Electric circuits. Mathematical models of electrical circuits elements. Power and energy function. Active and passive elements. Kirchhoffs laws: Current and voltage equations. Basic definitions of graph theory. Circuit graphs and graph matrices. Tellegens theorem. Two and multi-terminal elements: Resistor, capacitor, inductor, independent sources, dependent sources, gyrator, transistor, transformer, operational amplifier. Nonlinear elements and linearized models. Analysis of linear and nonlinear resistive circuits: Mesh current method and node voltage method. Thevenins and Nortons theorems. Analysis of dynamic (RLC) circuits: State equations method. Solutions of first and second order circuits, computer applications.
Reference link: ELE211E
Semi-conductor basics: concepts and semi-conductor components. Semiconductor diode; physical structure, terminal characteristics, analysis of diode circuits. Bipolar junction transistor (BJT); physical structure and operating modes, BJT as a switch; DC biasing, BJT as an amplifier, small-signal model, basic amplifier circuits. MOSFET; structure and operating modes, MOSFET as a switch, MOSFET amplifiers. Operational amplifiers; concepts and application examples.
Reference link: ELE222E
Introduction to Multimeter, Oscillator and Realization of the Kirchoff's Laws; Modelling of multiple terminal circuit elements; Investigation of transient solution in RC, RL ve RCL circuits; Investigation of steady state in AC and DC circuits; Finding Thevenin-Norton equivalents of circuits; Investigation of Scaling, Superposition and Reciprocity Theorems.
Reference link: ELE221E
Introduction and basic definitions, NMOS and CMOS inverters and their static and dynamic behaviors, NOR and NAND gates, complex static gates, pass logic (NMOS-PMOS and CMOS), flip-flops, synchronization of digital electronic circuits, dynamic gates: cascading methods; domino, NORA, zipper logics, semiconductor memories: ROM, static and dynamic RAM, gate arrays: PAL, PLA, FPGA.
Reference link: ELE322E
DC Power Supplies, DC characteristics of BJTs and MOSFETs, transistorised amplifiers, linear applications of operational amplifiers, lojic gates and flip¬flops, non-linear applications of operational amplifiers.
Reference link: ELE311E