Subject description - B0M13MTE

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B0M13MTE Materials and technology for electronics
Roles:  Extent of teaching:2P+2L
Department:13113 Language of teaching:CS
Guarantors:  Completion:Z,ZK
Lecturers:  Credits:5
Tutors:  Semester:Z

Web page:

https://moodle.fel.cvut.cz/courses/B0M13MTE

Anotation:

Ability of creative application of materials in electronics is extended in the field of technology of their processing and the change of the properties of materials during their exploitations in electrical circuits, microelectronics, optoelectronic applications, sensors, actuators, superconductors, semiconductors, magnetic structures, and special applications. The processing technologies and the ageing processes are based on the relationships between composition, internal structure, and properties of materials.

Study targets:

Získání poznatků o vlastnostech a chování materiálů pro elektroniku, procesech jejich zpracování a aplikaci těchto poznatků ve výrobě elektronických komponent.

Course outlines:

1. Basic physical-chemical processes in materials processing. Diffusion.
2. Phase transitions. Application of equilibrium phase diagrams.
3. Methods of semiconductor crystallization. Directional crystallization. Zone refining.
4. Epitaxial methods. Vapour and liquid phase epitaxy. MO - Chemical vapour deposition.
5. Physical vapour deposition. Sputtering. Molecular beam epitaxy.
6. Processing of materials in solid state: etching, lithography, micro-fabrication, MEMS.
7. Semiconductor technology: semiconductors processing, P-N junction technology.
8. Materials technology of optoelectronics. LED, OLED, LD, LCD and TFT displays.
9. Materials technology of monolithic and hybrid circuits, wire-bonding, packaging.
10. Printed circuit boards, SMT and THT technology. Joining of electronic materials, welding, soldering, sticking.
11. Technology of ceramic capacitors, MLC, polymer and electrolytic capacitors.
12. Materials technology of transducers and sensors. Materials technology conductors, low temperature superconductors, HTC superconductors.
13. Technology of hard and soft magnetic materials. Materials for data storage in informatics.

Exercises outline:

All the exercises are in the form of laboratory work
1. Introduction, basic guidelines for HOS
2. Measurements of dielectric properties of polymers.
3. Distribution of dopants in Si crystal.
4. Temperature dependence of complex permittivity of ceramic dielectrics.
5. Temperature dependence of ferrite permeability.
6. Evaluation of soft magnetics from their static hysteresis loops.
7. Crystallyzation of polymers.
8. Diffusion in semiconductors
9. Transport properties of thin metallic films.
10. Hall measurement.
11. DTA of solders for electronics.
12. Mechanical properties of copper.
13. Imperfections in semiconductor crystals.
14. Test, Assessment

Literature:

[1] Czichos, H. et all: Handbook of Materials Measurement Methods. Springer 2006
[2] Askeland, D., R., Phule., P., P.: The Science and Engineering of Materials. Thomson Brook/Cole 2003.
[3] Sedláček, J.: Materials and Technology for Electronics - Exercises. Textbook CTU FEE Prague 2007.
[4] Buschow, K.,H.,J.: Magnetic and Superconducting Materials. Elsevier 2005.
[5] Askeland, D., R., Phule., P., P.: The Science and Engineering of Materials. Thomson Brook/Cole 2003.
[6] Mendez., A., Morse. T., F.: Specialty Optical Fibers Handbook. Elsevier Academic Press 2007.
[7] Shukla, R. K., Sigh, A.: Electrical Engineering Materials. Tata McGraw Hill Education Private LTD. 2012
[8] Banerjee, G.K.: Electrical and Electronic Engineering Materials , PHI Learning Pvt. Ltd., 2015

Requirements:

Keywords:

Diffuzion, crystallization, CVD and PVD methods, MIO technology, MIO assembly, PCB, OE elements, actuators, sensors, capacitors, supraconductors,magnetics

Subject is included into these academic programs:

Program Branch Role Recommended semester


Page updated 20.4.2024 17:51:11, semester: L/2023-4, Z/2024-5, Z/2023-4, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)