Outline Syllabus:Introduction to network functions and their realizability conditions Amplitude characteristics approximations (such as Butterworth, Chebyshev, Inverse Chebyshev and Elliptical approximations) Phase characteristics approximation and delay (such as Bessel approximation) Synthesis of two pole networks consisting of two elements Synthesis of lossless four pole networks terminated in one or two resistors Synthesis of all pass networks Frequency and circuit transforms Introduction to active filters and their comparison with passive filters Active synthesis of second order transfer functions Synthesis of higher order transfer functions by cascading Other synthesis procedures for higher order transfer functionsCredits: 3Pre-requisites:Electric Circuits II Electronics IIICo-requisites:None

Outline Syllabus:Maxwell's equations in time varying fields Boundary conditions Plane wave propagation in unbounded media Polarization Poynting theorem Reflection and transmission at boundaries between media Wave equation in cylindrical waveguides and dielectric waveguides Parallel, rectangular and cylindrical waveguides and dielectric waveguides Transmission Lines Steady State and transient response Smith chart Impedance matching Stub tuningCredits: 3Pre-requisites:Electromagnetics

Outline Syllabus:Microprocessor and its components Registers Control units Address and data buses Memories (ROM, RAM, EPROM, ...) Assembly language Analysis of a processing unit Methods of connection of interface units (I/O) to microcomputers (such as polling, interrupt) Priority and its execution (interrupt, daisychain such as interrupt- nonmaskable vector) Data transmission from processor to I/O and reverse direction in parallel and series schemes through interface IC's (such as PIO and STO in Z-80) Direct link of I/O with memory such as 8-bit microprocessors such as 6800, 8080, 8085 and Z-80 and their comparison Study of 16-bit microprocessors such as Z-8000, MC6800, 8086 and their comparison with 80bit microprocessors Standard buses such as RS-232, RS-482 and IEEE-488Credits: 3Pre-requisites:Computer OrganizationCo-requisites:None

Outline Syllabus:RC high pass and low pass circuits Diode and transistor time responses Voltage sweep with transistors Miller sweep Miller sweep with OP-AMP Digital sweep Free running sweep Bi-stable multivibrator Mono-stable multivibrator Astable multivibrator Schmitt-trigger IC 555Credits: 1Pre-requisites:Pulse Techniques Electronics Lab IICo-requisites:None

Outline Syllabus:Pulse shaping by active and passive circuits Linear systems in pulse regimes Attenuators Diode and transistor reaction in pulse regimes Comparators Schmitt triggers Single state and double state and oscillating multivibrators Negative resistance and its uses Pulse amplifiers Circuits for linear voltage variation Triggering Operational amplifiers in pulse techniquesCredits: 3Pre-requisites:Logic Circuits Electronics IICo-requisites:None

Outline Syllabus:Amplitude modulation and detector circuits DSB and SSB modulation and demodulation circuits FM detection (Foster-Seely, Zero-Crossing and Weiss circuits) PLL characteristics Frequency synthesizers A/D and D/A conversion circuits Various types of oscillators PPM, PDM and PCM circuitsCredits: 1Pre-requisites:Communication CircuitsCo-requisites:None

Outline Syllabus:Introduction to the fundamental s of filters High frequency circuit design Signal sources Power amplifiers of classes C, S and D Heterodyning Analog modulator circuits such as AM, DSB, SSB, FM, PM Demodulator and detector circuits Digital modulation circuits such as PAM, PDM, PCM Delta modulation Transmitters and receivers Multiplexing systems such as TDM and FDM Nonlinear modulation and demodulation Super-heterodyne receiver Duplexers Squelch circuits AFC AGCCredits: 3Pre-requisites:Communication systems I Electronics IIICo-requisites:None

Outline Syllabus:Design of two stage amplifiers with feedback and their frequency response and step voltage response Cascode amp. Differential amp. OP-AMP applications as inverting and non-inverting OP-AMP applications with one power supply and with stabilized power supplies OP-AMP applications for integration and differentiating Comparators RC oscillators Wien-Bridge Osc. Phase shift Osc. LC Osc. Colpitts Osc. Narrowband amplifiers Tuned amplifiersCredits: 1Pre-requisites:Electronics III Electronics Lab IICo-requisites:None

Outline Syllabus:Nonlinear application of operational amplifiers Equivalent circuits of transistors and FET at high frequencies Frequency response of amplifiers Amplifier stability Compensation circuits Oscillators Narrow-band amplifiers Broadband amplifiersCredits: 3Pre-requisites:Electronics IICo-requisites:None

Outline Syllabus:Class A amplifiers with RC and transformer coupling Constant current and constant voltage power supplies Class A and class AB amplifiers Push-pull amplifiers Frequency response of amplifiers and its 3-dB points UJT transistor characteristics and its applications Types of feedback Feedback in amplifiers Stabilizing power supplies by feedback Familiarization with JFET and its characteristics curves Measurements of various parameters Common drain and common source amplifiers and their frequency responsesCredits: 1Pre-requisites:Electronics II Electronics Lab ICo-requisites:None

Outline Syllabus:Primary definitions of systems and signals Various kinds of systems Introduction to modeling of various physical systems Analysis of linear and time independent (Continuous and discrete) systems Impulse response Convolution integral Fourier analysis Energy density Spectrum and power sampling theorem System analysis by Laplace transform Block diagram Signal flow graphs System analysis in state space (continuous and discrete) Z transform Discrete system analysis by the Z transformCredits: 3Pre-requisites:Electric circuits IICo-requisites:None

Outline Syllabus:Familiarity with principles of safety and hygiene in workshops Correct method of using tools and machines in workshops Correct use and application of equipment Tools and Machines in various workshops such as: Machine shop, welding shop, Sheet metal shop, Carpentry, etc.Credits: 1Pre-requisites:None

Outline Syllabus:Familiarity with oscilloscopes Familiarity with galvanometer and its conversion to ammeter, voltmeter and ohmmeter Investigation of Kerchief's laws Measurement of resistance Wheatstone bridge Calvin bridge Measurement of capacitance Charging and discharging of condensers Measurement of inductance and impedance (RC and RL circuits) Measurement of electromotive force of batteries and their internal resistanceCredits: 1Pre-requisites:Physics IICo-requisites:None

Outline Syllabus:Determination of specific heat Determination of expansion coefficient of liquids Determination of latent heat of ice melting Determination of latent heat of evaporation Determination of linear expansion coefficient of solids Determination of surface tension of liquids Determination of the coefficient of heat conduction of solids Investigation of Boyler's law Marriott law Viscosity Familiarity with measuring instruments and calculation of errorsCredits: 1Pre-requisites:Physics ICo-requisites:None

Outline Syllabus:Charge and matter Coulomb's law Electric field Electric field intensity Gauss' law and its relation to Coulomb's law Electric potential Electric potential energy Calculations of potential difference Capacitors and capacitance Permittivity and dielectric constant Electric current Electric resistance Ohm's law Electromotive force Multi-loop circuits Kerchief's laws Voltmeter Ammeter Potentiometer Wheatstone bridge Magnetic field Magnetic field intensity Magnetic flux Magnetic forces of current carrying conductors Hall's effect Ampere's law Faraday's law and induction Lenz's law Varying magnetic fields Inductors and inductance Alternating currents and single loop circuits AC power ElectromagneticsCredits: 2Pre-requisites:Math I

Outline Syllabus:Vector Analysis Equilibrium of particles Newton's laws of motion Linear motion Motions with constant and varying accelerations Planar motion Circular motion Motion of satellites and planets Effect of earth's motion on gravity Work and Energy Gravitational potential energy Elastic potential Power Impulse Conservation of linear momentum Elastic and inelastic collisions Rocket motion Rotational Motion Angular acceleration Moment of inertia Angular momentum Gyroscope Harmonic motion Simple pendulum Angular harmonic motion of pendulum Temperature Heat and heat equilibrium Amount of heat Mechanical equivalent of heat and work The first law of thermodynamics Kinetic theory of gasses Ideal gas Mean free part Distribution of molecular velocity Change of state and thermodynamic transformations Sate equation (van der Wals) Entropy The second law f thermodynamics Reversible and irreversible entropy Physical state change of matter Different phases and state transformations due to heat Heat transfer (conduction, convection, radiation)Credits: 4Pre-requisites:Math I or concurrent

Outline Syllabus:Theory of sets Samples and their tabular representations together with their mean values Expected and median values Variance Combination and permutation and related theorems Random Variables Probability density function and cumulative distribution function Binomial, Poisson and Normal distributaries Multi-Variable distribution function Random Numbers Random Sampling Estimation of statistical parameters Decision hypothesis Variance analysis Regression Correlation Nonparametric MethodCredits: 3Pre-requisites:Math I

Outline Syllabus:Errors Extrapolation Determination of roots of equations by several methods Numerical Differentiation and integration Numerical methods for the solution of ordinary differential equations of first and second order Matrix operations and determination of their eigenvalues Solution of systems of linear and nonlinear equations Method of least squaresCredits: 2Pre-requisites:Computer Programming Differential equations or concurrent

Outline Syllabus:Computers and their types Programming languages Programming by Fortran IV Numbers and symbols Constant and variable quantities Computation statements Mathematics functions Input and output statements Conditional commands Repeat command Variables with indices Common memory General memory Auxiliary memory Subroutines Main routine Writing several computer programsCredits: 2Pre-requisites:None

Outline Syllabus:Illumination Light intensity and its unit Eye sensitivity Vacuum, gas and fluorescent lamps Starting fluorescent lamps Sodium lamps and their starting Mercury, infrared and ultraviolet lamps, Neon lamps Applications of lamps Basic quantities and their calculations Illumination diagrams and tables Economic considerations Electric symbols used in wiring and illumination drawings Illumination calculations for houses, streets, public places and large auditoriums Security and safety illumination Provision of electrical energy Allowed voltage drop Division of electrical loading Calculation of cable and wire cross sections Current standards of household appliances Ground conductors Design of displays Security and alarm systems Protection of buildings against lightning TV antenna systems Emergency systems Batteries Diesel generators Rectifiers InvertersCredits: 3Pre-requisites:Power System Analysis ICo-requisites:None

Outline Syllabus:Familiarization with the symbols and standards of electrical drawings Electrical installation drawings Wiring and illumination drawings Digital diagrams Combination of relays and contactors Analog diagrams Control Systems Electrical drawing for power stations, transmission and distribution stations Control and instrumentation circuit diagrams Protection and control Communication systems and switchingCredits: 1Pre-requisites:Course in the first three semestersCo-requisites:None

Outline Syllabus:Definition and history of industrial electronics Electrostatic transducers of electrical energy Applications of industrial electronics in industry Structure of thyristors and their operation and characteristic curves Control circuits for thyristors and their protection Structure and operation of diacs and triacs Power transistors and their characteristics in on and off applications Darlington circuits in power engineering Current converters Half wave single phase converters Converters as rectifiers with ohmic loads Inductive loads and general loads Shapes of the load current and voltage Determination of extinguishing angle Converters as inverter Half wave multiphase convertersCredits: 3Pre-requisites:Electronics IICo-requisites:None

Outline Syllabus:Concepts and importance of electrical measurements Primary definitions Components of measurement systems Errors and error analysis Classification of measurement equipment Ordinary oscilloscope Recorders Analog measuring equipment (with permanent magnets, moving coils, moving soft iron, electrodynamics, inductive ferrodynamic, electrostatic) DC/AC ammeters and voltmeters Methods of measuring very low and very high values of voltage and current Measuring equipment with multipliers Single and three phase, active and reactive power meters Measurement of resistance, capacitance and inductance Q meters Bridges Transducers Digital measuring equipmentCredits: 3Pre-requisites:Electric Circuits ICo-requisites:None

Outline Syllabus:Investigation of industrial control systems Heat transfer Pneumatic and hydraulic systems Industrial control systems for DC servomotors Design of compensators Operation and performance of position and speed control systemsCredits: 1Pre-requisites:Industrial ControlCo-requisites:None

Outline Syllabus:Industrial processes Linearization of nonlinear differential equations Experimental determination of process characteristics First degree transfer function of processes with delay Process modeling with a single time constant and a single delay Modeling of processes with double time constants and delay Liquid processes (elevation control, flow control, pressure control, stirring tank process, mixing, heat exchange, generation of electricity, industrial examples) Rolling processes (thickness control, tension control) Various control system (aero planes, ships, guided objects) Building controllers Wind controllers such as DIP, Electronics controllers of DIP Two state controllers Regulators (such as IAE-ISB, ZN-ITAE) Regulators for simple processes Analysis of two-state controllers Direct control of processes by computers such as DDC Examples of industrial control in chemical, cement and steel industriesCredits: 3Pre-requisites:Linear Control SystemsCo-requisites:None