be evaluated by the number of successful graduates of the study program and their application in practice.
The study program consists of applied mathematics, electronics theory, analog technology, digital technology, microprocessor technology, control and power electronics. The theoretical foundations are followed by subjects with practical focus in the area of construction of industrial electronics equipment and application of power semiconductor systems in the field of power systems and electric controlled drives. |
| Key Learning Outcomes |
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| Key Lerning Outcomes are Expressed in following Structure: Knowledge, Skills, General competencies |
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| Knowledge: |
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| The graduates have a broad and deep knowledge in the technical fields of this branch that corresponds to the current state of the art. They understand the state-of-the-art theories, concepts and methods of the branch. They are able to apply the knowledge from the related branches in their own branch. During the course of study, the student in Applied Electronics acquires the necessary knowledge of mathematics, theory of electrical circuits, information technology, and special knowledge in the following technical fields: • Applied Electronics • Analogue and Digital Electronic Circuits • Microprocessor Technology • Semiconductor Power Systems • Electric Regulated Drives • Optoelectronics • Measurement Technology • Audiovisual Technology • Construction of Electronic Devices |
| Skills: |
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| Using their expert knowledge, the graduates in Applied Electronics are able to independently define and creatively deal with a practical or theoretical problem within the branch. They can solve complex problems independently and creatively, using selected theories, concepts and methods of the branch, and apply some of the advanced research procedures of the branch to obtain new, original information. |
| General competencies: |
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| The graduates in Applied Electronics are able to make independent and responsible decisions in new or changing contexts of the individual technical fields of the branch, considering the broader social consequences of the decisions. Further, they are able to determine assignments of professional activities from available sources, they can coordinate them and bear responsibility for the results. They can convincingly communicate their own expert opinions to professionals and the public, use their professional knowledge, expert skills and general qualifications in at least one foreign language. Using the theoretical findings of the branch, they can plan, support and manage the acquisition of further professional knowledge, skills and qualifications of other team members. |
| Occupational Profiles of Graduates with Examples |
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| The graduates will find employment at designing institutes, in research and development departments, developing electronic applications in the field of control technology, semiconductor power systems, electric regulated drives, measurement technology, audiovisual technology, as managers, designers of electronic devices, researchers and developers, etc. They can work at companies with electrotechnical production, in the management of technological processes at production organizations, or in maintenance and repair operations. |
| Examination Regulations, Assessment and Grading |
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| Examination regulations, assesment and grading are described in the Study and Examination Rules. |
| Curriculum: |
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| Remark: |
| Course block: Compulsory - all courses are compulsory. |
| Course block: Choice-compulsory - student has to choose at least one course from the list of courses. |
| Course block: Optional - student can choose any course from the list of courses. |
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IMPORTANT: Student has to select so many courses to reach 30 ECTS credits per semester. Rules in detail and convenient selection of courses can be consulted with the programmme director.
Bellow stated courses are assigned for the degree studies only. Students coming to VSB-TUO for an exchange stay must select courses from the List of courses for exchange students. |
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