MATH101 Calculus I (3,2)4
Analytic geometry, continuity, derivatives and differentials of functions of one variable, with applications to graphing and optimization problems; also gives and introduction to anti-differentiation and the definite integral.
CHEM101 Chemistry (3,0)3
This course is based on understanding the theory of general chemistry designed for engineering majors. Topics include the necessary mathematical background, matter and energy; atoms, molecules, and ions; chemical reactions; periodicity and atomic structure; chemical bonding; thermo-chemistry; properties and behavior of gases; solutions and their properties; aqueous equilibria and acids-bases; and electrochemistry.
ENGL121 English I (3,0)3
The primary aim of this course is to help students to develop study skills, which will improve their overall performance and competence on their program. The course will also focus on specific language skills, in order to increase the students’ knowledge of grammatical structures, vocabulary, reading, writing, listening, speaking and key features of academic English.
PHYS103 Physics I (3,2)4
Vectors, Kinematics, Particle Dynamics Work and Energy. Conversation of Energy, System of Particles, Collisions, Rotational motions, Oscillation, Acoustics.
EE103 Introduction to E. E. Engineering I (2,1)2
Basic electrical quantities. Fundamental circuit laws. Sinusoidal steady-state analysis and transformers. Three-phase circuits. Principles of electromechanical energy conversion. DC and AC machines. Electrical safety.
EE104 Introduction to E. E. Eng. II (3,1)3
Basic electrical quantities. Fundamental circuit laws. Sinusoidal steady-state analysis and transformers. Three-phase circuits. Principles of electromechanical energy conversion. DC and AC machines. Electrical safety.
COMP107 Introduction to Programming (3,1)3
Basic introduction to computer and programming terminology; data, information, I/O, processing, and use of notations. The characteristics and functions of high-level block structured languages. The basic structure of computer programming. The fundamentals and concepts of algorithms. The components of algorithms; Processing, Comparing, Testing, Validation. The fundamentals of drawing flowcharts; INPUT/OUTPUT, PROCESS, LOOPS, CONDITIONS, JUMPS, ARROWS. The functions and techniques of programming. The concepts of structured programming; sequence, selection, and iteration including Pseudo-code.
MATH110 Calculus II (3,2)4
Applications of the definite integral, techniques of integration, differentiation and integration of transcendental forms, indeterminate forms, improper integrals, Taylor's formula and infinite series. Vectors, double and triple integrals. Prerequisites: MATH101
PHYS102 Physics II (3,1)3
Continuation of Physics I. Basic concepts of electricity and magnetism treated mathematically. Includes wave motion, electro-magnetism, optics, and an introduction to modern physics, including semi-conductors; laboratory sessions.
COMP114 Programming in C I (3,2)4
Problem-solving methods and algorithm development; high-level structured programming using C language. Development of process of design, coding, debugging, documentation; focus on good programming style and sound program construction. Includes basic aspects of string processing, recursion, search, sort and simple data structures
ENGL122 English II (3,0)3
The primary aim of this course is to help students develop study skills including use of dictionaries and reference materials, finding relevant sources in the library. Tuition will be given in paraphrasing, summarizing information, writing short essays and short research reports that are clear in terms of overall structure, organisation and development of ideas, and which demonstrate on appropriate academic style. Students will also participate in discussions and debates, putting forward clear ideas, opinions and argument, plus give short oral presentations in class. Prerequisites: ENGL 121
TURK100/200 Turkish (2,0)2
The course aims to give the historical development, linguistic features, types of oral and written communication of the Turkish language and give examples on the written errors of the language.
MATH201 Ordinary Differential Equations (3,2)4
The Differential Equations and their solutions, Classification of Differential equations, Solution of differential equations, initial value – and boundary value - problem, First order differential equations, Application of the first order differential equations, higher order differential equations, application of second-order differential equations. Prerequisite: MATH101
EE203 Digital Circuits I (2,2)3
Number systems, binary, octal and hexadecimal systems, conversions. Boolean algebra and logic gates. Postulates, Laws and Theorems, truth tables, simplifications of boolean functions using boolean laws, map method and tabular method. Realisation structures for product-of-sums and Sums-of -products expressions. Universal gates. Multiplexers and demultiplexers, encoders and decoders. Combinational logic design using logic gates, multiplexers, PROM array and PAL (Programmable Array Logic). Digital comparators, variable reference digital comparators. Half adder, full adder, 4-bit parallel binary adder.
EE207 Electronics I (3,2)4
Introduction to quantum mechanics, semiconductors, impurities, carrier transport in semiconductors, generation and recombination of minority carriers, P-N junction diode, I-V characteristics; junction capacitance. Half-wave and full wave rectifiers, filters, zener diode voltage regulator, regulated power supply. Bipolar junction transistor, DC analysis, biasing, bias stability, common base, common emitter and common collector configurations. Small signal analysis using hybrid models, frequency response characteristics. Field Effect Transistors, JFET, MOSFET and CMOS. Small signal analysis of FET amplifiers.
EE215 Circuit Theory I (3,2)4
Circuit laws. Nodal-voltage and mesh-current analysis techniques. First order and second order circuits RL, RC and RLC circuits. Analysis of linear time-invariant circuits. Coupling elements and coupled circuits.
COMP203 Programming in C II (2,2)3
Fundamental nature of information and storage structures and their manipulation. Strings, arrays, sets and other basic data structures. Iterative and recursive programming techniques. Storage systems, structures and allocation. Introduction to sorting and searching techniques. Prerequisites: COMP114
HIST100/200 History of Turkish Reforms (2,0)2
A history of the construction of the Turkish Republic under the light of Kemal Atatürk’s principles, and a brief history of Cyprus covering the Ottoman Rule, British Rule, foundation of Republic of Cyprus, civil strife, the intervention of Turkey and the political developments until the establishment of TRNC.
MATH211 Linear Algebra (3,0)3
Matrices, systems of linear equations and their solutions, plane and space vectors, vector spaces, Eigen values and Eigen vectors and applications. Prerequisites: MATH101
EE202 Digital Circuits II (2,2)3
Sequential logic circuits. NAND and NOR latches, flip flops, RS flip flop using NAND and NOR, clocked RS flip flops, JK flip flop circuits, Master Slave JK flip flop. T flip flop, D flip flop, Binary counters, 2-bit,3-bit and 4-bit counters, Modulo-N counters, UP/DOWN counters, Synchronous counters, Johnson code, Code converters, code exchangers. Binary and BCD arithmetic. Serial binary adder. Shift registers, parallel shift, serial shift left shift right registers. Serial in parallel out, parallel in serial out shift registers. Memory cells, RAM, PROM and EPROM memory, Organisation of memory array, Memory systems. Address decoding. Introduction to ASM. Prerequisite: EE203
EE214 Electromagnetic Theory I (3,0)3
Electromagnetic induction; Faraday’s and Lens’s laws; transformer and motional electromotive force; induction heating; transformer; displacement current; Time -varying fields; Maxwell’s equations; wave equations; time-harmonic fields; complex phasors; scalar and vector potential functions; plane waves in vacuum; plane waves in dielectrics and conductors; polarisation; skin effect; electromagnetic energy and power; Pointing’s theorem; reflection and refraction of plane waves at dielectric interfaces; Snell’s law; Fresnel formulas; critical angle; total internal reflection; total transmission; Brewster’s angle; standing waves; transmission line theory; TEM waves; transmission line parameters; lossy and lossless lines; matching of transmission lines to their loads. Prerequisite: MATH110
EE216 Circuit Theory II (3,2)4
Sinusoidal steady state analysis of electrical circuits. Network graphs, node, mesh, cutset and loop analysis. Natural frequencies. State equations. Laplace transform in circuit analysis. Network functions. Network theorems. Two part circuits. Prerequisite: EE215
EE218 Electronics II (3,2)4
High frequency models of BJTS, and FETs. Analysis. Wide band amplifiers. Power amplifiers. Push pull amplifiers. Class A, AB, B, and C amplifiers. Tuned amplifiers. Differential amplifier, CMRR, slew rate, improving CMRR, Operational amplifier. Applications of op-amps as adder and integrator. Solving differential equations and simultaneous equations. Simulating transfer functions, non linear function generation, active filter applications. Prerequisite: EE207
STAT222 Probability and Statistics (3,0)3
This course is designed to develop an understanding of the role of probability and statistics in engineering problems. Topics include descriptive statistics; sets, events, and probability; discrete random variables and discrete probability distributions; continuous random variables and continuous probability distributions; joint probability distributions; introduction to estimation theory; correlation and regression analysis; statistics of extreme events; testing of hypothesis; and engineering applications. Prerequisite: MATH101.
MATH301 Complex Analysis (3,0)3
Complex numbers. Algebra of complex numbers. Polar representation. Complex functions. Limits and continuity. Analytic functions. Cauchy-Riemann equations. Mobius transformations. Conformal mapping. Line integrals. Cauchy integral formula. Isolated singularities. Residue theorem. Prerequisite: MATH201
EE315 Electromagnetic Theory II (3,0)3
Electromagnetic induction; Faraday's and Lenz's laws; transformer and motional electromotive force; induction heating; transformer; displacement current; time-varying fields; Maxwell's equations; wave equations; time-harmonic fields; complex phasors; scalar and vector potential functions; plane waves in vacuum; plane waves in dielectrics and conductors; polarization; skin effect; electromagnetic energy and power; Poynting's theorem; reflection and refraction of plane waves at dielectric interfaces; Snell's laws; Fresnel formulas; critical angle; total internal reflection; total transmission; Brewster's angle; standing waves; transmission line theory; TEM waves; transmission line parameters; lossy and lossless lines; matching of transmission lines to their loads. Prerequisite: EE214
EE317 Signals and Systems (2,2)3
Discrete-time and continuous-time signals, convolution. Fourier series. Fourier and Laplace transforms. Discrete Fourier and Z-transforms. Linear, time-invariant systems: impulse response, system function. State-space representation and realisation of system functions. Frequency response of linear time-invariant systems, Bode plots. Application to filter analysis and design. Prerequisite: MATH201
ENGL301 Communication Skills-I (2,0)2
Mastering the phrasal verbs- may, should, must and will. Terms like say, tell, talk or speak, who, which or whose. Nouns, adjectives or adverbs. Asking politely, did, do, have done. Regrets with wish.
ECON305 Engineering Economics (3,0)3
Price theory. Demand. Supply. Equilibrium. Price. Elasticity. The money supply and the rate of interest. The banking system. The money multiplier. The quantity theory of money. Bonds and bills. National Income measurement. Circular flow of income. Inflation in detail. Monetarist theory. The balance of payments and exchange rates. Risk analysis and management. Reactive vs Proactive risk strategy. Software risks. Risk identification. Risk projection. Risk exposure. The theory of costs. Economic meaning of cost. Time scales. Total, average and marginal costs. Economies and diseconomies of scale. Short and long run costs. Short and long run profit maximization. Managerial theories. The firm and its industry. Firm relationships. Product characteristics of the industry. Barriers to entry and exit. Knowledge. International trade. Theory of comparative advantage. Reasons for international trade. Terms of trade. Protectionism. Economic integration. The neoclassical theory of the firm. The theory of perfect and imperfect competition.
MATH302 Numerical Methods (3,0)3
Preliminaries, the Solution of nonlinear equations, the Solution of linear systems, interpolation and polynomial approximation, numerical differentiation and integration. Curve fitting, numerical differentiation, numerical integration. Prerequisites: MATH201
EE304 Electromechanical Energy Conversion (2,2)3
Magnetic circuits, hysteresis, magnetic materials, transformers, equivalent circuits, DC generators, armature reaction, Commutation, efficiency. DC motors Synchronous machines. Induction motors. Speed control. Stepper motors.
EE312 Communication Engineering (2,2)3
Principles and theory of modulation techniques, Amplitude modulation, Frequency modulation and Phase modulation. Modulation and demodulation circuits. Single side band modulation and demodulation. Spectra of modulated signals. Power Spectral Density. Radio transmitters Radio receivers super hetrodyne receiver, characteristics choice of IF, image frequency rejection. AGC and AFC. Frequency division multiplexing. Auto correlation and cross correlation. Matched filter receiver.
EE322 Control Systems (3,0)3
Control Systems, Introduction and Linearized Dynamic Models, Transfer Function Models of Physical Systems, Modeling of Feedback Systems and Controllers, The Performance of Feedback Systems, Introduction to Feedback System Design, Frequency Response Analysis. Prerequisite: MATH201
ENGL302 Communication Skills-II (3,0)3
Conditionals, word building, gerund or infinitive, relative clauses, tenses, mixed tense forms, project report preparation, seminar presentation.
EE401 Microprocessor Systems (3,2)4
Overview of architecture, organization and instruction set of 8086 family processors. Minimum mode and maximum mode configurations. Pin outs and functional details of pins for minimum mode and maximum mode. Buffered 8086 systeem. Memory management concepts. I/O port peripheral interface devices. Interrupt interface. Assembly programming examples.
EE403 Data Communications (3,0)3
Discrete-time and continuous time signals, convolution. Fourier series and continuous spectra. Time and frequency relations. Transmission of signals through linear systems. Continuous wave modulation. Amplitude, phase and frequency modulation. Frequency division multiplexing system. Pulse modulation. Time division multiplexing. Digital encoding of analog waveforms. Pulse code modulation (PCM). Differential PCM. Delta modulation. Binary frequency shift keying and binary phase shift keying.
EE435 Engineering Research & Design (1,2)2
Engineering design problems are discussed in one hour lecture and engineering mini projects are carried out in 2 hours practical classes.
EE350 Summer Training (0,4)2
Each student should undergo training for a period of 6 active weeks in one of the industries or research institutes so as to gain hands on experience on a particular field.
EE402 Digital Signal Processing (3,2)4
Review of linear system theory. Analysis of discrete time filters. Z transform Digital filters. Realization structures for digital filter. Recursive and Non-recursive functions. Stability of digital filters. Design of low pass, high pass and band pass filters. Finite word length effects. Digital filters for random signals. Discrete Fourier transform, decimation in frequency and time. Fast Fourier Transform and 2-D filters. Prerequisite: EE317
EE404 Electronic Instrumentation (3,0)3
Transducers for converting industrial processes like temperature, pressure, flow and level to electrical signals, thermistor, thermocouple, RTD, strain gauge, Bourdon tube. Signal conditioners. Instrumentation Amplifier. Linearizer. I to V converter, V to I converter, I-to-P converter, P-to-I converter actuators, final control elements, control valves, P, I, D, PI and PID controllers. Voltage to time converter, Voltage to frequency converter, Digital volt-ampere-ohm meter, spectrum analyzer. Prerequisite: EE218
ENGL402 Technical Writing (3,0)3
An advanced course in English language aiming at increasing the students ability in writing, editing and organizing technical reports.
EE420 Graduation Project (0,6)3
This course is designed to bring together the knowledge and skills learnt in the major Electric Electronic course and the minor or further specialization options. The student, in consultation with the supervisor has to choose the topic for graduation project. Designing a computer-based control system with full documentation, or any other agreed project of a similar standard. Projects may be of an individual or group nature, but in the latter case individual contributions must be specified. Prerequisites: final year final semester standing.
Electives
EE301 Computer Organization (3,2)4
Basic structure of computer. Main memory organization, addressing methods and machine program sequencing. Subroutines. Interrupt concept. Memory stack utilization. Computer peripherals and work stations. Assembly language with examples from micro-processors. Detailed examination of addressing (inherent, immediate, direct, relative and indexed addressing), instruction execution (data and instruction fetching), data representation and program coding and debugging.
EE302 Computer Architecture (3,0)3
Basic structure of computer. Addressing methods and machine program sequencing. Design and implementation of basic computer. The processing unit. Micro-programmed control, input, output organization. Arithmetic in computers. The main memory. Computer peripherals and work stations. Micro-programming. Pipelining. Software. Microprocessors. RISC architectures. Computer communications. Performance of computer systems.
Prerequisite: EE301
EE311 Communication Systems (3,0)3
Review of probability and random variables. Random signals and noise. Stochastic processes. Correlation functions, stationary and ergodicity of stochastic processes. Power spectral density. Transmission of noise signals through linear systems. Thermal noise, white noise, SNR. Noise analysis and comparison of AM, FM and PM techniques. Base band digital transmission. Error probabilities. Matched filtering. Inter-symbol interference. Nyquist pulse shaping. Equalization; synchronization. ASK and QAM.
EE318 Antennas and propagation (3,0)3
Radiating elements. Theory of radiation. Propagation of EM waves. Ground waves and space waves. Structure of ionosphere. Layers. Duct propagation. Effect of magnetic fields on EM wave propagation . Effect of curvature of earth. Dipole antennas, Directive antennas, arrays, Yagi antenna, Log-periodic antenna, Rectangular and circular apertures, parabolic reflector, parabolic lens, corner reflectors, Horn radiators, Array antennas, pattern synthesis.
EE319 Industrial and Power Electronics I (3,0)3
Opto-electronic and electro-optic devices and their applications; power semiconductor devices and their characteristics; single-phase and three-phase AC-DC converters; AC voltage regulators; DC-DC converters, thyristor chopper circuits; switched-mode regulators; single-phase and three-phase PWM inverters; voltage control in inverters; forced-commutated thyristor inverters; resonant inverters and converters.
EE327 Introduction to Mobile Communications (3,0)3
Basic Telephony. Radio transmission and reception systems. The concept of channel. Evolution of cellular telephony. Analog and digital telephony communication. Multiple-access systems. Evolution of 2G and 3G systems.
EE336 Industrial and Power Electronics II (3,0)3
Stepper motors, drives for steppers, servo motors, synchros, Computerized control of steppers. Speed control of motors. Solenoid valves, control valves. Industrial instrumentation. Ultrasonics, flaw detection, high frequency heating, induction heating and dielectric heating.
EE409 High Voltage Engineering (3,0)3
Problems encountered in high voltage applications. Insulators, sag problem, high voltage materials, Corona discharge, transmission and distribution of electric power. High voltage applications.
EE419 Narrowband Wireless Communications (3,0)3
GSM specifications. GSM network and geographical network components. GSM frequency bands. Wireless concepts. Frequency, analog & digital transmission, solution to transmission problems. Digital communication via GSM. Multiple-access methods. Digital modulation techniques. Traffic cases. Network identities, MS, handover and SMS. Cell planning. Traffic & coverage analysis. Nominal planning. Surveys. Implementation and tuning. System developments. Future of GSM, 3G. Wimax Technology. Standards, narrowband applications, radio and operation of Wimax.
EE421 Radar Techniques (3,0)3
Pulse radar, Detection of range, range and angular resolution, Radar equation, Radar transmitter, Receiver, Detection theory, probability of false alarm and probability of detection. Radar cross section of targets, complex targets. Integration of radar pulses, CW radar, Doppler shift, FMCW Radar, FM altimeter, Multiple frequency CW Radar
EE422 Radar Systems (3,0)3
Moving Target Indicator, Delay line Canceller, Blind speeds, staggered PRF, Radar antennas, cassegrain antennas, Radomes, Tracking radars, Mono-pulse tracking, Conical Scan Radar, Electronic scanning, Ambiguity Function, Weather Radar.
EE423 Electrical Installations (3,0)3
Structure of an interconnected power systems; sources and techniques of generation of electrical energy. Generator types, specifications, controls, faults and protection. Transmission systems, high voltage and extra high voltage and DC. Inductance and capacitance in single phase and three-phase transmission lines. Ferranti effect and Corona Effect methods of reducing it. Underground cables, construction types. Faults in transmission lines, Protective relaying and switch gear. Substation layout, earthing, circuit breakers, transformer protection schema. Distribution systems, diversity factor, power factor correction. Domestic installations – lighting, air conditioning and other electrical appliances. Flexible AC transmission systems (FACTS) FACTS Controllers.
EE424 Optical and Satellite Communication (3,0)3
Principles of LASER, Optical fibres, wave propagation in optical fibres, modes, opto- electronic devices, Modulators, Detectors, electro optic devices, Applications of fibre optics in computer networking. Orbits, geo-stationery orbits, satellite architecture, transponders satellite constructional features, functional units up link and down link, communication satellites, remote sensing.
EE428 Mobile Communications (3,0)3
Cellular phones, cells, coverage, frequency allocation, base stations, call routing, antenna systems for mobile communications, architecture of the cell phone.
EE431 Principles of Image Processing (3,0)3
EE432 Non Linear Control Systems (3,0)3
Non linear differential equations, approximate analysis methods, describing functions, numerical solution techniques, singular perturbations, Lyapunov stability. Input-output stability, differential geometric methods, simulation of non linear control systems using op-amps. Computerised simulation.
EE434 Robotics (3,0)3
Kinematics and inverse kinematics of rigid bodies. Mathematical model of rigid body. Kinematic chain with active joints. Algorithmic calculation of equation of motion. Robotic arm, kinds of freedom, robotic arm with 7 kinds of freedom, control of robotic arm from microprocessor. Robot simulation in PC.
EE436 Power System Analysis (3,0)3
Introduction. Per unit quantities. Series impedance of transmission lines. Capacitance of transmission lines. Current and voltage relations on a transmission line. Short and medium-length lines. Long line differential equations and their interpretations. Travelling waves. Reflections. System modeling. Reactive power analysis.
COMP413 Software Engineering (3,0)3
Brings together ideas and skills learned in the previous courses. It includes methods for design, optimization, debugging, quality control and interfacing with users and with the computing environment. Much of this is centered on a large group project.
COMP414 System Software (3,0)3
Fundamental concepts of programming languages processors and operating systems. One and two pass assemblers. Macros. Symbol tables. Compilers. Parsing. Syntax and semantic phases. Optimization. Relocatable and link loaders. Operating systems.
COMP419 Introduction to Image Processing (3,0)3
Principles of signal processing and image processing, digitising, edge detection, histogram equalisation, pattern recognition, image analysis.
COMP434 Fuzzy logic and Neural Networks (3,0)3
Principles of fuzzy logic, modelling physical systems with fuzzy control, applications, concepts of neural networks, back propagation, training the systems, analysis.