Location: CTU / FEE / Education

Faculty of Electrical Engineering

MOTTO: SCIENTIA EST POTENTIA

Search

Additional topics for Bachelor degree state examination in the specialization Electronics and Communications

  1. Semiconductors - basic ideas, properties. Junctions, diodes, their structure, properties and applications. (X34ELE, X34ESS)
  2. Basic semiconductor opto-electronic devices - photo-resistor, photo-diode, light emitting diode (LED), laser diode - structures, properties, applications. (X34ELE, X34FOT)
  3. Active semiconductor devices - BJT, JFET, MOSFET, MESFET - structures, properties, applications. (X34ELE, X34ESS)
  4. Heavy-current switching devices - thyristor, IGBT, GTO, triac - structures, properties, applications. (X34ELE, X34ESS)
  5. Vacuum electronic devices: optical, microwave, protective - principles of operation, structures, properties, applications. (X34ELE, X34ESS)
  6. Models of high-frequency and microwave semiconductor devices and models of transmission lines. Algorithms for analysis and optimization of high-frequency and microwave circuits. (X37CAD)
  7. Applications of the z-transform and Laplace transform. Transfer function of an analog and of a discrete-signal circuit. (X31EO3)
  8. Two-port characteristics, LC, RC and digital filters, filter synthesis, analogue sampled-data filters - switched circuits. (X31EO3)
  9. Electronic circuit structures, basic amplifier stages, dc-coupled multistage amplifiers, real operational amplifiers. (X31EO3)
  10. Operational amplifiers and their applications, operational amplifier parameters, properties of linear operational amplifier circuits, properties of circuits with nonlinear feedback. (X31EO3)
  11. Regenerative circuits, RC and LC oscillators, impulse signal generator, bistable and monostable trigger circuits (flip-flops). (X31EO3)
  12. Boolean algebra, Logic function, Relationship between the Boolean expression, logic diagram and truth table, Logic circuit realization, Binary codes (BCD, Cyclic, Constant weight). (X32ZCT)
  13. Multiplexers, Converters, Counters, Registers, Shift Registers, Memories - types, specification, Methods for digital circuits diagnosis, test patterns. (X32ZCT)
  14. Electromagnetic field - static, stationary, non-stationary. Basics of calculations for simple geometric structures, media classification (linear, homogenous, dispersion, anisotropic). (X17TEP)
  15. Electromagnetic waves on transmission lines, calculation of basic transmission lines (two-wires, coaxial, micro strip, slot - lines), field intensity distribution and basic characteristic of transmission lines (cut-of frequency, attenuation). (X17TEP, X17VVE)
  16. Plane electromagnetic wave in a free space, reflection, transmission, dispersion - wave propagation in individual sub-bands in Earth atmosphere, radio-communication transmission, power budget for line-of-side and mobile transmission. (X17VVE)
  17. Principles of radiation of electromagnetic waves, overview of individual antenna structures and its basic properties (input impedance, radiation pattern, gain etc.) - linear (two wires), aperture antennas, reflector antennas, antenna arrays. (X17VVE)
  18. Basic HF and microwave elements (isolator, circulator) and circuits, its description using S parameters, Smith chart, description of matching. (X17VVE)
  19. Overview of HF and microwave elements and instruments for measurement - properties and using, foundation of HF measurement. (X37MST)
  20. Signals, their description in temporal and frequency domains. Correlation functions of deterministic and stochastic signals and their application. Signal sampling and interpolation. (X37SAS)
  21. Linear time-invariant system, system function. Spectral representation of linear time-invariant systems, transfer function. (X37SAS)
  22. Measuring equipments and techniques for signal parameter evaluation in temporal and frequency domains. (X38EMB)
  23. Fundamentals of analogue and digital modulations. Principles of source and channel coding. (X37KTR)
  24. Basic concept of radio transmitters and receivers, software radio. Modern radio communication systems: cellular GSM, UMTS, satellite systems. (X37KTR)
  25. Data transmission rate and modulation rate. Information rate. Shannon-Hartley law. Channel throughput. Entropy. (X32TSS, X37KTR)
  26. Transmission paths and their features (metallic, radio, optical). (X32TSS)
  27. Time, Frequency, Code Division multiplexing (TDM, FDM, CDM). Functions and goals of narrowband and broadband networks. (X32TSS, X37KTR)
  28. Communication channels and paths. Circuit switching, packet switching. Principle of transport and switching systems. Fixed and mobile services. (X32TSS)
  29. Signaling in telecommunication networks. Multiplexing - principle, hierarchies. (X32TSS)
  30. State administration of telecommunications. Standardization organizations in telecommunications. Number portability. Local loop unbundling. Universal service. (X32ZMK)
  31. Term telecommunication network. Telecommunication networks - analogue, IDN, ISDN. Switching techniques in telecommunications. (X32TSS)
  32. Fixed network services. Mobile network services. Telecommunication products management. Data transfer services. Telecommunication equipment market. Typical structure of telecommunication operator. Supporting systems (OSS / BSS, billing systems). (X32ZMK)
  33. Liberalization and state regulation of telecommunications. Network plans overview, role of network plans. (X32ZMK)
Responsible person: prof. RNDr. Marie Demlová, CSc.
Last change: 02. 05. 2011