Budapest University of Technology and Economics, Faculty of Electrical Engineering and Informatics

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    Electronics Technology and Materials

    A tantárgy neve magyarul / Name of the subject in Hungarian: Elektronikai technológia és anyagismeret

    Last updated: 2019. április 9.

    Budapest University of Technology and Economics
    Faculty of Electrical Engineering and Informatics

    Electrical Engineering
    BSc

    Course ID Semester Assessment Credit Tantárgyfélév
    VIETAB00 3 3/0/2/f 6  
    3. Course coordinator and department Dr. Harsányi Gábor, Elektronikai Technológia Tanszék
    Web page of the course http://www.ett.bme.hu/education/vietab00
    4. Instructors

    Name:

    Title:

    Department:

    Dr. Harsányi Gábor

    professor

    Dept. of Electronics Technology

    Dr. Szabó Péter János

    professor

    Dept. of Materials Science and Engineering (GPK)

    Dr. Jakab László

    professor

    Dept. of Electronics Technology

    Dr. Gordon Péter

    assoc. professor

    Dept. of Electronics Technology

    Dr. Berényi Richárd

    assoc. professor

    Dept. of Electronics Technology

    Dr. Sántha Hunor

    assoc. professor

    Dept. of Electronics Technology

    Dr. Bonyár Attila

    assoc. professor

    Dept. of Electronics Technology

    Dr. Hurtony Tamás

    assoc. professor

    Dept. of Electronics Technology

    Dr. Medgyes Bálint

    assoc. professor

    Dept. of Electronics Technology

    5. Required knowledge Mathematics A1, Physics 1.
    6. Pre-requisites
    Kötelező:
    (TárgyEredmény( "BMETE11AX01" , "aláírás" , _ ) = -1
    VAGY
    TárgyEredmény( "BMETE11AX21" , "aláírás" , _ ) = -1 )

    ÉS NEM (TárgyEredmény("BMEGEMTAV01", "jegy", _) >= 2
    VAGY
    TárgyEredmény("BMEGEMTAV01", "felvétel", AktualisFelev()) > 0
    VAGY
    TárgyEredmény("BMEVIETA302", "jegy", _) >= 2
    VAGY
    TárgyEredmény("BMEVIETA302", "felvétel", AktualisFelev()) > 0)

    ÉS (Training.Code=("5N-A7") VAGY Training.Code=("5N-A7H") VAGY Training.Code=("5NAA7"))

    A fenti forma a Neptun sajátja, ezen technikai okokból nem változtattunk.

    A kötelező előtanulmányi rendek grafikus formában itt láthatók.

    Ajánlott:
    Signature from Physics 1.
    7. Objectives, learning outcomes and obtained knowledge
    Electronics Technology and Materials is a nature science based subject that aims basically at teaching students principals, theoretical and practical knowledge on materials and realisation of electronic module circuits and systems. 
    The subject also aims at giving a basic overview on the structure, build-up, manufacturing and assembling technologies of materials, components, devices and circuit modules used in microelectronics, as well as on the perspectives and advances of this field.
    The set of information integrated into the subject summarizes the knowledge on electronics technology and materials of microelectronics, circuit design, assembling technologies and device construction in a way to support all electrical engineers who deal with the design and realisation of integrated circuits, electronic devices and systems and who need to communicate with other professionals specialized in this field.
    8. Synopsis
    Classification of electronic components, substrates, subassemblies, materials for electronics
    Through-hole and surface mounted components
    Metals. Mechanical characteristics and properties (tensile strength, yield point), conduction, materials of wires and resistors, temperature dependence, structure and thermal behaviour of alloys, phase-diagram, eutectics, solid solution, intermetallic compounds. 
    Wave soldering of components
    Reflow soldering technology, selective soldering technologies
    Mounting and packaging of semiconductor chips and module circuits
    Basics of crystallography, Bravais lattice, Miller indices, crystallographic defects (point defect, dislocations), growth of single crystals, recrystallisation
    Properties of semiconducting materials, elemental semiconductors, compound semiconductors, doping, diffusion, ion-implantation
    Fabrication of semiconductor wafers
    Layer deposition and doping technologies, construction of transistors
    Patterning and device structuring of semiconductor wafers
    Thin-film technologies
    Vacuum techniques
    Electrical properties of insulating materials, ceramics, composites, glasses, plastics
    Ceramic based thick-films technology
    Polymer thick-films and multilayer ceramic technologies
    Single-sided and double-sided printed wiring boards
    Multilayer printed wiring boards, HDI substrates
    Computer aided design
    Construction principles of electronic appliances 
    Thermal management and construction of electronic appliances
    Analysis techniques, X-ray diffraction, microscopy, SEM, TEM

    Topics of Laboratory exercises:
    Technology of printed wiring boards (PWBs)
    Technology of thin-film circuits, laser patterning and microstructuring
    Thick film technology
    Scanning Electron Microscopy
    Assembly of through hole components by reflow soldering technology
    Preparation of circuit modules by surface mount technology (SMT)
    PCB Design for testing assembly technologies

    9. Method of instruction Lectures, laboratory exercises.
    10. Assessment
    Period for lectures, seminars and practical work:

    Participation in all 7 laboratory exercises and successful fulfillment.
    All laboratory exercises begin with a 15-minute test for checking successful preparation. A minimum of satisfactory level is expected. 

    Two 60-minute mid-terms have to be fulfilled on a minimum of satisfactory level.

    Examination period: no requirement.

    11. Recaps
    If failed, the 15-minute test can only be retaken with the complete laboratory exercise. No more than 2 laboratory exercises can be retaken during the semester.
    Retaking the mid-terms for any reason (fail, intention to improve) is only possible one time. Re-retake is only allowed if the previous mid-terms are generally unsuccessful (less than one-third could pass).

    12. Consultations Possible on request, prior to mid-terms.
    13. References, textbooks and resources
    Harsányi Gábor: Elektronikai technológia, BME Viking Zrt., VI202-010, Budapest, 2011
    Pinkola János (szerk.): Elektronikai Technológia Laboratórium, Műegyetemi kiadó, 55082, Budapest, 2007
    14. Required learning hours and assignment

    Lectures and lab practices

    70

    Preparation for lectures

    20

    Preparation for seminars

    -

    Preparation for lab practices

    28

    Preparation for mid-terms

    48

    Homework

    -

    Self-learning of lecture notes

    14

    Preparation for exams

    -

    Summary

    180

    15. Syllabus prepared by

    Name:

    Title:

    Department:

    Dr. Harsányi Gábor

    professor

    Dept. of Electronics Technology

    Dr. Ginsztler János

    professor

    Dept. of Materials Science and Engineering (GPK)

    Dr. Szabó Péter János

    professor

    Dept. of Materials Science and Engineering (GPK)

    Dr. Jakab László

    professor

    Dept. of Electronics Technology

    Dr. Gordon Péter

    assoc. professor

    Dept. of Electronics Technology

    Dr. Gál László

    r. assoc. professor

    Dept. of Electronics Technology

    Dr. Sántha Hunor

    assoc. professor

    Dept. of Electronics Technology

    Dr. Krammer Olivér

    assoc. professor

    Dept. of Electronics Technology

    Dr. Illés Balázs

    assoc. professor

    Dept. of Electronics Technology