Navigation

13D061MHMN - Heterostructured microelectronic devices modeling

Course specification
Course title Heterostructured microelectronic devices modeling
Acronym 13D061MHMN
Study programme Electrical Engineering and Computing
Module
Type of study doctoral studies
Lecturer (for classes)
    Lecturer/Associate (for practice)
      Lecturer/Associate (for OTC)
        ESPB 9.0 Status elective
        Condition does not have
        The goal Teaches students how semiconductor devices are presented by mathematical-physical models. Through the analysis and simulation of the models, they learn how the relevant parameters affect the functioning of the device and how optimal solutions (constructions) of existing ones, as well as potentially new heterostructured devices, are coming up.
        The outcome Teaches students how semiconductor devices are presented by mathematical-physical models. Through the analysis and simulation of the models, they learn how the relevant parameters affect the functioning of the device and how optimal solutions (constructions) of existing ones, as well as potentially new heterostructured devices, are coming up.
        Contents
        Contents of lectures Concept and type of model. The role, significance and history of modeling of microelectronic devices. Transport processes. Models of heterostructured unipolar transistors. Modeling heterostructured bipolar transistors (HBT). HBT based on AlGaAs / GaAs, InGaAs / GaAs. HBT models with thermal effects. Models of transistors with hot electrons.
        Contents of exercises does not have
        Literature
        1. R.Ramović, "Analiza i modelovanje poluprovodičkih naprava", (skripta), autorsko izdanje, Beograd 1993 god. (Original title)
        2. S.Selberherr, "Analysis and simulation of semiconductor Devices", Springer.Verlag, Wien 1985 god. (Original title)
        3. R.Ramović, R.Šašić, "Analiza i modelovanje unipolarnih tranzistora malih dimenzija", Dineh, Beograd 1999 god. (Original title)
        4. D.Tsaukalos, C.Tsamis (eds), "Simulation of Semiconductor Processes and Devices (SISPAD)", Springer, Wien 2001 god. (Original title)
        5. P. M. Lukić, "Osnovi analogne elektronike", Mašinski fakultet Univerziteta u Beogradu, 2015. god. (Original title)
        Number of hours per week during the semester/trimester/year
        Lectures Exercises OTC Study and Research Other classes
        6
        Methods of teaching Lectures and auditory exercises
        Knowledge score (maximum points 100)
        Pre obligations Points Final exam Points
        Activites during lectures Test paper 70
        Practical lessons Oral examination
        Projects 30
        Colloquia
        Seminars