Akademik Dersler - İçerik

express the basic structure, properties and working principles of P-N junction circuit elements.
explain nucleus, orbit and shell terms for an atom and draws energy band diagram.
express the free electron concept, and defines insulator, semiconductor and conductor.
explain the properties of germanium and silicon semiconductors used in electronics.
explain the relation between temperature and the electrical conductivity of pure silicon atom.
explain current conveyors.
explain structures of the types, operation and characteristics of diodes and apply the DC circuit analysis principles to diode circuits.
express the electrical difference between silicon and germanium diodes.
explain that a diode operates in continuous conduction, continuous cut off and discontinuous conduction modes in application.
express that a zener diode is an inverse operating P-N junction type and explains its incorruption .
calculate the current, the voltage and the power in a zener diode circuit.
explain the structures, properties and operations of diode types such as Varicap diode, Tunnel diode, Schottky diode, photodiode.
explain the properties and operations of BJTs (bipolar junction transistors).
express that BJT is a P-N junction circuit element and its terminals are called as Emitter, Base and Collector.
polarize a BJT using two sources and calculates various current, voltage values and also the power dissipated in a transistor.
Knows the characteristic features of BJT and explains its cut off, saturation and active regions.
calculate various current, voltage values and also the power dissipated in a transistor by drawing biasing circuits.
draw the diagram of Darlington connection and explains its electrical properties.
explain the properties and operations of FETs (field effect transistors).
explain the structure and types of JFETs.
draw the transfer characteristics curve and explains forward conduction using this curve.
express the differences between D-MOSFETs and JFETs, and also E-MOSFETs and JFETs and likeness between D-MOSFETs JFETs.
express difference biasing methods for FETs, D-MOSFETs ve E-MOSFETs.
explain the types of other MOSFETs like GaAS FETs, double-gate FETs, and VMOSs.