Detail předmětu
Electrotechnical materials, material systems and production processes
FEKT-DET1AAk. rok: 2019/2020
Part I. offers the description of the nature of anisotropic materials in general, with more detailed application at piezoelectric materials. It describes linear theory of piezoelectricity, components and systems, production processes of various piezoelectric systems included.
Part II. The Physics of the Solar Cell, Photovoltaic sources, principle of function and characteristics. Basic types of photovoltaics systems and aplications. Manufacturing of Monocrystalline, Polycrystalline, amorphous Siliconbased Solar Cells, CdTe, CuSe, InGa Solar Cells. Dye-sensitized Solar Cells. Solar modules, construction and technology.
Part III. Solder joint, solder joint formation. Requirements for solder joint. Reliability of solder joint - material and process factors.
Part IV.
Jazyk výuky
Počet kreditů
Garant předmětu
Zajišťuje ústav
Výsledky učení předmětu
Prerekvizity
Plánované vzdělávací činnosti a výukové metody
Způsob a kritéria hodnocení
Osnovy výuky
Module I-M-2: Linear theory of piezoelectricity. Thermodynamic potentials, linear piezoelectric state equations, basic piezoelectric materials
Module I-S-1: Piezoelectric resonators. Excitation mechanics vibration, mechanics vibration of resonators, substitution diagram of piezoelectric resonator, determination of cut orientation, temperature dependence of resonance frequency
Module I-S-2: Measurement of the attribute of resonators. SiO2 based resonators, ceramic based resonator, piezoelectric filters, piezoelectric converters
Module I-P-1: Production of piezoelectric resonators. Monocrystals cuts, electrode systems, encasement, other piezoelectric systems production
Module II-M-1: Materials used in photovoltaic. The Physics of the Solar Cell, Photovoltaic sources, Principle of function, characteristics
Module II-M-2: Third Generation Photovoltaics. Tandem solar cells, Thin-Film Solar Cells, CdTe, CuSe, InGa solar cells, Dye-sensitized Solar Cells
Module II-S-1: Photovoltaic systems. Basic types of photovoltaics systems and application, Photovoltaic Concentrators, Solar modules, construction and technology.
Module II-P-1: Manufacturing of Crystalline Silicon Solar Cells. Monocrystalline and Polykrystaline Silicon Solar Cells, etching, diffusion process, screen printing, sputtering
Module II-P-2: Manufacturing of Thin-Film Solar Cells. Structure of microcrystalline and amorphous silicon, CdTe, CuSe, InGa Solar Cells and manufacturing
Module II-P-3: Manufacturing of Solar Panels Strukture of photovoltaic panels, used materials, contacts, DCAC system in photovoltaic.
Module III-M-1: Solder joint – material system. Surface finishes of connected metals, methods of surface analysis, solders SnPb and SnAgCu, flux system, air and protective atmosphere, adsorption reaction on heterogeneous interfaces.
Module III-S-1: Phases of solder joint formation. Reactive wetting of surface, physical-chemical reaction at interface, dissolving, diffusion, intermetallic area, crystallisation.
Module III-P-1: Solder joint reliability. Process factors: temperature/soldering time, defined vs. quasi unlimited amounts of solder in solder joint, solder joint requirements, solder joint reliability – infuencing factors, thermomechanical fatique of solder joint.
Module IV-1: The overview of basic possible uses of mathematical – physical modelling when solving difficulties in research practice.
Module IV-2: Mastering the problems of selecting and adjusting the appropriate solver, level of discretization, setting up additional chosen mathematical models (e.g. turbulent), mesh, boundary conditions and more difficulties of debugging of the solved task.
Module IV-3: Practical examples of solving mathematical – physical tasks in the area of electromagnetism, fluid flowing, heat exchanges and the like.
Učební cíle
Aim of Part II. is to enlarge the knowledge about photovoltaic sources of electric power, possibility and ecological aspects of their usage.
Aim of Part III. is preparing the students for the solution of technological problems in area Solder joint, solder joint formation, Requirements for solder joint, Reliability of solder joint - material and process factors.
Aim of Part IV. is to familiarize (the) students with possible ways of solving (specific) scientific tasks using mathematical – physical modelling of studied difficulties and to master the problems by debugging the studied task.
Vymezení kontrolované výuky a způsob jejího provádění a formy nahrazování zameškané výuky
Základní literatura
Doporučená literatura
Ansys Advantage magazin: http://www.ansys.com/About+ANSYS/ANSYS+Advantage+Magazine (EN)
Ferziger, J. H., Peric, M., Computational Methods for Fluid Dynamics, Springer : Berlin, 2002. (EN)
HWANG, J., S.: Environment-Friendly Electronics: Lead Free Technology, Electrochemical Publications Limited, 2001, ISBN 0 901150 401 (EN)
Stolarski, T., Nakasone, Y., Yoshimoto, S. Engineering Analysis with Ansys Software, Oxford 2006 (EN)
SZE, S., M., KWOK, K.: Physics of Semiconductor Devices. Wiley - Interscience, A John Wiley & sons, Inc. Publication, ISBN-13: 978-0-471-14323-9 (EN)
Zařazení předmětu ve studijních plánech
- Program EKT-PKA doktorský
obor PKA-SEE , 1 ročník, zimní semestr, volitelný oborový
obor PKA-FEN , 1 ročník, zimní semestr, volitelný oborový
obor PKA-MVE , 1 ročník, zimní semestr, volitelný oborový
obor PKA-MET , 1 ročník, zimní semestr, volitelný oborový
obor PKA-TEE , 1 ročník, zimní semestr, volitelný oborový
obor PKA-BEB , 1 ročník, zimní semestr, volitelný oborový
obor PKA-KAM , 1 ročník, zimní semestr, volitelný oborový
obor PKA-TLI , 1 ročník, zimní semestr, volitelný oborový
obor PKA-EST , 1 ročník, zimní semestr, volitelný oborový - Program EKT-PPA doktorský
obor PPA-SEE , 1 ročník, zimní semestr, volitelný oborový
obor PPA-EST , 1 ročník, zimní semestr, volitelný oborový
obor PPA-TEE , 1 ročník, zimní semestr, volitelný oborový
obor PPA-KAM , 1 ročník, zimní semestr, volitelný oborový
obor PPA-FEN , 1 ročník, zimní semestr, volitelný oborový
obor PPA-TLI , 1 ročník, zimní semestr, volitelný oborový
obor PPA-MVE , 1 ročník, zimní semestr, volitelný oborový
obor PPA-MET , 1 ročník, zimní semestr, volitelný oborový
obor PPA-BEB , 1 ročník, zimní semestr, volitelný oborový
Typ (způsob) výuky
Seminář
Vyučující / Lektor
Osnova
Module I-M-2: Linear theory of piezoelectricity. Thermodynamic potentials, linear piezoelectric state equations, basic piezoelectric materials
Module I-S-1: Piezoelectric resonators. Excitation mechanics vibration, mechanics vibration of resonators, substitution diagram of piezoelectric resonator, determination of cut orientation, temperature dependence of resonance frequency
Module I-S-2: Measurement of the attribute of resonators. SiO2 based resonators, ceramic based resonator, piezoelectric filters, piezoelectric converters
Module I-P-1: Production of piezoelectric resonators. Monocrystals cuts, electrode systems, encasement, other piezoelectric systems production
Module II-M-1: Materials used in photovoltaic. The Physics of the Solar Cell, Photovoltaic sources, Principle of function, characteristics
Module II-M-2: Third Generation Photovoltaics. Tandem solar cells, Thin-Film Solar Cells, CdTe, CuSe, InGa solar cells, Dye-sensitized Solar Cells
Module II-S-1: Photovoltaic systems. Basic types of photovoltaics systems and application, Photovoltaic Concentrators, Solar modules, construction and technology.
Module II-P-1: Manufacturing of Crystalline Silicon Solar Cells. Monocrystalline and Polykrystaline Silicon Solar Cells, etching, diffusion process, screen printing, sputtering
Module II-P-2: Manufacturing of Thin-Film Solar Cells. Structure of microcrystalline and amorphous silicon, CdTe, CuSe, InGa Solar Cells and manufacturing
Module II-P-3: Manufacturing of Solar Panels Strukture of photovoltaic panels, used materials, contacts, DCAC system in photovoltaic.
Module III-M-1: Solder joint – material system. Surface finishes of connected metals, methods of surface analysis, solders SnPb and SnAgCu, flux system, air and protective atmosphere, adsorption reaction on heterogeneous interfaces.
Module III-S-1: Phases of solder joint formation. Reactive wetting of surface, physical-chemical reaction at interface, dissolving, diffusion, intermetallic area, crystallisation.
Module III-P-1: Solder joint reliability. Process factors: temperature/soldering time, defined vs. quasi unlimited amounts of solder in solder joint, solder joint requirements, solder joint reliability – infuencing factors, thermomechanical fatique of solder joint.
Module IV-1: The overview of basic possible uses of mathematical – physical modelling when solving difficulties in research practice.
Module IV-2: Mastering the problems of selecting and adjusting the appropriate solver, level of discretization, setting up additional chosen mathematical models (e.g. turbulent), mesh, boundary conditions and more difficulties of debugging of the solved task.
Module IV-3: Practical examples of solving mathematical – physical tasks in the area of electromagnetism, fluid flowing, heat exchanges and the like.