Information Package
E C T S
Faculty information
|
Faculty of Telecommunications and Electrical
Engineering ul. Prof. S. Kaliskiego 7 85-796
Bydgoszcz Dean’s
Office – building 2.1 (1st
floor), room 30 Telephone:
(+48 52) 340-80-16, 340-80-38
Fax: (+48 52) 340-80-38 e-mail: wtie@utp.edu.pl |
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A. MAP |
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B.
CONTACT DETAILS |
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Function |
First and second
name, e-mail |
Telephone |
Fax |
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Prof. Antoni Zabłudowski |
(+ 48 52) 340-80-11
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(+ 48 52)
340-80-38 |
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Vice-Dean of
Didactics and Student Affairs |
Lech
Wołłk-Łaniewski, PhD e-mail: laniewski@utp.edu.pl |
(+ 48 52) 340-80-08 |
(+ 48 52)
340-81-40 |
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Krzysztof Chmara, PhD |
(+ 48 52) 340-83-68 |
(+ 48 52) 340-81-75 |
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Elżbieta Będziak, MSc |
(+ 48 52) 340-80-45 |
(+ 48 52) 340-80-38 |
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room 314, build. 2.2 |
Prof. Ryszard Wojtyna e-mail: woj@atr.bydgoszcz.pl |
(+ 48 52)
340-81-88 |
(+ 48 52)
340-80-38 |
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Contact hours: Thursday 1300-
1500 and Friday 900-1100 |
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C. GENERAL
FACULTY INFORMATION |
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Number of undergraduates |
1417, of which
888 are full-time undergraduates |
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Teaching staff |
86, including 19
research fellows |
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Organisational
structure |
Institute of
Telecommunications
-
Division of Computer
Communications -
Division of Digital Technology -
Division of Fundamentals of
Electronic Circuits -
Division of Postal Engineering -
Division of Telecommunications
Systems -
Division of Transmission
Systems Institute of Electrical
Engineering - Division of Electrical and Electronic Metrology - Division of Electrical Machines and Drives - Division of Electrical Power Engineering - Division of Fundamentals of Electrical Circuits |
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Education courses |
for full-time courses |
1)
electronics and telecommunications (MSc studies) 2)
electrical engineering (MSc studies) |
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Historical outline |
The Faculty of Telecommunications and Electrical Engineering was
established in 1962 with active participation of the Ministry of
Communication. To start with, it offered evening and extramural courses. In
1964 intramural courses were added, at first at bachelor level, later on also
on the master level, within the courses of electrical engineering,
electronics, and telecommunications. Since its inception the Faculty has been
incessantly educating students in telecommunications and industrial
electrical engineering, adapting the profile of diploma-granting to current
needs of the national and regional economy. In 1998 the Faculty was granted rights to confer the degree of Doctor
of Technology Sciences in telecommunications. Since 1987 the Institute of Telecommunications discharges the duties
of the host of the National Telecommunications Symposium, one of the major
scientific and presentational events in Poland, organised with the
cooperation of the Telecommunications Section KEiT PAN and the Institute of
Telecommunications of Warsaw Polytechnics. |
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Research activity |
The present subject matter of research carried out
at the Faculty concerns the following thematic areas: designing and analysing
telecommunications and computer networks, modelling processes in
telecommunications networks and systems, wireless communications systems,
multi-access in mobile radiocommunications, diagnosing and processing sound
and video signals, modern electronic commutation switches, digital electronic
phone exchanges, application of fibre optics in telecommunications, analysing
and designing analogue and analogue-digital electronic systems, correlation
analysis of random signals in telecommunications systems, digital filtration
and spectrum analysis in telecommunications, microcomputer and microprocessor
control systems, reliability theory and its application in technical systems,
logistics of postal matter convey, automation of postal matter convey,
analysing and developing electrical power load, semiconducting converters,
microcomputer converter controllers and drive systems, magnetic material
analysis, electrical-power-cable testing, international quality systems. |
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Equipment |
The
Faculty has at its disposal well-equipped in apparatus and specialistic
software research laboratories used for: welding and reflectometric measuring
fibre optics, teletransmission measuring digital systems, examining and simulating
data transmission systems and computer networks, designing analogue and analogue-digital
electronic systems, ASIC programmable systems, microprocessor systems, signal
processing by means of DSP processors, examining and simulating computer
management of post offices, electrical drive testing, great-power converter
systems, monitoring and analysing electrical power load, research with
high-voltage technology. |
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Faculty Library seat – building
2.1 phone: (+ 48 52) 340-80-60 |
Reading-room and library: Access to literature and
specialist magazines, as well as to didactics lecture books. Open: Monday - Friday
between 900-1400 It is obligatory to be entered on the student list
on the basis of valid student card of the UTA. |
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Entrance conditions for full-time courses |
Information provided by: Joanna
Siołkowska, MA Office of European Programmes and
International Cooperation ul. Ks. A. Kordeckiego 20 e-mail:
siolkowj@mail.atr.bydgoszcz.pl |
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Entrance conditions for Socrates/Erasmus students |
See
page 9-11 |
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After admission |
Students are obliged to go through certain
formalities in the Dean’s Office. In accordance with regulations, students
matriculate and are entered in the student album and registration system.
They then receive a student card and ‘credit card’ which enables them to
participate in certain classes and gain credits each semester. |
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Language of instruction: 1) For
foreigners study 2) For foreigners study |
- Polish. The reason for it is that Polish and foreign
students study in the same groups. Some lectures can be delivered in English. |
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Polish courses for foreigners are available at: Uniwersytet Łódzki/ Studium Języka Polskiego dla
Cudzoziemców ul. Narutowicza 65, 90-131 Łódź Phone: (+ 48
42) 635-47-00 |
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It is possible to establish individual
teaching programmes in English, German or French in subjects specified in the
bilateral agreements. |
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One-to-one Polish language courses (in
addition to degree programme studies). |
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D. USEFUL INFORMATION |
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Getting to the |
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from Railway Station (Dworzec PKP) - bus no. 94 (express) -
from Bus Station (Dworzec PKS)
- bus no. 94 (express) or tram no. 3
or 1 and bus no. 72 Cost of a one-way
ticket: 1 PLN (half fare), 2 PLN (full fare). |
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Closest
facilities to the Faculty |
The nearest location of: - Post office: ul.
Rupniewskiego 13, - Bankomat for the Visa
card: bldg. 2,5 of the UTP -
Bank PKO B.P. – Agency Fordon II: ul. Twardzickiego 12 |
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Telephones |
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Entertainment
and free time |
Scientific Groups within the Faculty: - Student Scientific Group
“Internautilius” |
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Student’s clubs
and organizations:
Student’s club SPIN – Hall of Residence no. F-1,
Fordon
Student’s Radio
Agency - Hall of Residence no. F-1, Fordon Short-Wave Radio
Club - Hall of Residence no. F-1, Fordon
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Sports - Sports groups of the University’s Sports Association (AZS), -
Body building gym at Hall of Residence no. F-2, - Stadium, ul. Piwnika Ponurego (body
building gym, sauna, tennis court), - Swimming pool – Primary School (Szkoła
Podstawowa) |
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Organisation of full-time
courses
A. COURSE
DETAILS
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Course
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Electronics and
Telecommunications
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Full-time MSc studies (5
years)
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Specialisation: Telecommunications systems |
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Course graduation |
Within MSc courses it takes place after
crediting 10 semesters, making and defending one’s thesis and passing diploma
examination. |
Degree titles
|
Graduates are awarded with the degree of
master in engineering on the completion of the five-year courses within
telecommunications systems. |
Course
|
Electrical Engineering
|
Full-time MSc studies
(5 years)
|
Specialisation:
Industrial electrical engineering |
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Course graduation |
Within MSc courses it takes place after
crediting 10 semesters, making and defending one’s thesis and passing diploma
examination. |
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Degree titles |
Graduates are awarded with the degree of
master in engineering on the completion of the five-year courses within industrial electrical engineering. |
B. COURSE STRUCTURE AND CONTENTS
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I.
Electronics and Telecommunications |
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MSc studies |
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Total length |
10 semesters,
comprising 3585 didactics hours (300 ECTS credits) |
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Semester length |
15 weeks |
Average weekly contact hours for students |
23 hours |
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Structure of course units blocks |
-
general course units -
av. 1275 hours. i.e. 36 % -
subject course units -
av. 975 hours. i.e. 27 % -
specialist course units - av.
855 hours. i.e. 24 % -
specialisation course units - av.
480 hours. i.e. 13 % |
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Specialisation |
Telecommunications systems |
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Student practical placements |
Practical placement after
the 4th semester (4 weeks) |
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II. Electrical
Engineering |
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|
MSc studies |
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Total length |
10 semesters,
comprising 3750 didactics hours (300 ECTS credits) |
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Semester length |
15 weeks |
Average weekly contact hours for students |
25 hours |
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Structure of course units blocks |
-
general course units - av.
420 hours i.e. 11 % -
subject course units - av. 1140 hours i.e. 30 % - specialist course units - av. 2190 hours i.e. 59 % |
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Specialisation |
Industrial electrical engineering |
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Student practical placements |
6-week holiday practical placement after the
4th semester of studies and |
III. At all courses |
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- classes in particular
subjects have different forms - during the final
semester students write their theses essentially on their own. |
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All students are obliged to take, and receive credit for, vocational
practical placements in a company selected by them. Placements are checked by
the Dean Plenipotentiary of Practical Placements in order to ensure that they
meet the criteria for the placement programme. Should the company be not eligible
or the students have difficulties in finding an appropriate practice
placement, the Dean Plenipotentiary will direct undergraduates to the
institute’s placement vacancy list. It is not obligatory to participate in
practice placements for students who graduated from vocational technical
secondary schools or worked in accordance with the course or the
specialisation of their studies. Decisions concerning such students are taken
by the Dean Plenipotentiary of Practice Placements after students have submitted
an application, supported by the appropriate documents, to have their
situation reviewed. |
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C. GRADUATE PROFILES |
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I.
Electronics and Telecommunications |
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MSc studies |
Graduates
are prepared to conducting professional activities and enhancing knowledge
concerning utilising and producing modern devices and systems in
telecommunications, especially: digital phone exchanges (construction,
software, control), cellular telephony, multimedia application of Internet,
image processing application of fibre optics in telecommunications, computer
designing electronic systems, computer network management, computer modelling
and simulating, computer networks and network operative systems,
telecommunications networks and their management. Graduates find employment in
higher technical schools, in research centres, in institutions using computer
systems, at stationary and cellular telephony operators, in companies
producing electronic and telecommunications equipment as well as in computer
firms. |
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II. Electrical Engineering |
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MSc studies |
Graduates
will be prepared to developing new concepts and creating technical progress
in Industrial Electrical Engineering. For this purpose they will undergo
general (including the fundamentals of using and programming computers,
availing oneself of scientific-technical information sources, foreign
languages) and technical training. Therefore, they will be acquainted with
present problems in electrical engineering and the direction research are
taking. They will be prepared to enlarging their knowledge in the following
thematic areas: designing, will be prepared to working in research
institutes, design and construction offices, universities and high schools,
departments of the Head Power and Auto- matics Engineer, as well as
appropriate departments of industrial companies making electrical products.
They are also able to work as teachers in secondary schools. |
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EECTRICAL ENGINEERING
MSc
studies - 5
years - |
1. Semester-by-Semester Course Plan
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Ordinal number |
Schedule
item (Code) |
Course unit title
|
Teaching hours per week |
ECTS Credits
per semester |
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Lecture |
Tutorial |
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Year: 1
Semester: I
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1 |
A3 |
Two subjects to be chosen |
2 |
2 |
5 |
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2 |
B1 |
Mathematics I |
5 |
5 |
12 |
|
3 |
B5 |
Materials for Electrotechnology |
2 |
- |
4 |
|
4 |
B9 |
Graphical
representation of construction |
1 |
2 |
4 |
|
5 |
C10 |
Fundamentals of
Mechanics |
2 |
- |
5 |
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Total
ECTS Credits: |
30 |
||||
Year: 1
Semester: II
|
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|
6 |
B1 |
Mathematics I |
3 |
4 |
7 |
|
7 |
B3 |
Physics I |
3 |
1 |
5 |
|
8 |
B5 |
Materials for
Electrotechnology |
- |
1 |
1 |
|
9 |
B6 |
Theory of Electrotechnics I |
3 |
2 |
7 |
|
10 |
B8 |
Information Technology |
2 |
2 |
2 |
|
11 |
B9 |
Graphical
representation of construction |
- |
1 |
1 |
|
12 |
B10 |
Principles of Constructing |
2 |
1 |
2 |
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13 |
C8 |
Metrology |
2 |
- |
5 |
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Total
ECTS Credits: |
30 |
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Year: 2
Semester: III
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14 |
A1 |
Physical Education |
- |
2 |
0 |
|
15 |
A2 |
English |
- |
2 |
2 |
|
16 |
B2 |
Mathematics II |
2 |
1 |
4 |
|
17 |
B3 |
Physics I |
2 |
3 |
5 |
|
18 |
B6 |
Theory of Electrotechnics I |
3 |
4 |
7 |
|
19 |
B8 |
Information Technology |
2 |
2 |
3 |
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20 |
C8 |
Metrology |
2 |
3 |
4 |
|
21 |
C1 |
Fundamentals of
Electronics and Power Electronics |
3 |
1 |
5 |
|
Total ECTS Credits: |
30 |
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Year: 2
Semester: IV
|
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22 |
A1 |
Physical Education |
- |
2 |
0 |
|
23 |
A2 |
English |
- |
2 |
2 |
|
24 |
A3 |
Subject to be chosen |
1 |
1 |
1 |
|
25 |
B6 |
Theory of Electrotechnics I |
2 |
2 |
5 |
|
26 |
B11 |
Numerical
Methods in Electrical Engineering |
4 |
2 |
5 |
|
27 |
C8 |
Metrology |
- |
2 |
3 |
|
28 |
C1 |
Fundamentals of
Electronics and Power Electronics |
2 |
3 |
5 |
|
29 |
C30 |
Fundamentals of
Automatic Control Engineering |
2 |
2 |
5 |
|
30 |
C5 |
Fundamentals of Electrical
Power Engineering |
3 |
- |
4 |
|
Total ECTS
Credits: |
30 |
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Year: 3
Semester: V
|
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31 |
A1 |
Physical Education |
- |
2 |
0 |
|
32 |
A2 |
English |
- |
2 |
2 |
|
33 |
A4 |
Sources of
scientific information |
- |
1 |
1 |
|
34 |
B4 |
Physics II |
2 |
1 |
3 |
|
35 |
B7 |
Theory of Electrotechnics II |
2 |
2 |
6 |
|
36 |
C5 |
Fundamentals of Electrical
Power Engineering |
- |
2 |
3 |
|
37 |
C3 |
Control Theory |
3 |
2 |
5 |
|
38 |
C31 |
Statistical Metrology |
2 |
1 |
4 |
|
39 |
C2.1 |
Electric
Machines |
3 |
3 |
6 |
|
Total
ECTS Credits: |
30 |
||||
Year: 3
Semester: VI
|
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|
40 |
A2 |
English |
- |
2 |
2 |
|
41 |
A5 |
Mathematical
Models in System Design and Optimisation. |
2 |
- |
2 |
|
42 |
C2.1 |
Electric
Machines |
3 |
3 |
6 |
|
43 |
C4 |
High Voltage Technology |
2 |
- |
3 |
|
44 |
C7 |
Fundamentals of
Microprocessor Technique |
3 |
- |
4 |
|
45 |
C6 |
Fundamentals of Electric
Energy Utilisation |
2 |
- |
2 |
|
46 |
C12 |
Measurements of
Non-Electric Quantities |
2 |
1 |
3 |
|
47 |
C13 |
Programmable
Logic Controllers |
2 |
- |
2 |
|
48 |
C14 |
Measuring
Computer Systems |
3 |
- |
3 |
|
49 |
C2.2 |
Electric Drives |
2 |
- |
3 |
|
Total
ECTS Credits: |
30 |
||||
Year: 4
Semester: VII
|
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|
50 |
A2 |
English |
- |
2 |
2 |
|
51 |
C2.1 |
Electric
Machines |
- |
1 |
2 |
|
52 |
C4 |
High Voltage Technology |
- |
2 |
3 |
|
53 |
C7 |
Fundamentals of
Microprocessor Technique |
- |
2 |
3 |
|
54 |
C11 |
Fundamentals of Electric
Energy Utilisation |
- |
2 |
2 |
|
55 |
C13 |
Programmable
Logic Controllers |
- |
2 |
2 |
|
56 |
C14 |
Measuring Computer Systems |
- |
2 |
2 |
|
57 |
C2.2 |
Electric Drives |
2 |
2 |
5 |
|
58 |
C15 |
Electric Equipment and
Protections |
3 |
- |
3 |
|
59 |
C16 |
Digital Signal
Processing |
3 |
2 |
4 |
|
60 |
C17 |
Electric Lighting |
2 |
- |
2 |
|
Total
ECTS Credits: |
30 |
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Year: 4
Semester: VIII
|
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|
61 |
A2 |
English |
- |
2 |
2 |
|
62 |
A6 |
Principles of the
Inventional Activity and Copyright Protection |
1 |
- |
1 |
|
63 |
C2.2 |
Electric Drives |
- |
1 |
2 |
|
64 |
C15 |
Electric Equipments and
Protections |
- |
3 |
3 |
|
65 |
C9 |
Electric Drive
Systems |
2 |
- |
2 |
|
66 |
C18 |
Modelling and
Simulation of Power Electronic Systems |
1 |
1 |
3 |
|
67 |
C19 |
Fractional HP
Electric Machines |
2 |
- |
3 |
|
68 |
C20 |
Industrial Electrical Power
Systems |
2 |
1 |
3 |
|
69 |
C21 |
Selected
Applications of Digital Signal Processors |
1 |
1 |
2 |
|
70 |
C22 |
Automatic
Control of Industrial Processes |
1 |
1 |
3 |
|
71 |
C23 |
Industrial Electric Heating
Engineering |
2 |
- |
2 |
|
72 |
C24 |
Converter-fed
Drives |
2 |
- |
2 |
|
73 |
C25 |
Electrical
Energy Management in Industry |
2 |
- |
2 |
|
Total
ECTS Credits: |
30 |
||||
Year: 5
Semester: IX
|
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|
74 |
C19 |
Fractional HP
Electric Machines |
- |
2 |
2 |
|
75 |
C23 |
Industrial Electric Heating
Engineering |
- |
2 |
2 |
|
76 |
C24 |
Converter-fed
Drives |
- |
2 |
2 |
|
77 |
C25 |
Electrical Energy Management
in Industry |
- |
1 |
2 |
|
78 |
C26 |
Industrial
networks and substations |
2 |
1 |
3 |
|
79 |
C27 |
Power Electronic
Converter Systems |
1 |
2 |
3 |
|
80 |
C28 |
Microprocessors
and Microcomputers in Controlling Systems |
2 |
2 |
4 |
|
81 |
C29 |
Control of Electric Drives |
2 |
2 |
5 |
|
82 |
C32 |
Computer
Modelling of Electric Drives |
2 |
1 |
3 |
|
83 |
C33 |
Electromechanical
Energy Conversion |
1 |
1 |
2 |
|
84 |
C35 |
Optional course |
2 |
|
2 |
|
Total
ECTS Credits: |
30 |
||||
Year: 5
Semester: X
|
|||||
|
85 |
C6 |
Electric
Device Operational Safety |
2 |
- |
5 |
|
86 |
C34 |
Diploma Seminar |
- |
2 |
25 |
|
Total
ECTS Credits: |
30 |
||||
2. Course Studies with Teaching and ECTS
Credits Load
|
Schedule item (Code) |
Course
unit title |
Semesters start - end |
Total |
Total ECTS Credits |
|||
|
1 |
2 |
3 |
4 |
5 |
|||
I. General
course units
|
|||||||
|
A1 |
Physical Education |
III-V |
90 |
0 |
|||
|
A2 |
English |
III-VIII |
180 |
12 |
|||
|
A3 |
Principles of Enterprise |
I |
30 |
3 |
|||
|
A3 |
Contemporary International
Relations |
I |
30 |
3 |
|||
|
A3 |
Creative Work Methodology |
I |
30 |
2 |
|||
|
A3 |
Environment Protection |
I |
30 |
2 |
|||
|
A3 |
Organisation and Management |
IV |
30 |
1 |
|||
|
A3 |
Fundamentals of Marketing |
IV |
30 |
1 |
|||
|
A4 |
Sources of
scientific information |
V |
15 |
1 |
|||
|
A5 |
Mathematical
Models in System Design and Optimisation. |
VI |
30 |
2 |
|||
|
A6 |
Principles of the
Inventional Activity and Copyright Protection |
VIII |
15 |
1 |
|||
|
Total: |
- |
420 |
22 |
||||
II. Subject
course units
|
|||||||
|
B1 |
Mathematics I |
I-II |
255 |
19 |
|||
|
B2 |
Mathematics II |
III |
45 |
4 |
|||
|
B3 |
Physics I |
II-III |
135 |
10 |
|||
|
B4 |
Physics II |
V |
45 |
3 |
|||
|
B5 |
Materials for
Electrotechnology |
I-II |
45 |
5 |
|||
|
B6 |
Theory of Electrotechnics I |
II-IV |
240 |
19 |
|||
|
B7 |
Theory of
Electrotechnics II |
V |
60 |
6 |
|||
|
B8 |
Information Technology |
II-III |
120 |
5 |
|||
|
B9 |
Graphical
representation of construction |
I-II |
60 |
5 |
|||
|
B10 |
Principles of Constructing |
II |
45 |
2 |
|||
|
B11 |
Numerical
Methods in Electrical Engineering |
IV |
90 |
5 |
|||
|
Total: |
- |
1140 |
83 |
||||
III.
Vocational course units
|
|||||||
|
C1 |
Fundamentals of Electronics and Power Electronics |
III-IV |
135 |
10 |
|||
|
C2.1 |
Electric
Machines |
V-VII |
195 |
14 |
|||
|
C2.2 |
Electric Drives |
VI-VIII |
105 |
10 |
|||
|
C3 |
Control Theory |
V |
75 |
5 |
|||
|
C4 |
High Voltage Technology |
VI-VII |
60 |
6 |
|||
|
C5 |
Fundamentals of Electrical
Power Engineering |
IV-V |
75 |
7 |
|||
|
C6 |
Electric Device Operational
Safety |
X |
30 |
5 |
|||
|
C7 |
Fundamentals of
Microprocessor Technique |
VI-VII |
75 |
7 |
|||
|
C8 |
Metrology |
II-IV |
135 |
12 |
|||
|
C9 |
Electric Drive
Systems |
VIII |
30 |
2 |
|||
|
C10 |
Fundamentals
of Mechanics |
I |
30 |
5 |
|||
|
C11 |
Fundamentals of Electric
Energy Utilisation |
VI-VII |
60 |
4 |
|||
|
C12 |
Measurements of
Non-Electric Quantities |
VI |
45 |
3 |
|||
|
C13 |
Programmable
Logic Controllers |
VI-VII |
60 |
4 |
|||
|
C14 |
Measuring
Computer Systems |
VI-VII |
75 |
5 |
|||
|
C15 |
Electric Equipments and
Protections |
VII-VIII |
90 |
6 |
|||
|
C16 |
Digital Signal
Processing |
VII |
75 |
4 |
|||
|
C17 |
Electric Lighting |
VII |
30 |
2 |
|||
|
C18 |
Modelling and
Simulation of Power Electronic Systems |
VIII |
30 |
3 |
|||
|
C19 |
Fractional HP Electric
Machines |
VIII-IX |
60 |
5 |
|||
|
C20 |
Industrial Electrical Power
Systems |
VIII |
45 |
3 |
|||
|
C21 |
Selected
Applications of Digital Signal Processors |
VIII |
30 |
2 |
|||
|
C22 |
Automatic
Control of Industrial Processes |
VIII |
30 |
3 |
|||
|
C23 |
Industrial Electric Heating
Engineering |
VIII-IX |
60 |
4 |
|||
|
C24 |
Converter-fed
Drives |
VIII-IX |
60 |
4 |
|||
|
C25 |
Electrical Energy Management
in Industry |
VIII-IX |
45 |
4 |
|||
|
C26 |
Industrial
networks and substations |
IX |
45 |
3 |
|||
|
C27 |
Power Electronic
Converter Systems |
IX |
45 |
3 |
|||
|
C28 |
Microprocessors
and Microcomputers in Controlling Systems |
IX |
60 |
4 |
|||
|
C29 |
Control of
Electric Drives |
IX |
60 |
5 |
|||
|
C30 |
Fundamentals of
Automatic Control Engineering |
IV |
60 |
5 |
|||
|
C31 |
Statistical Metrology |
V |
45 |
4 |
|||
|
C32 |
Computer
Modelling of Electric Drives |
IX |
45 |
3 |
|||
|
C33 |
Electromechanical
Energy Conversion |
IX |
30 |
2 |
|||
|
C34 |
Diploma Seminar |
X |
30 |
25 |
|||
|
C35 |
Industrial
Electric Drives |
IX |
30 |
2 |
|||
|
C35 |
Telecommunications and
Computerisation in Electrical Power Engineering |
IX |
30 |
2 |
|||