Subject |
Name |
Extent of teaching |
Language of teaching |
Completion
|
Semester
|
Credits
|
Guarantors |
Teachers |
AD0M13MKV |
Advanced Components of Power Electronic |
14KP+6KL |
CS |
Z,ZK |
L |
5 |
|
|
AE0M13MKV |
Advanced Components of Power Electronic |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
A0M13MKV |
Advanced Components of Power Electronic |
2P+2L |
CS |
Z,ZK |
L |
5 |
|
|
AD0B13PTE |
Advanced technology in electrical engineering |
14KP+6KC |
CS |
Z,ZK |
L |
5 |
|
|
AE0B13PTE |
Advanced technology in electrical engineering |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
BD1B13PTE |
Advanced technology in electrical engineering |
14KP+6KL |
CS |
Z,ZK |
L |
4 |
|
|
B1B13PTE |
Advanced technology in electrical engineering |
2P+2L |
CS |
Z,ZK |
L |
4 |
|
|
AD7B13ANW |
Analysis and Design of Web based Applications |
14KP+6KC |
|
KZ |
L |
4 |
|
|
A7B13ANW |
Analysis and Design of Web based Applications |
2P+2S |
|
KZ |
L |
4 |
|
|
A5M13AEZ |
Application of Electrochemical Sources |
3P+1L |
CS |
KZ |
L |
4 |
|
|
BD1M13AEZ |
Application of Electrochemical Sources |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
BE0M13AEZ |
Application of Electrochemical Sources |
2P+2L |
EN |
Z,ZK |
Z |
4 |
|
|
BE1M13AEZ |
Application of Electrochemical Sources |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
B0M13AEZ |
Application of Electrochemical Sources |
2P+2L |
CS |
Z,ZK |
Z |
4 |
|
|
B1M13AEZ |
Application of Electrochemical Sources |
2P+2L |
CS |
Z,ZK |
Z |
5 |
Hrzina P., Knap V. |
|
AE0B13BAP |
Bachelor Project |
28S |
EN |
Z |
L |
20 |
|
|
AE8B13BAP |
Bachelor Project |
7S |
CS |
Z |
L |
9 |
|
|
AD0B13BAP |
Bachelor thesis |
28S |
CS |
Z |
L |
20 |
|
|
A0B13BAP |
Bachelor thesis |
28S |
CS |
Z |
L |
20 |
|
|
A8B13BAP |
Bachelor thesis |
7S |
CS |
Z |
L |
9 |
|
|
BEVM13TMO |
Battery testing, modeling, and state estimation |
2P+2C+2D |
EN |
Z,ZK |
L |
4 |
Knap V. |
|
BVM13TMO |
Battery testing, modeling, and state estimation |
2P+2C+2D |
CS |
Z,ZK |
L |
4 |
Knap V. |
|
AD0M13KTM |
Construction and Technology of Microcomputers |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
AE0M13KTM |
Construction and Technology of Microcomputers |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
A0M13KTM |
Construction and Technology of Microcomputers |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
AD0B13KEO |
Construction of Electronic Circuits |
14KP+6KL |
CS |
Z,ZK |
Z |
4 |
|
|
AE0B13KEO |
Construction of Electronic Circuits |
2P+2L |
EN |
Z,ZK |
Z |
4 |
|
|
BD0B13KEO |
Construction of Electronic Circuits |
14KP+6KL |
CS |
Z,ZK |
Z |
4 |
|
|
B0B13KEO |
Construction of Electronic Circuits |
2P+2L |
CS |
Z,ZK |
Z |
4 |
Papež V. |
|
BD1M13MAD |
Control methods and testing in electrotechnology |
14KP+6KL |
CS |
Z,ZK |
L |
5 |
|
|
BE1M13MAD |
Control methods and testing in electrotechnology |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
B1M13MAD |
Control methods and testing in electrotechnology |
2P+2L |
CS |
Z,ZK |
L |
5 |
Dušek K., Koblížek V., Mach P., Procházka R. |
|
XP13DEZ |
Degradation processes of electridal equipment |
2P+2L |
CS |
Z,ZK |
Z |
4 |
Dušek K. |
|
AD0M13DIP |
Diploma Thesis |
36S |
CS |
Z |
L |
25 |
|
|
AE0M13DIP |
Diploma Thesis |
36S |
EN |
Z |
L |
25 |
|
|
A0M13DIP |
Diploma Thesis |
36S |
CS |
Z |
L |
25 |
|
|
BD1M13EKP |
Ecology and materials |
14KP+6KC |
CS |
Z,ZK |
Z |
5 |
Kudláček I. |
|
BE1M13EKP |
Ecology and Materials |
2P+2L |
EN |
Z,ZK |
Z |
5 |
Kudláček I. |
|
B1M13EKP |
Ecology and materials |
2P+2L |
CS |
Z,ZK |
Z |
5 |
Dzurňák B., Kudláček I. |
|
AD0B13EKE |
Ecology for Electrical |
14KP+6KL |
CS |
Z,ZK |
Z |
4 |
|
|
BD0B13EKE |
Ecology for Electrical |
14KP+6KC |
CS |
Z,ZK |
Z |
4 |
|
|
B0B13EKE |
Ecology for Electrical |
2P+2L |
CS |
Z,ZK |
Z |
4 |
Kudláček I. |
|
AE1M13EMP |
Ecology of materials and processes |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
A1M13EMP |
Ecology of materials and processes |
2P+2L |
CS |
Z,ZK |
L |
5 |
|
|
BD1M13EMP |
Ecology of materials and processes |
14KP+6KC |
CS |
Z,ZK |
L |
5 |
|
|
BE1M13EMP |
Ecology of materials and processes |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
B1M13EMP |
Ecology of materials and processes |
2P+2L |
CS |
Z,ZK |
L |
5 |
|
|
AD1M13EMP |
Ekologie materiálů a procesů |
14KP+6KC |
CS |
Z,ZK |
L |
5 |
|
|
AE0B13EKE |
Ekologie pro elektrotechniky |
2P+2L |
EN |
Z,ZK |
Z |
4 |
|
|
B1B13TEP |
Electrical engineering technological processes |
3P+2L |
CS |
Z,ZK |
L |
4 |
Mach P., Procházka R. |
|
AD1M13EZF |
Electrochemical Sources and Photovoltaics |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
AE1M13EZF |
Electrochemical Sources and Photovoltaics |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
A1M13EZF |
Electrochemical Sources and Photovoltaics |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
BD1B13SEZ |
Electrochemical Sources and Photovoltaics |
14KP+6KL |
CS |
Z,ZK |
L |
4 |
|
|
B1B13SEZ |
Electrochemical Sources and Photovoltaics |
2P+2L |
CS |
Z,ZK |
L |
4 |
|
|
AD0B13ETM |
Electrotechnical materials |
14KP+3KL |
CS |
Z,ZK |
L |
4 |
|
|
AE0B13ETM |
Electrotechnical materials |
2P+1L |
EN |
Z,ZK |
L |
4 |
|
|
A5M13NZZ |
Independent sources |
3P+1L |
CS |
KZ |
Z |
4 |
Hrzina P. |
|
BE1M13IND |
Individual Master Project |
4C |
EN |
Z |
Z |
4 |
|
|
AD1B13IND |
Individual Project |
4KC |
CS |
Z |
Z |
5 |
|
|
AD1M13IND |
Individual Project |
4KC |
CS |
Z |
Z |
6 |
|
|
AE1B13IND |
Individual Project |
4L |
EN |
Z |
Z |
5 |
|
|
AE1M13IND |
Individual Project |
4L |
EN |
Z |
Z |
6 |
|
|
A1B13IND |
Individual Project |
4L |
CS |
Z |
Z |
5 |
|
|
A1M13IND |
Individual Project |
4L |
CS |
Z |
Z |
6 |
|
|
BD1M13IND |
Individual Project |
4KC |
EN |
Z |
Z |
4 |
|
|
B1B13IND |
Individual Project |
4L |
CS |
Z |
Z |
4 |
|
|
B1M13IND |
Individual Project |
4C |
CS |
Z |
Z |
4 |
|
|
AD1B13PPS |
Industrial computer systems |
14KP+6KL |
CS |
Z,ZK |
L |
5 |
|
|
AE1B13PPS |
Industrial computer systems |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
BD1B13PPS |
Industrial computer systems |
14KP+6KL |
CS |
Z,ZK |
L |
4 |
|
|
B1B13PPS |
Industrial computer systems |
2P+2L |
CS |
Z,ZK |
L |
4 |
Künzel K. |
|
AD2B13PEL |
Industrial Electrical Engineering |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
AE2B13PEL |
Industrial Electrical Engineering |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
A2B13PEL |
Industrial Electrical Engineering |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
AD0M13PRE |
Industrial electronics |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
AE0M13PRE |
Industrial electronics |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
A0M13PRE |
Industrial electronics |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
BD0M13PRE |
Industrial electronics |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
B0M13PRE |
Industrial electronics |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
BD0M13PEK |
Introduction to Industrial Ecology |
14KP+6KC |
CS |
Z,ZK |
L |
4 |
|
|
BE0M13PEK |
Introduction to Industrial Ecology |
2L+2S |
EN |
Z,ZK |
L |
4 |
|
|
B0M13PEK |
Introduction to Industrial Ecology |
2P+2S |
CS |
Z,ZK |
L |
4 |
|
|
AD1M13VES |
Manufacturing of Electrical Components |
14KP+6KL |
CS |
KZ |
Z |
4 |
|
|
AE1M13VES |
Manufacturing of Electrical Components |
2P+2L |
EN |
KZ |
Z |
4 |
|
|
A1M13VES |
Manufacturing of Electrical Components |
2P+2L |
CS |
KZ |
Z |
4 |
|
|
BD1M13VES |
Manufacturing of Electrical Components |
14KP+6KL |
CS |
KZ |
Z |
4 |
|
|
BE1M13VES |
Manufacturing of Electrical Components |
2P+2L |
EN |
KZ |
Z |
4 |
|
|
B1B13VES |
Manufacturing of Electrical Components |
2P+2L |
CS |
Z,ZK |
L |
6 |
Papež V. |
|
B1M13VES |
Manufacturing of Electrical Components |
2P+2L |
CS |
KZ |
Z |
4 |
|
|
AE1M13VEZ |
Manufacturing of Electronic Equipment |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
BD1M13VEZ |
Manufacturing of Electronic Equipment |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
BE1M13VEZ |
Manufacturing of Electronic Equipment |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
B1B13VEZ |
Manufacturing of Electronic Equipment |
2P+2L |
CS |
Z,ZK |
L |
6 |
Bušek D., Urbánek J. |
|
B1M13VEZ |
Manufacturing of Electronic Equipment |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
A1B13VVZ |
Manufacturing of Power Devices |
2P+2L |
CS |
Z,ZK |
Z |
6 |
|
|
BD1B13VVZ |
Manufacturing of Power Devices |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
BD5B13VVZ |
Manufacturing of Power Devices |
14KP+6KL |
CS |
Z,ZK |
Z |
4 |
Hájek J., Procházka R. |
|
B1B13VVZ1 |
Manufacturing of Power Devices |
2P+2L |
CS |
Z,ZK |
Z |
4 |
Gric P., Hájek J., Procházka R. |
|
B1B13VVZ |
Manufacturing of Power Devices |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
AD0B13MTE |
Materials and technology for electronics |
14KP+6KL |
CS |
Z,ZK |
Z |
4 |
|
|
AE0B13MTE |
Materials and Technology for Electronics |
2P+2L |
EN |
Z,ZK |
L |
4 |
|
|
BD0M13MTE |
Materials and technology for electronics |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
B0M13MTE |
Materials and technology for electronics |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
BD1B13MVE |
Materials for Power Electrical Engineering |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
BD5B13MVE |
Materials for Power Electrical Engineering |
14KP+6KL |
CS |
Z,ZK |
Z |
4 |
Mach P., Sedláček J. |
|
BE5B13MVE |
Materials for Power Electrical Engineering |
2P+2L |
EN |
Z,ZK |
Z |
5 |
Mach P., Sedláček J. |
|
B1B13MVE1 |
Materials for Power Electrical Engineering |
2P+2L |
CS |
Z,ZK |
Z |
4 |
Mach P. |
|
B1B13MVE |
Materials for Power Electrical Engineering |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
XP13MSD |
Modelling and Simulation of Technological Systems |
2P+2C |
CS |
Z,ZK |
Z |
4 |
Mach P. |
|
AD0B13NNT |
Nanotechnology |
14KP+6KC |
CS |
Z,ZK |
Z,L |
4 |
|
|
AE0B13NNT |
Nanotechnology |
2P+2S |
EN |
Z,ZK |
Z,L |
4 |
|
|
BD0B13NNT |
Nanotechnology |
14KP+6KL |
CS |
Z,ZK |
Z,L |
4 |
|
|
BEVB13NNT |
Nanotechnology |
2P+2L |
EN |
Z,ZK |
Z,L |
4 |
Ctibor P., Voves J. |
|
BE0B13NNT |
Nanotechnology |
2P+2L |
EN |
Z,ZK |
Z,L |
4 |
Ctibor P. |
|
BVB13NNT |
Nanotechnology |
2P+2L |
CS |
Z,ZK |
Z,L |
4 |
Ctibor P. |
|
B0B13NNT |
Nanotechnology |
2P+2C |
CS |
Z,ZK |
Z,L |
4 |
|
|
A5M13FVS |
Photovoltaic Systems |
2P+2L |
CS |
KZ |
Z |
4 |
Hrzina P. |
|
XP13FCD |
Photovoltaics systems |
2P+2L |
CS |
Z,ZK |
L |
4 |
Benda V. |
|
XP13FDD |
Physic of Dielectrics |
2P+2S |
CS |
Z,ZK |
Z |
4 |
Mach P. |
|
XP13PED |
Plastics in Electrical Engineering |
2P+2S |
CS |
Z,ZK |
Z |
4 |
Kudláček I. |
|
BD1B13VST |
Power components and technology |
21KP+6KL |
CS |
Z,ZK |
L |
5 |
|
|
BD5B13VST |
Power components and technology |
14KP+6KL |
CS |
Z,ZK |
L |
4 |
|
|
BD1M13VSE |
Power components in electrical engineering |
14KP+6KL |
CS |
Z,ZK |
L |
5 |
Papež V. |
|
BE1M13VSE |
Power components in electrical engineering |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
B1M13VSE |
Power components in electrical engineering |
2P+2L |
CS |
Z,ZK |
L |
5 |
Papež V. |
|
BD1M13JAS1 |
Quality and Reliability |
14KP+6KC |
CS |
Z,ZK |
Z |
6 |
Mach P. |
|
BD1M13JAS |
Quality and Reliability |
14KP+6KC |
CS |
Z,ZK |
Z |
6 |
|
|
BE1M13JAS1 |
Quality and Reliability |
2P+2C |
EN |
Z,ZK |
Z,L |
6 |
Mach P. |
|
BE1M13JAS |
Quality and Reliability |
2P+2C |
EN |
Z,ZK |
Z,L |
6 |
|
|
B1M13JAS1 |
Quality and Reliability |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Mach P. |
|
B1M13JAS |
Quality and Reliability |
2P+2C |
CS |
Z,ZK |
Z |
6 |
|
|
XP13SJD |
Quality Control Systems |
2P+2S |
CS |
Z,ZK |
L |
4 |
Mach P. |
|
XP13VNM |
Research of new materials |
2P+2L |
|
Z,ZK |
Z |
4 |
Ctibor P. |
|
XP13FPD |
Semiconductor Physics |
2P+2S |
CS |
Z,ZK |
Z |
4 |
Benda V. |
|
AD1M13SVS |
Simulation of Production Sytems |
14KP+6KC |
CS |
Z,ZK |
Z |
5 |
|
|
AE1M13SVS |
Simulation of Production Sytems |
2P+2C |
EN |
Z,ZK |
Z |
5 |
|
|
A1M13SVS |
Simulation of Production Sytems |
2P+2C |
CS |
Z,ZK |
Z |
5 |
|
|
BD1M13SVS |
Simulation of Production Sytems |
14KP+6KC |
CS |
Z,ZK |
Z |
5 |
|
|
BE1M13SVS |
Simulation of Production Sytems |
2P+2C |
EN |
Z,ZK |
Z |
5 |
|
|
B1M13SVS |
Simulation of Production Sytems |
2P+2C |
CS |
Z,ZK |
Z |
5 |
Mach P., Zemen J. |
|
XP13SID |
Software in Industrial Engineering |
2P+2C |
CS |
Z,ZK |
Z |
4 |
Molhanec M. |
|
AD1B13SVS |
Solar Energy Application Systems |
14KP+6KL |
CS |
Z,ZK |
L |
5 |
|
|
AE1B13SVS |
Solar Energy Application Systems |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
A1B13SVS |
Solar Energy Application Systems |
2P+2L |
CS |
Z,ZK |
L |
5 |
|
|
A5M13VSO |
Solar Energy Utilization |
1P+1L |
CS |
KZ |
L |
4 |
|
|
BE1B13SSE |
Solar Systems and Electrochemical Sources |
2P+2L |
EN |
Z,ZK |
L |
4 |
Benda V., Holovský J. |
|
B1B13SSE1 |
Solar Systems and Electrochemical Sources |
2P+2L |
CS |
Z,ZK |
L |
5 |
Benda V. |
|
B1B13SSE |
Solar Systems and Electrochemical Sources |
2P+2L |
CS |
Z,ZK |
L |
4 |
|
|
BE1M13ASS |
Solar Systems Application |
2P+2L |
EN |
Z,ZK |
Z |
5 |
Benda V. |
|
B1M13ASS |
Solar Systems Application |
2P+2L |
CS |
Z,ZK |
Z |
5 |
Benda V., Holovský J. |
|
BD1M13ASS |
Solar Systems Applications |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
Benda V. |
|
XP13SSD |
Special Methods of Devices Quality Evaluation |
2P+2L |
CS |
Z,ZK |
Z |
4 |
Papež V. |
|
XP13SAV |
Statistic analysis and technological data evaluation |
2P+2S |
CS |
Z,ZK |
L |
4 |
Molhanec M. |
|
AD1B13TP1 |
Team Project |
14KP+6KC |
CS |
Z |
L |
4 |
|
|
AD1M13TP1 |
Team Project |
14KP+6KC |
CS |
Z |
L |
5 |
|
|
AE1B13TP1 |
Team Project |
2P+2S |
EN |
Z |
L |
4 |
|
|
AE1M13TP1 |
Team Project |
2P+2S |
EN |
Z |
L |
5 |
|
|
A1B13TP1 |
Team Project |
2P+2S |
CS |
Z |
L |
4 |
|
|
A1M13TP1 |
Team Project |
2P+2S |
CS |
Z |
L |
5 |
|
|
XP13TPD |
Technological Processes in Electronic Manufacturing |
2P+2L |
CS |
Z,ZK |
L |
4 |
Dušek K. |
|
AD1M13TPR |
Technological Project Planning |
14KP+6KC |
CS |
Z,ZK |
L |
5 |
|
|
AE1M13TPR |
Technological Project Planning |
2P+2S |
EN |
Z,ZK |
L |
5 |
|
|
A1M13TPR |
Technological Project Planning |
2P+2S |
CS |
Z,ZK |
L |
5 |
|
|
BD0M13TPR |
Technological Project Planning |
14KP+6KC |
CS |
Z,ZK |
L |
4 |
|
|
BE0M13TPR |
Technological Project Planning |
2L+2S |
EN |
Z,ZK |
L |
4 |
|
|
B0M13TPR |
Technological Project Planning |
2P+2S |
CS |
Z,ZK |
L |
4 |
|
|
B1B13TPR |
Technological Project Planning |
2P+2S |
CS |
Z,ZK |
L |
5 |
Molhanec M. |
|
B1B13VST |
Technology in Electrical Engineering |
3P+2L |
CS |
Z,ZK |
L |
5 |
|
|
AD0M13TKS |
Technology of Cables and Optical waveguides |
14KP+6KL |
CS |
Z,ZK |
L |
5 |
|
|
AE0M13TKS |
Technology of Cables and Optical waveguides |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
A0M13TKS |
Technology of Cables and Optical waveguides |
2P+2L |
CS |
Z,ZK |
L |
5 |
|
|
BD0M13TKS |
Technology of Cables and Optical waveguides |
14KP+6KL |
CS |
Z,ZK |
Z |
4 |
|
|
BVB13TKS |
Technology of Cables and Optical waveguides |
2P+2L |
CS |
Z,ZK |
Z |
4 |
Prajzler V., Šaršounová Z., Žák P. |
|
B0M13TKS |
Technology of Cables and Optical waveguides |
2P+2L |
CS |
Z,ZK |
Z |
4 |
Prajzler V., Šaršounová Z., Žák P. |
|
AD0B13SPE |
Welding and Soldering in Electrotechnics |
14KP+6KL |
CS |
KZ |
L |
4 |
|
|
AE0B13SPE |
Welding and Soldering in Electrotechnics |
2P+2L |
EN |
KZ |
L |
4 |
|
|
BD0B13SPE |
Welding and Soldering in Electrotechnics |
14KP+6KL |
CS |
KZ |
L |
4 |
|
|
BVB13SPE |
Welding and Soldering in Electrotechnics |
2P+2L |
CS |
KZ |
Z,L |
4 |
Dušek K., Sedláček J. |
|
B0B13SPE |
Welding and Soldering in Electrotechnics |
2P+2L |
CS |
KZ |
Z,L |
4 |
|
|