Manufacturing of Power Devices

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This is a grouped course. It consists of several seperate subjects that share learning materials, assignments, tests etc. Below you can see information about the individual subjects that make up this subject.
Manufacturing of Power Devices (Main course) A1B13VVZ
Credits 6
Semesters Winter
Completion Assessment + Examination
Language of teaching Czech
Extent of teaching 2P+2L
Annotation
The topic of the subject is focused on manufacturing of power electrical machines and devices from construction and technological point of wiev. Main part of the subject is devoted to transformers and rotating machines, namely their magnetic circuits and windings. Second half of the subject is dedicated to manufacturing of power semiconductive devices and converters including diagnostics, reliable operation. Last part of lectures deals with layouts of manufactirung, lean management and planning of manufacturing.
Study targets
The aim is to introduce materials and production technologies for transformers and rotating electrical machines and electrical appliances and power semiconductor devices.
Course outlines
1. Manufacturing of shafts and frames of rotating machines
2. Magnetic circuits of transformers and electrical rotating machines
3. Winding of transformers
4. Winding of stators of AC electric machines
5. Winding of rotors of asynchronous machines, turborotors and poles of DC machines
6. Manufacturing of commutators
7. CAD/CAM support for manufacturing of electrical machines
8. Requirements on goods in EU, directives
9. Standards, normalisation process, directives fo EMC
10. Manufacturing of power semiconductive devices
10. Reliability, special diagnostics for semiconductors devices
12. Cooling, thermal resistance, modeling of heat transfer as an electric circuit
13. Desing of power sources, converters
14. Layout of manufacturing, lean management, planning of production
Exercises outlines
1. Introduction, safety instructions, video
2. Theoretical orview, explanation of laboratory tasks
3. Balance and ballancing of rotating electrical machines
4. Diagnostics of isolation system on electrical machines
5. Magnetic and thermal measurement of transformer
6. Measurement of basic parameters of elmag. chucks and demagnetizers
7. Heat-pipes and heat transfer, cooling
8. Clima-chambers, corosion and anti-corosion test and diagnostic
9. Low-frequency emisions, EMC testing
10. Measurement on rectifiers, converters
11. Assembly and design according EMC requirements
12. Measurement on the system driver-cable-converter
13. Ecodesign, life-cycle for goods
14. Asessment, credits
Literature
1/ Terry Hill: Production/Operations Management. Prentice Hall
International (UK) Ltd. 1991, University Press, Cambridge
Requirements
Presence at practical training is obligatory. Students have to obtain a credit before an examination. A knowledges of lectured matter and laboratory tasks will be required during the examination.
Manufacturing of Power Devices AD1B13VVZ
Credits 6
Semesters Winter
Completion Assessment + Examination
Language of teaching Czech
Extent of teaching 14KP+6KL
Annotation
The topic of the subject is focused on manufacturing of power electrical machines and devices from construction and technological point of wiev. Main part of the subject is devoted to transformers and rotating machines, namely their magnetic circuits and windings. Second half of the subject is dedicated to manufacturing of power semiconductive devices and converters including diagnostics, reliable operation. Last part of lectures deals with layouts of manufactirung, lean management and planning of manufacturing.
Study targets
The aim is to introduce materials and production technologies for transformers and rotating electrical machines and electrical appliances and power semiconductor devices.
Course outlines
1. Manufacturing of shafts and frames of rotating machines
2. Magnetic circuits of transformers and electrical rotating machines
3. Winding of transformers
4. Winding of stators of AC electric machines
5. Winding of rotors of asynchronous machines, turborotors and poles of DC machines
6. Manufacturing of commutators
7. CAD/CAM support for manufacturing of electrical machines
8. Requirements on goods in EU, directives
9. Standards, normalisation process, directives fo EMC
10. Manufacturing of power semiconductive devices
10. Reliability, special diagnostics for semiconductors devices
12. Cooling, thermal resistance, modeling of heat transfer as an electric circuit
13. Desing of power sources, converters
14. Layout of manufacturing, lean management, planning of production
Exercises outlines
1. Introduction, safety instructions, video
2. Theoretical orview, explanation of laboratory tasks
3. Balance and ballancing of rotating electrical machines
4. Diagnostics of isolation system on electrical machines
5. Magnetic and thermal measurement of transformer
6. Measurement of basic parameters of elmag. chucks and demagnetizers
7. Heat-pipes and heat transfer, cooling
8. Clima-chambers, corosion and anti-corosion test and diagnostic
9. Low-frequency emisions, EMC testing
10. Measurement on rectifiers, converters
11. Assembly and design according EMC requirements
12. Measurement on the system driver-cable-converter
13. Ecodesign, life-cycle for goods
14. Asessment, credits
Literature
1/ Terry Hill: Production/Operations Management. Prentice Hall
International (UK) Ltd. 1991, University Press, Cambridge
Requirements
Presence at practical training is obligatory. Students have to obtain a credit before an examination. A knowledges of lectured matter and laboratory tasks will be required during the examination.