| Subject |
Name |
Extent
of teaching |
Language
of teaching |
Completion
|
Semester
|
Credits
|
Guarantors |
Teachers |
| AD0B14AMS |
Actuators and Low Power Machines |
14+6L |
CS |
Z,ZK |
L |
5 |
|
|
| BD0B14AMS |
Actuators and Low Power Machines |
14KP+6KL |
CS |
Z,ZK |
L |
5 |
|
|
| BE0B14AMS |
Actuators and Low Power Machines |
2+2L |
EN |
Z,ZK |
L |
5 |
|
|
| B0B14AMS |
Actuators and Low Power Machines |
2P+2L |
CS |
Z,ZK |
L |
5 |
|
|
| BE9M14AML |
Aerodynamics and Flight Mechanics |
2P+4L |
EN |
Z,ZK |
Z |
6 |
|
|
| AD0M14AML |
Aerodynamics and Mechanics of Flight |
14+6s |
CS |
Z,ZK |
Z |
4 |
|
|
| AD3M14AML |
Aerodynamics and mechanics of flight |
14+6s |
CS |
Z,ZK |
Z |
6 |
|
|
| AE0M14AML |
Aerodynamics and Mechanics of Flight |
2+2s |
CS |
Z,ZK |
Z |
4 |
|
|
| AE3M14AML |
Aerodynamics and mechanics of flight |
2+2s |
EN |
Z,ZK |
Z |
6 |
|
|
| A0M14AML |
Aerodynamics and Mechanics of Flight |
2+2s |
CS |
Z,ZK |
Z |
4 |
|
|
| A3M14AML |
Aerodynamics and mechanics of flight |
2+2c |
CS |
Z,ZK |
Z |
6 |
|
|
| B9M14AML |
Aerodynamics and Mechanics of Flight |
2P+4L |
CS |
Z,ZK |
Z |
6 |
|
|
| AE8B14ADP |
Algorithm Development and Programming |
2+2c |
|
Z,ZK |
Z |
5 |
|
|
| BE5B14ADP |
Algorithm Development and Programming |
2P+2C |
|
Z,ZK |
Z |
5 |
|
|
| AD0B14AEE |
Automotive Electrical and Electronic Engineering |
14+6L |
CS |
Z,ZK |
L |
4 |
|
|
| AE0B14AEE |
Automotive Electrical and Electronic Engineering |
2+2L |
CS |
Z,ZK |
L |
4 |
|
|
| A0B14AEE |
Automotive Electrical and Electronic Engineering |
2+2L |
CS |
Z,ZK |
L |
4 |
|
|
| BD0B14AEE |
Automotive Electrical and Electronic Engineering |
14+6l |
CS |
Z,ZK |
L |
5 |
|
|
| BE0B14AEE |
Automotive Electrical and Electronic Engineering |
2+2L |
EN |
Z,ZK |
L |
5 |
|
|
| B0B14AEE |
Automotive Electrical and Electronic Engineering |
2P+2L |
CS |
Z,ZK |
L |
5 |
|
|
| AE0B14BAP |
Bachelor Project |
|
|
Z |
L |
20 |
|
|
| AE8B14BAP |
Bachelor Project |
7s |
|
Z |
L |
9 |
|
|
| AD0B14BAP |
Bachelor thesis |
|
|
Z |
L |
20 |
|
|
| A0B14BAP |
Bachelor thesis |
|
|
Z |
L |
20 |
|
|
| A8B14BAP |
Bachelor thesis |
7s |
|
Z |
L |
9 |
|
|
| AD7B14SAP |
Computer Structure and Architecture |
14+6c |
CS |
Z,ZK |
L |
6 |
|
|
| A7B14SAP |
Computer Structures and Architectures |
2+2c |
CS |
Z,ZK |
L |
6 |
|
|
| BD1M14REP |
Control and Regulation of Electric Drives |
14+6l |
CS |
Z,ZK |
Z |
5 |
|
|
| BE1M14REP |
Control and Regulation of Electric Drives |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
| B1M14REP |
Control and Regulation of Electric Drives |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| BD0M14KOP |
Design of Electric Drives Components |
14+6l |
CS |
Z,ZK |
Z |
5 |
|
|
| BE0M14KOP |
Design of Electric Drives Components |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| B0M14KOP |
Design of Electric Drives Components |
2P+2L |
CS |
Z,ZK |
Z |
5 |
Bauer J. |
|
| BD1M14DEP |
Digital Control of Electric Drives |
14+6l |
CS |
Z,ZK |
L |
5 |
|
|
| BE1M14DEP |
Digital Control of Electric Drives |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
| B1M14DEP |
Digital Control of Electric Drives |
2P+2L |
CS |
Z,ZK |
L |
5 |
Zděnek J. |
|
| AD0M14DIP |
Diploma Project |
|
|
Z |
L |
25 |
|
|
| AE0M14DIP |
Diploma Project |
|
|
Z |
L |
25 |
|
|
| A0M14DIP |
Diploma Project |
|
|
Z |
L |
25 |
|
|
| A5M14RPI |
Distribution of Electric Energy and Drives |
2P+1L |
CS |
Z,ZK |
Z |
5 |
Lettl J. |
|
| AD0M14KSP |
Drive Communication Systems |
14+6c |
CS |
Z,ZK |
L |
5 |
|
|
| AE0M14KSP |
Drive Communication Systems |
2+2c |
CS |
Z,ZK |
L |
5 |
|
|
| A0M14KSP |
Drive Communication Systems |
2+2c |
CS |
Z,ZK |
L |
5 |
|
|
| BD0M14KSP |
Drive Communication Systems |
14+6l |
CS |
Z,ZK |
L |
5 |
|
|
| B0M14KSP |
Drive Communication Systems |
2+2l |
CS |
Z,ZK |
L |
5 |
|
|
| AD0B14SPP |
Drive Sensors |
14+6L |
CS |
Z,ZK |
Z |
4 |
|
|
| AE0B14SPP |
Drive Sensors |
2+2L |
CS |
Z,ZK |
Z |
4 |
|
|
| A0B14SPP |
Drive Sensors |
2+2L |
CS |
Z,ZK |
Z |
4 |
|
|
| XP14DES |
Dynamics of Electric Machines |
2P+2C |
|
ZK |
Z |
4 |
Chomát M. |
|
| AD0M14DMP |
Dynamics of mechanical parts of drives |
14+6s |
CS |
Z,ZK |
Z |
4 |
|
|
| AE0M14DMP |
Dynamics of mechanical parts of drives |
2+2s |
CS |
Z,ZK |
Z |
4 |
|
|
| A0M14DMP |
Dynamics of mechanical parts of drives |
2+2s |
CS |
Z,ZK |
Z |
4 |
|
|
| AD0M14KOP |
Electric Drive Component Design |
14+6l |
CS |
Z,ZK |
Z |
5 |
|
|
| AE0M14KOP |
Electric Drive Component Design |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| A0M14KOP |
Electric Drive Component Design |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| AD1M14RPO |
Electric Drive Control |
14+6L |
CS |
Z,ZK |
L |
5 |
|
|
| AE1M14RPO |
Electric Drive Control |
2+2L |
CS |
Z,ZK |
L |
5 |
|
|
| A1M14RPO |
Electric Drive Control |
2+2L |
CS |
Z,ZK |
L |
5 |
|
|
| AD0M14DGP |
Electric Drive Diagnostics |
14+6L |
CS |
Z,ZK |
L |
5 |
|
|
| AE0M14DGP |
Electric Drive Diagnostics |
2+2L |
CS |
Z,ZK |
L |
5 |
|
|
| A0M14DGP |
Electric Drive Diagnostics |
2+2L |
CS |
Z,ZK |
L |
5 |
|
|
| AD3B14EPR |
Electric drive for automation and robotics |
14+6s |
CS |
Z,ZK |
L |
6 |
|
|
| AE3B14EPR |
Electric drive for automation and robotics |
2+2s |
CS |
Z,ZK |
L |
6 |
|
|
| A3B14EPR |
Electric drive for automation and robotics |
2+2s |
CS |
Z,ZK |
L |
6 |
|
|
| AD1B14PO1 |
Electric Drives and Traction 1 |
14+6L |
CS |
Z,ZK |
Z |
6 |
|
|
| AE1B14PO1 |
Electric Drives and Traction 1 |
2+2L |
CS |
Z,ZK |
Z |
6 |
|
|
| A1B14PO1 |
Electric Drives and Traction 1 |
2P+2L |
CS |
Z,ZK |
Z |
6 |
|
|
| AD1M14PO2 |
Electric Drives and Traction 2 |
14+6L |
CS |
Z,ZK |
L |
5 |
|
|
| AE1M14PO2 |
Electric Drives and Traction 2 |
2+2L |
CS |
Z,ZK |
L |
5 |
|
|
| A1M14PO2 |
Electric Drives and Traction 2 |
2+2L |
CS |
Z,ZK |
L |
5 |
|
|
| BD1M14EPT1 |
Electric Drives and Traction |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
| BD1M14EPT |
Electric Drives and Traction |
14+6l |
CS |
Z,ZK |
Z |
6 |
|
|
| BE1M14EPT1 |
Electric Drives and Traction |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
| BE1M14EPT |
Electric Drives and Traction |
2P+2L |
EN |
Z,ZK |
Z |
6 |
|
|
| B1M14EPT1 |
Electric Drives and Traction |
2P+2L |
CS |
Z,ZK |
Z |
5 |
Lettl J. |
|
| B1M14EPT |
Electric Drives and Traction |
2P+2L |
CS |
Z,ZK |
Z |
6 |
|
|
| B3B14EPR1 |
Electric Drives for Automation and Robotics |
2P+2L |
CS |
Z,ZK |
L |
6 |
Bauer J. |
|
| B3B14EPR |
Electric Drives for Automation and Robotics |
2P+2L |
CS |
Z,ZK |
L |
4 |
|
|
| A5M14EPO |
Electric Drives |
3+2L |
CS |
KZ |
L |
4 |
|
|
| AD1B14SP1 |
Electric Machinery and Apparatus 1 |
21+6L |
CS |
Z,ZK |
Z |
6 |
|
|
| AE1B14SP1 |
Electric Machinery and Apparatus 1 |
3+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| A1B14SP1 |
Electric Machinery and Apparatus 1 |
3+2L |
CS |
Z,ZK |
Z |
6 |
|
|
| BE5B14SP1 |
Electric Machinery and Apparatus 1 |
3P+2L |
EN |
Z,ZK |
L |
5 |
Mindl P. |
|
| AD1M14SP2 |
Electric Machinery and Apparatus 2 |
14+6L |
CS |
Z,ZK |
Z |
5 |
|
|
| AE1M14SP2 |
Electric Machinery and Apparatus 2 |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| A1M14SP2 |
Electric Machinery and Apparatus 2 |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| BD1M14ESP |
Electric Machinery and Apparatus |
14KP+6KL |
CS |
Z,ZK |
Z |
5 |
|
|
| BE1M14ESP |
Electric Machinery and Apparatus |
2P+2L |
EN |
Z,ZK |
Z |
5 |
Mindl P. |
|
| B1M14ESP |
Electric Machinery and Apparatus |
2P+2L |
CS |
Z,ZK |
Z |
5 |
Mindl P. |
|
| BD1B14ZSP |
Electric Machines and Apparatuses Basics |
21+6l |
CS |
Z,ZK |
L |
5 |
|
|
| BD5B14ZSP |
Electric Machines and Apparatuses Basics |
14KP+6KL |
CS |
Z,ZK |
L |
4 |
|
|
| BE1B14ZSP |
Electric Machines and Apparatuses Basics |
3P+2L |
EN |
Z,ZK |
L |
5 |
|
|
| B1B14ZSP |
Electric Machines and Apparatuses Basics |
3P+2L |
CS |
Z,ZK |
L |
5 |
Kobrle P. |
|
| B5M14ESIB1 |
Electrical Systems of Intelligent Buildings |
2P+2L |
CS |
Z,ZK |
|
5 |
Chomát M. |
|
| B5M14ESIB |
Electrical Systems of Intelligent Buildings |
2P+2L |
CS |
ZK |
|
5 |
Chomát M. |
|
| XP14EMC |
Electromagnetic Compatibility |
2P+2C |
CS |
ZK |
Z |
4 |
Čeřovský Z. |
|
| AD0B14TME |
Engineering mechanics |
14+6s |
CS |
Z,ZK |
L |
4 |
|
|
| AE0B14TME |
Engineering mechanics |
2+2s |
CS |
Z,ZK |
L |
4 |
|
|
| A0B14TME |
Engineering mechanics |
2+2s |
CS |
Z,ZK |
L |
4 |
|
|
| BD1B14TME |
Engineering mechanics |
14+6c |
CS |
Z,ZK |
L |
4 |
|
|
| BE1B14TME |
Engineering mechanics |
2P+2C |
EN |
Z,ZK |
L |
4 |
|
|
| B1B14TME1 |
Engineering mechanics |
2P+2C |
CS |
Z,ZK |
L |
5 |
Kočárník P. |
|
| B1B14TME |
Engineering mechanics |
2P+2C |
CS |
Z,ZK |
L |
4 |
|
|
| AD7B14TEV |
Expression of technical information |
14+6c |
CS |
KZ |
L |
4 |
|
|
| A7B14TEV |
Expression of technical information |
2+2c |
CS |
KZ |
L |
4 |
|
|
| BD1B14ZEL |
Fundamentals of Electrotechnical Engineering |
14+6c |
CS |
KZ |
Z |
3 |
|
|
| BD5B14ZEL |
Fundamentals of Electrotechnical Engineering |
14KP+6KC |
CS |
KZ |
Z |
4 |
|
|
| BE1B14ZEL |
Fundamentals of Electrotechnical Engineering |
2+2c |
EN |
KZ |
Z |
3 |
|
|
| B1B14ZEL1 |
Fundamentals of Electrotechnical Engineering |
2P+2C |
CS |
KZ |
Z |
4 |
|
|
| B1B14ZEL |
Fundamentals of Electrotechnical Engineering |
2P+2C |
CS |
KZ |
Z |
3 |
|
|
| B2B14ZEKA |
Fundamentals of Electrotechnics |
2P+1L |
CS |
KZ |
|
3 |
Bauer J. |
|
| B2B14ZEK |
Fundamentals of electrotechnics |
2P+1L |
CS |
KZ |
|
4 |
Bauer J. |
|
| A5M14ZSE |
Fundamentals of Power Electrical Engineering |
2+1L |
CS |
KZ |
L |
4 |
|
|
| BD1B14ZPO |
Fundametals of Electric Drives |
14+6c |
CS |
Z,ZK |
Z |
5 |
|
|
| BD5B14ZPO |
Fundametals of Electric Drives |
14KP+6KL |
CS |
Z,ZK |
Z |
4 |
|
|
| BEVB14ZPO |
Fundametals of Electric Drives |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
| BE1B14ZPO |
Fundametals of Electric Drives |
2P+2L |
EN |
Z,ZK |
Z |
5 |
Kobrle P. |
|
| B1B14ZPO |
Fundametals of Electric Drives |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| AD1B14IND |
Individual Bachelor Project |
4L |
CS |
Z |
Z |
5 |
|
|
| AE1B14IND |
Individual Bachelor Project |
4L |
CS |
Z |
Z |
5 |
|
|
| A1B14IND |
Individual Bachelor Project |
4L |
CS |
Z |
Z |
5 |
|
|
| BD1B14IND |
Individual Bachelor Project |
0+4c |
CS |
Z |
Z |
4 |
|
|
| BE1B14IND |
Individual Bachelor Project |
4L |
EN |
Z |
Z |
4 |
|
|
| B1B14IND |
Individual Bachelor Project |
0+4c |
CS |
Z |
Z |
4 |
|
|
| AD1M14IND |
Individual Magister Project |
4L |
CS |
Z |
Z |
5 |
|
|
| AE1M14IND |
Individual Magister Project |
4L |
CS |
Z |
Z |
5 |
|
|
| A1M14IND |
Individual Magister Project |
4L |
CS |
Z |
Z |
5 |
|
|
| BD1M14IND |
Individual Master Project |
0+4c |
CS |
Z |
Z |
4 |
|
|
| BE1M14IND |
Individual Master Project |
0+4c |
EN |
Z |
Z |
4 |
|
|
| B1M14IND |
Individual Master Project |
0+4c |
CS |
Z |
Z |
4 |
|
|
| AD1M14TP1 |
Magister Team Project |
14+6c |
CS |
Z |
L |
5 |
|
|
| AE1M14TP1 |
Magister Team Project |
2+2c |
CS |
Z |
L |
5 |
|
|
| A1M14TP1 |
Magister Team Project |
2+2c |
CS |
Z |
L |
5 |
|
|
| BD1M14SSE |
Machinery and Structures of Power Plants |
14KP+6KC |
CS |
Z,ZK |
Z |
5 |
|
|
| BE1M14SSE |
Machinery and Structures of Power Plants |
2P+2C |
EN |
Z,ZK |
Z |
5 |
|
|
| B1M14SSE |
Machinery and Structures of Power Plants |
2P+2C |
CS |
Z,ZK |
Z |
5 |
Kočárník P. |
|
| AD1M14SSE |
Machinery structures of power plants |
14+6s |
CS |
Z,ZK |
Z |
4 |
|
|
| AE1M14SSE |
Machinery structures of power plants |
2+2s |
CS |
Z,ZK |
Z |
4 |
|
|
| A1M14SSE |
Machinery structures of power plants |
2+2s |
CS |
Z,ZK |
Z |
4 |
|
|
| AD1B14MIS |
Microprocessors for Power Systems |
14+6L |
CS |
Z,ZK |
Z |
5 |
|
|
| AE1B14MIS |
Microprocessors for Power Systems |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| A1B14MIS |
Microprocessors for Power Systems |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| BD1B14MIS |
Microprocessors for Power Systems |
14+6l |
CS |
Z,ZK |
Z |
5 |
|
|
| BEVB14MIS |
Microprocessors for Power Systems |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
| BE1B14MIS |
Microprocessors for Power Systems |
2P+2L |
EN |
Z,ZK |
Z |
5 |
|
|
| B1B14MIS |
Microprocessors for Power Systems |
2P+2L |
CS |
Z,ZK |
Z |
5 |
Zděnek J. |
|
| BD0M14MDS |
Modeling of Dynamical Systems |
14+6c |
CS |
Z,ZK |
L |
4 |
|
|
| BD1M14MDS1 |
Modeling of Dynamical Systems |
14KP+6KC |
CS |
Z,ZK |
L |
5 |
|
|
| BE0M14MDS |
Modeling of Dynamical Systems |
2+2c |
EN |
Z,ZK |
L |
4 |
|
|
| BE1M14MDS1 |
Modeling of Dynamical Systems |
2P+2C |
EN |
Z,ZK |
L |
5 |
|
|
| B0M14MDS |
Modeling of Dynamical Systems |
2P+2C |
CS |
Z,ZK |
L |
4 |
|
|
| B1M14MDS1 |
Modeling of Dynamical Systems |
2P+2C |
CS |
Z,ZK |
L |
5 |
Kočárník P. |
|
| BD0B14MEP |
Modeling of Electric Drives |
14+6c |
CS |
KZ |
L |
4 |
|
|
| BE0B14MEP |
Modeling of Electric Drives |
2P+2L |
EN |
KZ |
L |
4 |
|
|
| B0B14MEP |
Modeling of Electric Drives |
2P+2C |
CS |
KZ |
L |
4 |
Kočárník P. |
|
| XP14MZR |
New Control Methods for Electric Drives |
2P+2C |
CS |
ZK |
Z |
4 |
Lettl J. |
|
| XP14MEN |
New Trends in Converter Technology |
2P+2C |
|
ZK |
L,Z |
4 |
Lettl J. |
|
| AD1B14VE1 |
Power Electronics 1 |
14+6L |
CS |
Z,ZK |
L |
5 |
|
|
| AE1B14VE1 |
Power Electronics 1 |
2+2L |
CS |
Z,ZK |
L |
5 |
|
|
| A1B14VE1 |
Power Electronics 1 |
2+2L |
CS |
Z,ZK |
L |
5 |
|
|
| AD1M14VE2 |
Power Electronics 2 |
14+6L |
CS |
Z,ZK |
Z |
5 |
|
|
| AE1M14VE2 |
Power Electronics 2 |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| A1M14VE2 |
Power Electronics 2 |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| BD1B14ZVE |
Power Electronics |
14+6l |
EN |
Z,ZK |
Z |
4 |
|
|
| BD5B14ZVE |
Power Electronics |
14KP+6KL |
CS |
Z,ZK |
Z |
4 |
Lettl J. |
|
| BEVB14ZVE |
Power Electronics |
2P+2L |
EN |
Z,ZK |
Z |
4 |
Lettl J. |
|
| BE1B14ZVE |
Power Electronics |
2P+2L |
EN |
Z,ZK |
Z |
4 |
|
|
| B1B14ZVE |
Power Electronics |
2P+2L |
CS |
Z,ZK |
Z |
4 |
Lettl J. |
|
| AD1M14ESZ |
Power Machine Equipment |
14+6c |
CS |
Z,ZK |
Z |
4 |
|
|
| AE1M14ESZ |
Power Machine Equipment |
2+2c |
CS |
Z,ZK |
Z |
4 |
|
|
| A1M14ESZ |
Power Machine Equipment |
2+2s |
CS |
Z,ZK |
Z |
4 |
|
|
| BD1M14ESZ |
Power Machine Equipment |
14KP+6KC |
CS |
Z,ZK |
Z |
5 |
|
|
| BE1M14ESZ |
Power Machine Equipment |
2P+2C |
EN |
Z,ZK |
Z |
5 |
|
|
| B1M14ESZ |
Power Machine Equipment |
2P+2C |
CS |
Z,ZK |
Z |
5 |
|
|
| F14SEM |
Semester Project |
4s |
|
Z |
Z |
5 |
|
|
| AD1B14SEM |
Seminar on Electrical Engineering |
0+14 |
CS |
Z |
Z |
2 |
|
|
| AE1B14SEM |
Seminar on Electrical Engineering |
2s |
CS |
Z |
Z |
2 |
|
|
| A1B14SEM |
Seminar on Electrical Engineering |
2s |
CS |
Z |
Z |
2 |
|
|
| AD1M14SOP |
Simulation and Optimization in Drives |
14+6L |
CS |
Z,ZK |
Z |
5 |
|
|
| AE1M14SOP |
Simulation and Optimization in Drives |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| A1M14SOP |
Simulation and Optimization in Drives |
2+2L |
CS |
Z,ZK |
Z |
5 |
|
|
| BD0M14SOP |
Simulation and Optimization in Electric Drives |
14+6c |
CS |
Z,ZK |
L |
5 |
|
|
| BD1M14SOP |
Simulation and Optimization in Electric Drives |
14+6c |
CS |
Z,ZK |
L |
5 |
|
|
| BE0M14SOP |
Simulation and Optimization in Electric Drives |
2P+2L |
EN |
Z,ZK |
L |
5 |
|
|
| B1M14SOP |
Simulation and Optimization in Electric Drives |
2P+2L |
CS |
Z,ZK |
L |
5 |
|
|
| AD0M14MDS |
Simulation of dynamic systems |
14+6c |
CS |
Z,ZK |
L |
4 |
|
|
| AE0M14MDS |
Simulation of dynamic systems |
2+2s |
CS |
Z,ZK |
L |
4 |
|
|
| A0M14MDS |
Simulation of dynamic systems |
2+2c |
CS |
Z,ZK |
L |
4 |
|
|
| AD1B14TP1 |
Team Project B |
14+6L |
CS |
Z |
L |
5 |
|
|
| AE1B14TP1 |
Team Project B |
2+2L |
CS |
Z |
L |
5 |
|
|
| A1B14TP1 |
Team Project |
2+2L |
CS |
Z |
L |
5 |
|
|
| AD0B14TDO |
Technical Documentation |
7+6L |
CS |
KZ |
Z |
3 |
|
|
| AE0B14TDO |
Technical Documentation |
1+2L |
CS |
KZ |
Z |
3 |
|
|
| A0B14TDO |
Technical Documentation |
1+2L |
CS |
KZ |
Z |
3 |
|
|
| B0B14TDO1 |
Technical Documentation |
1P+2C |
CS |
KZ |
Z |
4 |
Nová I. |
|
| BD0M14ZEP |
Testing of Electric Drives |
14KP+6KL |
CS |
Z,ZK |
L |
5 |
|
|
| BE0M14ZEP |
Testing of Electric Drives |
2+2l |
CS |
Z,ZK |
L |
5 |
|
|
| B0M14ZEP |
Testing of Electric Drives |
2P+2L |
CS |
Z,ZK |
L |
5 |
|
|
| BD1M14TVM |
Theory and Application of Power Converters |
14KP+6KL |
CS |
Z,ZK |
L |
5 |
|
|
| BE1M14TVM |
Theory and Application of Power Converters |
2P+2L |
EN |
Z,ZK |
L |
5 |
Lettl J. |
|
| B1M14TVM |
Theory and Application of Power Converters |
2P+2L |
CS |
Z,ZK |
L |
5 |
Lettl J. |
|