Lecturer: Sofianos

Course description: Analytical geometry, Vectors, Conjugate numbers, Functions.

Differential and integral calculus, matrix theory.

Introduction to differential equations.

Objective of the course: The student to be familiar with the basics of mathematics.

Teaching method: Lecture

Prerequisites: It is a prerequisite of Mathematics II in 2 nd Semester.

Teaching aids: The book ‘Mathematics I’ by ‘Katopodis Ep., Makrigiannis Ar., Sassalos Sp.’

Examination method: Written examination

Lecturer: A. Zisos

Course description: Newton’s laws, static and dynamic of a rigid body, Lorentz’s transformations, thermodynamics and electromagnetics.

Objective of the course: The student to be familiar with the laws and basic concepts of thermodynamic and electromagnetic theory.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘Physics I’ by ‘A. Zisos’

Examination method: Written examination

Lecturer: A. Tziabasis

Course description: Basic elements of electrical circuits, Kirchhoff’s Laws, Thevenin and Norton theorems, DC and AC current, Electric energy of a capacitor and an inductor, electrical circuits.

Objective of the course: The student to be able to analyze and solve electrical circuits.

Teaching method: Lecture and Laboratory

Prerequisites: It is a prerequisite of Electrotechnology II of 2 nd Semester

Teaching aids: The book ‘Electrotechnology I’ by ‘A. Tziabasis’

Examination method: Written examination

Lecturer: Koutsogiorgis

Course description: Introduction to programming, logical diagrams, arithmetic systems, Boole’s algebra, Fortran elements.

Objective of the course: The student to be familiar with the basic concepts of computing and programming.

Teaching method: Lecture

Teaching aids: For theory, the books: - ‘Using Computers’ by ‘A.Atmatzidis, M.Glabethakis’

- ‘FORTRAN 77’ by ‘D.Kitagias, A.Atmatzidis’

• ‘Q.BASIC’ by ‘A.Atmatzidis’

For Laboratory, the book: - ‘PC/PS’ by ‘A.Atmatzidis’

Examination method: Written examination

Lecturer: A.Antoniou

Course description: Electromagnetic fields, Semiconductor theory, Diode theory, BJT transistors, FET transistors, MOSFET transistors, Thyristors, Thermistors, Photo-diodes and photo-transistors, LED and LASER, Varicap, Zener diode, Hall phenomenon.

Objective of the course: The student to be introduced to semiconductor theory and devices.

Teaching method: Lecture and Laboratory

Prerequisites: It is a prerequisite of Electronics II in 2 nd Semester

Teaching aids: The book ‘Electronics I’ by ‘A.Antoniou’

Bibliography:

Examination method: Written examination

Lecturer: C. Vatavalis

Course description: Elements of mechanical and electrical drawing.

Objective of the course: The student to understand the drawing basics.

Teaching method: Lecture and Laboratory in drawing room.

Examination method: Practical examination

Lecturer: Koptsa

Course description: English or French or Italian or Russian.

Introduction, terminology in Mathematics, Electronics, Electrotechnology.

Objective of the course: The student to learn terminology of various subjects.

Teaching method: Lecture and audio-visual Laboratory

Teaching aids: The book ‘Infotech English for computer user’ by ‘S.R.Esteras’ or

The book ‘La lingua italiana per stranieri’ by ‘Katerin Katerinov’

Examination method: Written examination

Lecturer: K. Kostakis

Course description: Differential equations, series, multiple integrals, vector analysis.

Objective of the course: The student can handle mathematical methods which can be used for facing engineering problems.

Teaching method: Lecture

Prerequisites: It has Mathematics I in 1 st Semeter as a prerequisite

Teaching aids: The book ‘Mathematics II’ by ‘D.Dimitrakoudis, N.Kouris, M.Labiris, D.Palamourdas’

Examination method: Written examination

Lecturer: S. Koutroubas

Course description: Quantum physics, COMPTON phenomenon, Bohr’s and Sommerfeld’s atom, X-rays, Laser, Electron’s movement in electric and magnetic fields.

Elements on Optics, Gas conductivity, conductivity of solids, nuclear energy.

Objective of the course: The student to be familiar with some topics in Physics.

Teaching method: Lecture and Laboratory

Teaching aids: For laboratory, the book ‘Laboratory of Physics II’ by ‘G.Moustakakis, P.Skou’

Examination method: Written examination

Lecturer: P. Drossinopoulos

Course description: Time response of electrical circuits, frequency response, Oscillators RC, LC, crystal, Passive filters, Active filters.

Objective of the course: The student to be able to handle basic electrical circuits.

Teaching method: Lecture and Laboratory

Prerequisites: It has Electrotechnology I in 1 st Semester as a prerequisite

Student notes: Notes by Dr. Iraklis Dimopoulos

Examination method: Written examination

Lecturer: A. Atmatzidis

Course description: The programming language BASIC

Objective of the course: The student to be able to handle BASIC as a programming language.

Teaching method: Lecture and Laboratory

Examination method: Written examination

Lecturer: A. Antoniou

Course description: Basic theory of transistors, amplifiers, power mplifiers, frequency response, video amplifiers, feedback, power supplies.

Objective of the course: The student to be familiar with transistor basics.

Teaching method: Lecture and Laboratory

Prerequisites: It has Electronics I in 1 st Semester as a prerequisite

Teaching aids: The book ‘Electronics II’ by ‘A.Antoniou’

Examination method: Written examination

Lecturer: C. Vatavalis

Course description: Drawing of printed circuit boards

Objective of the course: The student to learn how to draw, with specific tools, printed circuit boards.

Teaching method: Lecture and Laboratory

Examination method: Written examination

Lecturer: Koptsa

Course description: Technical Terminology.

Objective of the course: The student to learn technical terminology.

Teaching method: Lecture and audio-visual Laboratory

Teaching aids: The same books as in 1 st Semester

Examination method: Written examination

Lecturer: L. Vrizidis, Sofianos

Course description: Linear systems, Non linear systems, Polynomial interpolation and approximation, approximation by trigonometry, least square method, differential coefficients, numerical methods, numerical solution of differential equations, Laplace and Fourier transforms, Probabilities, statistics.

Objective of the course: The student to be familiar with methods of facing and solving engineering problems.

Teaching method: Lecture

Prerequisites: It is a prerequisite of Digital Signal Processing in 5 th Semester

Teaching aids: The books: - ‘Mathematics III’ by ‘A.Alexandropoulos, L.Vrizidis’

- ‘Principles of Numerical Analysis’ by ‘A.Alexandropoulos, A.Paliatsos,G.Sofianos’

Examination method: Written examination

Lecturer: A.Tsakiris

Course description: Dielectric and magnetic materials, Electromagnetic theory, Magnetic circuits, Transformers, Motors, Multiphase circuits, power.

Objective of the course: The student to be familiar with transformers.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘Electrotechnology III’ by ‘A.Tsakiris’

Examination method: Written examination

Lecturer: A.Atmatzidis

Course description: The programming language PASCAL

Objective of the course: The student to learn how to make programs in PASCAL.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘Turbo Pascal’ by ‘A.Atmatzidis’ or ‘Turbo C’ by ‘A.Atmatzidis, M.Glabethakis’

Examination method: Written examination

Lecturer: P. Kouros

Course description: Integrated circuits and construction technology, analog IC’s, operational amplifiers and circuits, digital IC’s, TTL, CMOS, ECL, HTL, Flip-Flop, counters, registers, switching regulators, regulators.

Objective of the course: The student to be introduced in microelectronic circuits.

Teaching method: Lecture and Laboratory

Prerequisites: It is a prerequisite for Microelectronics II in 4 th Semester

Teaching aids: The book ‘Microelectronics’ by ‘Millman, Grabel’

Examination method: Written examination

Lecturer: Prokou

Course description: Introduction to the form of a company, internal organization, structure and planning of a company, organization of labour.

Objective of the course: The student is introduced to business administration.

Teaching method: Lecture

Teaching aids: The book ‘Modern Business Management’ by ‘C.Floros’

Examination method: Written examination

Lecturer: A.Tsatsaros

Course description: Technical terminology.

Objective of the course: The student learns technical terminology.

Teaching method: Lecture and audio-video Laboratory

Teaching aids: The book ‘Oxford English for computing’ by ‘Keith Boeckner, Charles Brown’

Examination method: Written examination

Lecturer: A. Kossidas

Course description: Programming with Assembly language.

Objective of the course: The student using a simulator of an 8-bit microprocessor is getting familiar with assembly programming.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘Symbolic languages and Architecture of microprocessors’ by ‘A.Kossidas, M.Ragousi, S.Matiatos’

Examination method: Written examination

Lecturer: P. Kouros

Course description: MSI and LSI integrated circuits, memories ROM-EPROM-EEPROM-RAM, static and dynamic, Charged Coupled Devices (CCD), VCO, switching capacitors, VLSI integrated circuits.

Objective of the course: The student to be familiar with circuits and devices used in microcomputer systems.

Teaching method: Lecture and Laboratory

Prerequisites: It has Microelectronics I as a prerequisite in 3 rd Semester

Teaching aids:

Examination method: Written examination

Lecturer: A. Kossidas

Course description: Circuit design using PLA’s, Combinational circuits, Sequential circuits, Programming logic devices.

Objective of the course: The student to be introduced in digital systems.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘Design of digital systems’ by ‘A.Kossidas, P.Cheliotis’

Examination method: Written examination

Lecturer: A. Polatos

Course description: Introduction to control systems, LAPLACE transforms, transfer functions of basic control systems, Flow diagrams, time response, matrices in control systems, BODE and NYQUIST diagrams, Root loci diagrams, correction circuits, variable state space, non linear systems.

Objective of the course: The student is introduced in control systems theory and is trained in analyzing and solving basic control systems by considering several methods.

Teaching method: Lecture and Laboratory

Prerequisites: It is a prerequisite of Digital Control Systems in 6 th Semester

Teaching aids: The books: - ‘Introduction in Automatic control’ by ‘P.N.Paraskevopoulos’

- ‘Systems identification and adaptive control’ by ‘P.N.Paraskevopoulos’

Examination method: Written examination

Lecturer: V. Pissas

Course description: Introduction to measurements and error theory, basic instrumentation of current-voltage-resistance-frequency-phase-electric energy-power, spectrum analyzers, methods of measuring non electrical quantities as displacement, velocity, acceleration, temperature.

Objective of the course: The student is learning the basic instruments for measuring electrical quantities and the error theory.

Teaching method: Lecture and Laboratory

Examination method: Written examination

Lecturer: A.Tsatsaros

Course description: Technical terminology

Objective of the course: The student to learn the technical terminology.

Teaching method: Lecture and audio-video Laboratory

Teaching aids: The same book as in 3 rd Semester

Examination method: Written examination

Lecturer: 1) Papakitsos

2) Koinis

3) A.Atmatzidis

Course description: 1. Principles of solid state materials, liquid crystals.

2. Programming language COBOL and programming techniques.

3. Programming language FORTH and programming techniques.

Objective of the course: The student is familiarized with solid state Physics and materials, especially with liquid crystals.

The other course gives the student the ability to learn programming with COBOL or FORTH.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘TURBO C’ by ‘A.Atmatzidis, M.Glabedakis’

Examination method: Written examination

Lecturer: I. Ellinas

Course description: Microprocessor architecture, machine language, input/output interfacing circuits, input/output techniques, timing diagrams of a microprocessor, interrupts, design with microprocessors, parallel processing techniques.

Objective of the course: The student to learn the architecture of a microprocessor, timing diagrams, its connection with other interfacing circuits and programming with machine language.

Teaching method: Lecture and Laboratory

Prerequisites: It is a prerequisite of Robotics in 6 th Semester

Teaching aids: The book ‘Hardware-Software of microcomputers’ by ‘K.Z.Pekmetzi’

Student notes: Notes for microprocessors INTEL 8085 and ZILOG Z80

Examination method: Written examination

Lecturer: S. Alatsathianos

Course description: The family of 6502 and 6800 microprocessors, design and operational characteristics, instruction set, interfacing.

Objective of the course: The student to learn the basic 8-bit microprocessors, their characteristics, architecture, instruction set and interfacing.

Teaching method: Lecture and Laboratory

Prerequisites: It is a prerequisite of Microcomputer development systems in 6 th Semester.

Teaching aids: The book ‘The book of 6502’ by ‘Garidis, Ikonomou, Pasouris’

Examination method: Written examination

Lecturer: S. Levedis

Course description: Peripheral devices in computers, interfacing, keyboards, displays, printers, teletypes, A/D and D/A converters, Floppy and hard disks, Tape streamers, CD-ROM, theory of monochrome/color video display, digitizers, light-pens, plotters.

Objective of the course: The student becomes familiar with the computer peripheral devices, the principles of their operation and the ways of interfacing them

Teaching method: Lecture and Laboratory

Teaching aids: Notes on Peripheral Devices

Examination method: Written examination

Lecturer: A. Veloni

Course description: Introduction to digital signal processing, Conversion of analog signal to digital and vice-versa, Z transforms and examples in digital signal processing, discrete Fourier transform, FFT, digital filters and design, convolution, correlation, speech synthesis, speech recognition, identification of patterns.

Objective of the course: The student becomes familiar with digital signal processing, the basic tools of signal processing and the principles of digital filters designing methods.

Teaching method: Lecture and Laboratory

Prerequisites: It has Mathematics III in 3 rd Semester as a prerequisite

Teaching aids: Notes on Digital Signal Processing

Examination method: Written examination

Lecturer: C. Vasilopoulos (Part time Lecturer)

Course description: Introduction, cables, optical fibers, modulation techniques AM, FM, PAM, PWM, PCM, DELTA, FDM systems, PCM systems, principles of telephony.

Objective of the course: The student becomes familiar with the modulation techniques (analog and digital), the means of propagation.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘Telecommunication Systems’ by ‘Taub and Schilling’

Student notes: Notes on Telecommunications

Examination method: Written examination

Lecturer: G. Dilidas (Part time Lecturer)

Course description: Introduction, principles of operating systems development and designing, monitor programs for microcomputers, operating system CP/M, operating system MS-DOS, UNIX, other operating systems.

Objective of the course: The student learns the basic operating systems.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘Modern Operating Systems’ by ‘A.S.Tanenbaum’

Examination method: Written examination

Lecturer: Chini

Course description: Technical terminology

Objective of the course: The student learns the technical terminology relative to the objective of the Department.

Teaching method: Lecture

Examination method: Written examination

Lecturer: I. Ellinas

Course description: Basic principles of designing microcomputer systems, special tools for maintenance (simulators, emulators, logic analyzers, signature analyzers etc), principles of their operation.

Objective of the course: The student learns from a practical point of view to design microcomputer systems, to use instruments for fault finding.

Teaching method: Lecture and some Laboratory hours

Teaching aids: Notes on designing a microcomputer system and its peripherals, instrumentation.

Examination method: Written examination

Lecturer: A. Polatos

Course description: Introduction to digital control systems, flow diagrams, state variable techniques, stability, time response, frequency response, controllability and observability, digital state observer, Kalman filter, microprocessor control, designing of digital control systems.

Objective of the course: The student becomes familiar with digital control systems, the principles of operation, analysis and designing techniques.

Teaching method: Lecture and Laboratory

Prerequisites: It has Control Systems in 4 th Semester as a prerequisite

Teaching aids: The book ‘Automatic Control Systems’ by A. Veloni

Examination method: Written examination

Lecturer: A. Polatos

Course description: Introduction in Robotics, microrobotic systems, analysis of the mechanical part (arms with 5 and six degrees of freedom), positional control, velocity and acceleration of an arm, microcontroller control, programming a robot, speech synthesis, sensors in robots (distance, orientation, temperature, vision, etc), artificial intelligence.

Objective of the course: The student becomes familiar with the principles of operation of a robot, the way of programming the movement of an arm and the sensors used in robotics.

Teaching method: Lecture and Laboratory

Prerequisites: It has Microprocessors in 5 th Semester as a prerequisite

Teaching aids: Notes on Robotics

Examination method: Written examination

Lecturer: A. Polatos

Course description: Introduction in CAD/CAM systems, digital equivalent of an analog system, principles of digital simulation of an analog system in a microcomputer, system’s design with computer, using CAD/CAM systems in various applications, CNC systems with CAD/CAM.

Objective of the course: The student becomes familiar with CAD/CAM systems.

Teaching method: Lecture and Laboratory

Teaching aids: Notes

Examination method: Written examination

Lecturer: S. Alatsathianos

Course description: Principles of microcomputer systems, software and hardware tools for microcomputer development, emulators.

Objective of the course: The student learns how to develop programs in microcomputer systems using some software and hardware tools.

Teaching method: Lecture and Laboratory

Prerequisites: It has Family of Microprocessors in 5 th Semester as a prerequisite

Teaching aids: Notes

Examination method: Written examination

Lecturer: C. Vasilopoulos (Part time Lecturer)

Course description: Introduction in digital communications, communication protocols, signal conversion, CODEC’s, principles of telephony, propagation of digital signals through telephone cables, satellite communications.

Objective of the course: The student becomes familiar with principles of digital communication and computers communication.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘Telecommunications and Computer networks’ by ‘A.Alexopoulos, G.Lagogiannis’

Examination method: Written examination

Lecturer: C. Tabourakis (Part time Lecturer)

Course description: Principles of the microprocessors 80x86 and 68000, architecture, timing diagrams, instruction set, machine language programming.

Objective of the course: The student learns the microprocessors 80x86 and 68000.

Teaching method: Lecture and Laboratory

Teaching aids: The book ‘80x86 Architectural design and programming’ by ‘K.Z.Dimopoulos, D.S.Paraskevopoulos’

Examination method: Written examination

Lecturer: S. Levedis

Course description: Modems for data transmission, floppy and hard disks, magnetic tape streamers, other peripheral devices.

Objective of the course: The student becomes familiar with various computer peripheral devices and their operation principles.

Teaching method: Lecture and Laboratory

Teaching aids: Notes

Examination method: Written examination

Lecturer: S. Levedis

Course description: Computer networks, topologies of networks, principles of operation and applications of them.

Objective of the course: The student becomes familiar with the operation of various computer network topologies.

Teaching method: Lecture and some hours of Laboratory.

Teaching aids: Notes

Examination method: Written examination