| Differential
Equations (4-0-0) First and second order differential equations. Initial value and
boundary value problems. The method of seperation of variables. Linear and certain
nonlinear differential equations. Higher order differential equations. Homogeneous
differentials equations. Systems of differential equations. Laplace transformation and
applications. Eigen values and Eigen functions of differential operators. Partial
differential equations.
Prerequisite:
Calculus I
Calculus III
(4-0-0) Multivariable functions. Limit and continuity. Partial derivaties and
total differential. Directional derivatives.
Higher order partial derivatives. Tangent and normal planes. Gradient. Taylor expansion.
Multiple integral, properties and change of variables. Conservative fields. Line and
surface integrals. Green’s formula. Area and volume calculations. Circulation and
divergence. Stokes and divergence theorems.
Prerequisite:
Calculus II
Semiconductor Circuit Compenents (4-0-0) Passive
components. Power sources (primary and secondary batteries). Semiconductor materials,
energy levels, extrinsic materials, n and p type materials. Ideal diode, semiconductor
diode, zener breakdown, diode equevalent circuits, diode applications, diode load line
analysis, zener diode applications. LEDs, bipolar junction transistor, bipolar junction
transistor biasing, field effect transistors, field effect transistor biasing, MOSFETs,
MOSFET biasing.
Circuit Theory (3-1-0)
Basic
circuit theory. Nodal Analysis. Loop Analysis. Graph Theory. Superposition Principle.
Thevenin and Northon Theorems. Multiport circuits. Time domain analysis of RLC circuits
using state equation model.
Economics (2-0-0) The law of supply and demand. Price theory. Alloation theory. National income
and allocation of sources. Money and banking. Exterior handling. Economical growth and
development. Planning. Economical systems. Tax and effect. Capital markets.
Electrical Materials (2-0-0) The structure
of crystalline solid. Diffusion. Electrical conduction, energy-band structure of solid
substances, conductors, insulators, semiconductors, dielectric behavior. Thermal
properties. Magnetic properties and optical properties. Materials used in electrical and
electronic engineering.
Atatürk’s Principles and History II (2-0-0)
Circuit Laboratory (0-0-2)
Applications of Thevenin, Norton,
Linearity and superposition Theorems. Applications of two-ports circuits. Power measuring
and maximum power transfer applications. Transient analysis of RC and RL circuits.
Resonance circuit applications.
Electronic Circuits I (3-1-0) Bipolar
junction transistor modelling. The re transistor modelling. The hybrid equivalent model. Bipolar junction
transistor small signal analysis, common-emitter fixed bias, voltage divider bias,
emitter-follower configuration, common-base configuration, collector feedback
configuration. Field effect transistor small signal analysis. MOSFET amplifier, Effect of
RS and RL, system approach,
Cascode connection, Darlington connection, Miller effect feedback pair. Frequency response
of the amplifiers. Operational amplifiers.
Circuit Analysis (3-1-0) Sinusoidal
steady-state analysis of ac circuits.
Laplace transform and analysis of circuits in s-domain.
Network functions and frequency responses. Nyquist theorem and Bode plots. Three-phase circuits. Power analysis
in ac circuits. Analysis of multiport circuits.
Prerequisite
: Circuit Theory
Electromagnetic
Field Theory (3-1-0)
Fundamental assumptions. Coulomb’s law. Electrostatic field and flux. Electrostatic potential and potential energy.
Gauss and Poission equations. Various charge distributions. Field equations and properties of medium.
Boundary conditions and the fundamental problem of electrostatics. Force on surface charge.
Electrostatic energy density. Lorentz force current element and Biot-Savart law. Vector potantial. Ampere Formula.
Magnetic circuits. Magnetic energy density. Maxwell equations. Faraday induction.
Continuity equation.
Electrical Measurement (2-0-0) Accuricy,
sensitivity and precision in measurement. Measurement standards, Error in measurement,
voltmeter loading effects, ammeter insertion effect, direct current meters, The
D’Arsonval meter movement, DC voltmeter, DC ammeter, ohmmeter, alternating current
meters, termocouple meter, potantiometer circuit, direct current bridges,
alternating-current bridges. Electronic measuring instruments. Digital insturuments. A/D
converters. Oscilloscope. Frequency counter.
Logic Circuits
(2-2-0) Binary sytems. Basic theorems and properties of Boolean algebra.
Logic gates. Combinational circuits. Maxterms and Minterms definitions. Simplification of
combinational circuits using Karnaugh map.
Oscillator design using logic gates. Memory elements (Flip-Flops: SRFFs, JKFFs, DFFs,
TFFs). Synchronous and Asynchronous Counters. Registers.
Probability
and Random Processes (3-0-0)
Review of spectral
analysis. Time averages, correlation, covariance. Applications: Estimation problem,
modulation. Probability theory. Statistical averages. Moments. Cumulative distribution and
probability density functions. Random vectors. Functions of random variables. Random
processes.
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