| Electromagnetic
Wave Theory (3-1-0) Maxwell equations. Wave equation in simple medium.
D’Alambert solution. Reflection. Solution by Fourier series. Two sided equation in
lossless environment. Effect of conductivity on fading. Delay in potential. Wave velocity.
Monochromatic waves. Helmholtz equation. Refraction and reflection from a plane.
Polarization. Pointing vector. Scalar and vectorial potentials.
Prerequisite: Electromagnetic Field Theory
Signal and Systems (3-0-0) Introduction to
continuous and discrete time signals. Systems and their
properties. Linear time-invariant systems. Fourier series representation of
periodic signals and its properties. Continuous-time Fourier transform and its properties.
Sampling.
Network Synthesis (3-0-0) Fundamentals of
network synthesis. Filter approximation and frequency transformations. Passive filter
synthesis. Design of resistively terminated networks. Fundamentals of active filter
synthesis: Sensitivity, the active bigmad. Realization of active two-port networks.
Prerequisite: Circuit Analysis
Electronics Circuits Laboratory (0-0-3) Source
voltage devices. RC circuits and attennuators Designing and testing of transistor
amplifiers. FET amplifiers. Operational amplifiers and their applications.
Electronic Circuits II (3-0-0)
Power
amplifiers, efficiency, amplifier distortion, class A, B, AB, C and D amplifiers, Power
transistor heat sinking. Comparators. A/D and D/A converters. Timer. Voltage-controlled
oscillator. Phase-locked loop. Feedback concepts, feedback amplifiers. Voltage regulation,
serial and parallel regulators.
Prerequisite: Electronic Circuits I
Electromechanical Energy Conversion (3-0-0) Energy conversion. Power plant types. Basic
magnetic circuit laws. Electromagnetism. Induced EMF and current on a moving conductor in
a magnetic field. The force on a current carrying conductor in a magnetic field. The
simplest alternating current (AC) generator. Obtaining three-phase AC. Rotating magnetic
field produced by three-phase AC. Operating principle of the transformer. Operating
principle of the asynchronous motor. Operating principle of the synchronous motor. Direct
current (DC) machines. Reversibility principle of electric machines.
Logic Circuits Laboratory (0-0-2) Combinational
circuit design using logic gates. The truth tables of FFs. Oscillator design using logic
gates. Counter design. Register design.
Prerequisite: Logic Circuits
Electrical Measurement Laboratory (0-0-2) Experiments
on multimeters, AC voltmeters,AC bridges, oscilloscope, Voltage Controlled Oscillator.
Temperature measurements.
Prerequisite: Electrical Measurement
Control Systems (4-0-0)
Fundamental
definitions and examples for open loop and closed loop (feed back) systems. Standart
responses, effects of feedback on system responses. Stability concept, stability testing
methods: Rout-Hurwitz criterion, root locus, Nyquist and Bode plots. Companzation
techniques. Design of control systems.
Microprocessors
I (3-0-2) A brief history. Essential elements of microprocessors and micro
controllers. Binary number systems.
Processor arithmetic. The microprocessor buses. Memory. The programming model of 6800
microprocessor. 6800 registers. 6800 addressing modes. 6800 instructions types.
Instructions. Interrupts of 6800. The
programming process. 6800 Assembler programming. Parallel input/output , program examples
of 6800.
Telecommunications I (3-0-0) Elements of a
communication system. Limitations on transmission channel.
Analog and digital modulation types, comparison. Properties of Fourier transform; frequency, energy and power
spectrums; convolution integral. Sampling, TDM, FDM, PCM, bandwidth, information content,
information rate, channel capacity. Amplitude modulation (AM, DSB, SSB, VSB), modulators,
demodulators, transmitters, receivers. Frequency and phase modulations. Generation and
detection of FM signals. Binary communication: ASK, FSK, PSK.
Electrical Machines I (3-0-0) Single phase
and 3-phase transformers. Introduction to rotating machines. Asynchronous machines:
construction, operating principle, equivalent circuit, speed-torque curve, current, power
factor, efficiency, starting, speed control and braking. Synchronous machines:
Construction and operating principle. Generator and motor modes, phasor diagrams, parallel
connection and synchronization. Direct Current machines: Construction, operating
principle, characteristics, starting, speed control and braking.
Electronic Circuits Laboratory II (0-0-3) Feedback.
Oscillators. Pulse Circuits. Power Amplifiers. PLL (Phase Locked Loop) circuit.
Prerequisite: Electronic Circuits II
Transmission Lines (3-0-0) TEM mode
transmission lines. Field and distributed circuit analysis. Time and frequency domain
analysis. Parameters of transmission lines. The mode of terminating: Standing waves,
impedence transformations, Smith chart and matching techniques. Power flow and losses.
Phase and group velocites. Passive high frequency devices.
Business Administration (2-0-0)
The
development of management theory through history. System approach. Fundamentals of
organizational thought. Organizational models. Authority and functional authority.
Planning. Coordination and control.
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