Subject description - B0M13TKS
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Explanatory Notes
Instructions
Web page:
https://moodle.fel.cvut.cz/courses/A0M13TKS
Anotation:
- Cable engineering-materials,machines
and production methods
- The engineering and properties of
metal cables
- Joinig,ending end branching of power cables
- The technology and properties of optical
fibres and cables
- The fibre connectors evaluation
- The power cables and optical fibres
diagnostics
Study targets:
- To make clear the contents and the speciality of the branch Cable engineering
- To give the information about the manufacture and properties of metal and optical cables
- The checking of the quality of materials,components and also end products, that fall within area of the cable engineering
Course outlines:
1. | | Basic characteristics of production of cables,terminology and materials used in manufacture |
2. | | Properties and production process of Cu and Al |
3. | | Insulants used in the production of conductors and cables |
4. | | Main technological operations for cables production, manufacturing process of cable core |
5. | | Insulation process of cable cores |
6. | | Production of cable core assembly and cable jackets |
7. | | Electrical properties of power cables |
8. | | Theoretical analysis of high voltage cables |
9. | | Electrical properties of low and high frequency telecommunication cables |
10. | | Construction of power cables and cabels for informations transport |
11. | | Construction and properties of optical waveguides |
12. | | Production of optical fibres |
13. | | Construction, manufacture and properties of optical cables |
14. | | Diagnostics of cables |
Exercises outline:
1. | | Introduction. Information about laboratory tasks |
2. | | Joining and evaluation of low frequency comunication cables |
3. | | Optical fibres ending by optical connectors |
4. | | Welding of optical fibres and optical connectors grinding |
5. | | Evaluation of passive parts of optical lines |
6. | | Wires and cables description |
7. | | Ending, bonding and branching of power cables |
8. | | ,9. Cable factory excursion |
10. | | Power cable diagnostics |
11. | | Model of optical line creation and its evaluation from the point loss. |
12. | | Chat with 1. expert from practice |
13. | | Chat with 2. expert from practice |
14. | | The assessment |
Literature:
[1] | | Heinhold, L.: Power Cables and their Application,Siemens Aktiengesellschaft, Berlin 1990 |
[2] | | Filka, M.: Optoelectronics for Telecomunications and Informatics, 2009 |
[3] | | Slaninka, P.: Teoria silnoprúdových káblov. Vyd. SVŠT, Bratislava 1989 |
[4] | | Wanser, G.,Wiznerowicz,F.: Eigenschaften von Energiekabeln und deren Messung, VWEW, Frankfurt (Main),1982 |
[5] | | Sing Jasprit: Optoelectronics in Introduction to Materials and Devices, McGraw-Hill Comp. N.Y. 1996 |
[6] | | Koblížek,V.: Technologické procesy,část2, lab.cvičení,ČVUT,Praha 2004 |
[7] | | Senior, J.: Optical Fiber Communications: Principles and Pracice. Pearson; 3rd edition, ISBN-10: 013032681X. 2008 |
[8] | | Novotný, K.: Optická komunikační technika, Vydavatelství ČVUT, Praha 1998 |
Requirements:
A student has to obtain credit before examination.
Keywords:
Cable.Cable Technics.Power Cable. Telecommunication cable. Fibre optic cable. Optical wavequide.Cable fabrication.Fibre Connector.Cables diagnostics.
Subject is included into these academic programs:
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Page updated 14.10.2024 17:51:34, semester: Z/2025-6, Z,L/2024-5, L/2023-4, Send comments about the content to the Administrators of the Academic Programs |
Proposal and Realization: I. Halaška (K336), J. Novák (K336) |