Courses Contents

COMPUTER PROGRAMMING
Course: 56
Laboratory: 42
Introduction. Programming languages. Algorithms. Basic elements of Pascal language. Data and expression: identifiers; literals and constants, data the integer, real Boolean and char types, program construction. Decision and repetitions; the IF and CASE statements; the WHILE, REPEAT and FOR statement. Variable types: scalars, subranges, sets. Structured types: arrays, records. Files: sequential files; test files. Dynamic data structures: pointers, linked lists, trees. Basic elements of C language.
ELECTRICITY
Course: 28
Laboratory: 28
Electrostatics: Coulomb law, electric field, electrical charge, Gauss theorem, electric voltage, capacity, condensers. Electrokynetics: electric current, electrical resistance, DC measuring devices, Kirchhoff theorems, ammeters and voltmeters, Wheatstone bridge, ohmmeters, RC series circuit. Magnetic field: electromagnetic forces, magnetic field of a moving charge, Biot's law. Electromagnetic induction: electromagnetic induction law, mutual inductance, RL, RC and RLC circuits. Magnetic properties of materials. Alternative current: AC circuits, power measurements in AC , transformer. Electromagnetic waves.
PROGRAMMING TECHNIQUES
Course: 42
Laboratory: 42
Design techniques. Top-down and bottom-up. Structured programming. Direct and indirect recursion. Data structures: graphs, binary trees, stacks, lists. Sorting, searching, merging, recursion. General programming methods: backtracking, greedy, branch and bound, divide et impera, dynamic programming; examples. Sets generation: Cartesian product; subsets, permutations, combinations, arrangements and partitions, examples. String management.
MECHANICS
Course: 42
Laboratory: 14
An overview of mechanical engineering problems: from concept to design and prototype; solution design and testing; static compliance; cinematic and dynamic simulation; structural analysis; design and mechanical system simulation; the role of computational methods in modern mechanical engineering. Static problems: mechanical models, a parallel with geometric models; area and center gravity problems; determining static parameters for a given mechanical structure. Cinematic problems: kinematics of the point and the rigid body mechanisms; links and structural analysis; cinematic analysis of 2D and 3D mechanisms. the kinematics in complex mechanical systems; computer analysis of complex mechanical systems in motion. Dynamic problems: the dynamics of 2D and 3D mechanisms. the Newton-Euler formulation; the Euler Lagrange formulation; robot modelling and simulation.
INTRODUCTION TO ELECTRONICS
Course: 28
Laboratory: 28
Resistors: Definitions, parameters, applications. Capacitors: definition, parameters, applications. Inductance: definitions, parameters, analysis, design. Electrical transformers (definitions, parameters, types of magnetic cores, principles of design, heating). Basic circuits with passive elements (RLC circuits, coupled circuits, electrical filters). Switches and connectors. Relays. Technologies for semiconductor based devices. Printed circuits. Quality and reliability of electronic components. Noise sources and methods of shielding.
SPECIAL CHAPTERS OF MATHEMATICS
Course: 42
Laboratory: 28
Complex analysis. Fourier analysis: series, Fourier's integral, Fourier transformations; Operational calculus: the analytic and the discrete Laplace transformation, Dirac's distribution; Systems of differential equations. Calculus with differences; Equations with partial derivatives of first order: linear and non-linear equations. Mathematical physics. Special functions: Bessel functions, special polynomials.
MATERIALS FOR ELECTRONICS
Course: 42
Laboratory: 14
Inertial nature of substance and properties of materials. Materials with low and high conductibility. Dielectric materials. Ferromagnetic materials. Ferrimagnetic materials. Combined properties materials. Semiconductors, magnetostrictive and piezoelectric materials.
ANALYSIS AND SYNTHESIS OF DIGITAL DEVICES
Course: 56
Laboratory: 28
Introduction: objects, systems, states, finite state systems. General methods of logic design.
Information representation in digital computers. Boolean algebra. Boolean functions and expressions; minterms/maxterms, XOR, NOR, NAND properties; Boolean expressions. Post-Jablonski theorem; Shannon's theorem. canonical forms. Minimisation of Boolean functions; Qiune-Mc Cluskey algorithm. Karnaugh-Veitch representation. Functional decomposition. Special classes of Boolean functions. Combinational logic design. Modular design: universal logic modules (ULM). Programmable cellular arrays. Sequential machines and circuits. Moore/Mealy models. Sequential circuits synthesis. Experiments on sequential machines. Design of digital systems. synthesis of ASM charts, asynchronous ASMs.
ELECTRONIC DEVICES AND CIRCUITS
Course: 112
Laboratory: 84
Electrical conduction in semiconductors. The pn junction: characteristic, small-signal model, big -signal model, diodes, diodes circuits. Metal- semiconductor contact. The junction transistors: characteristics, transistor biasing end stabilisation, the Ebers-Moll model, the small-signal model, the cut-off frequency. The junctions field effect transistors the: the physic structure, the big-signal and small-signal models the JFET amplifiers. The MOSFET transistors: the MOS capacitor, the physic structure, the big-signal and small-signal models. Switching in the electronic devices. The multijonctions devices: the pnpn diodes, silicon thyistors,optoelectronic devices. The electronic noise. The small-signal amplifiers: the common-emitter, the common-base and common-collector, the common-source, common-gate and common-drain amplifiers, the CC-EC, the CC-CC, the cascode, the CC-BC amplifiers, the bootstrap circuits, the field-effect transistors amplifiers. The negative feedback. The operational amplifiers: parameters, elementary applications.
SIGNALS, CIRCUITS AND SYSTEMS
Course: 56
Laboratory: 28
The notion of signal. Formalisation of the notion of signal. Continuous-time and discrete-time signals. Sampled signals. Periodic and harmonic signals. Sampling and interpolation. Conversions. Binary operations. Signal spaces. Signal norms. Normed spaces and inner products. Signal recognition. Signal expansion and Fourier series. Orthogonal bases expansion. Harmonic bases. Continuous and discrete Fourier expansions and transforms. One-sided transforms (Laplace and Z). Properties. Applications. Convolution. Fourier and Laplace transforms of convolutions. Signal processing applications. Sampling and WKS theorem. Filtering. Fast Fourier Transform.
MEASUREMENT TECHNIQUES
Course: 28
Laboratory: 28
Language of electrical measurements (accuracy , precision, resolution, sensitivity). Experimental data and errors. Electromechanical Indicating Instruments. Analogue AC and DC Meters (voltmeters and ammeters). Digital Electronic Meters. Oscilloscopes (construction, principles, measurement techniques, special oscilloscopes). Measurement techniques of basic parameters: resistance, capacitance, inductance (ohmmeters, DC and AC bridges). Frequency and phase measurement.
ANALOGUE ELECTRONIC CIRCUITS
Course: 56
Laboratory: 42
Structure of analogue electronic circuits: DC sources, voltage references, amplifiers stage with coupled transistors, output stages. Operational amplifiers (OA): general principles, linear application with OA, non-linear applications with OA, internal structure of OA, other types of integrated amplifiers, voltage comparators, active filters and switch capacitors circuits. Voltage regulators. Power amplifiers. Integrated function generators. Timing circuits and applications.
DIGITAL INTEGRATED CIRCUITS
Course: 42
Laboratory: 28
Logic gate structures using saturated transistor switches. Diodes and bipolar transistors as switches. Basic Transistor Transistor Logic (TTL) Gate. Saturation control and means of improving switching speed. Schottky TTL Series: 54/74S , 54/74LS , 54/74AS , 54/74ALS and 74F. Trigger Schmitt input, open collector and tri-state output gates. Integrated Injection Logic (IIL) gates. Non saturating bipolar transistor logic gates. Basic Emitter Coupled Logic (ECL) gate. ECL series: 10K, 100K. ECL for LSI and VLSI structures. MOSFETs as switches and loads. NMOS logic gates. CMOS logic gates. CMOS series: CD4000(54/74C) , 54/74HC(T) , 54/74/AC(T). Transmission gates , open drain and tri-state output gates. Bipolar CMOS gates (BiCMOS). Charge coupled devices(CCD) structures. Interfacing of Logic Families. Multivibrators and flip-flops ; Monostable multivibrators. Bistable circuits. Flip-flops using logic gates: D latch and D edge-triggered flip-flop. Memories and logic arrays; Read Only Memories(ROMs): PROM , EPROM, EEPROM cells and circuits ; access cycles. Random Access Memories (RAMs). Static RAM cells. Static RAM types, structures and cycles. Dynamic RAM cells. Dynamic RAM types, structures and cycles. Programmable Array Logic (PALs). Noise in systems using digital integrated circuits: Noise sources. Shielding, grounding and decoupling. Transmission lines, ringing and line termination. Electromagnetic compatibility (EMC) in digital systems.
FUNDAMENTALS OF DATA TRANSMISSION
 Course: 98
Laboratory: 56
Systems of transmissions: principle, terminology, the model of communication systems. Discrete sources, discrete channels, optical channels. Transmission in base band: analogue transmission, digital transmission, synchronises methods. Transmission with harmonious carrier: amplitude modulation, frequency modulation, phase modulation. The recovery of carrier signal-frequency and phase. Pulses modulation. The data set. Errors detection and corrections techniques. Channels commutation, packet switching: communications links protocols. Industrial networks; OSI model. MAPWAY and TELWAY networks.
DATA CONVERSION AND ACQUISITION
Course: 42
Laboratory: 28
Electronic switches. Amplifiers. Sample and hold amplifiers. Digital to analogue converters. Analogue to digital converters. Voltage to frequency analogue to digital converters. Data acquisition modules. Data acquisition systems: conditioning, construction types. Data acquisition systems based on programmable instrumentation. Interfaces for data acquisition systems. Data acquisition systems for digital quantities. Programming languages for data acquisition systems.
POWER ELECTRONIC CIRCUITS
Course: 42
Laboratory: 28
Introduction and definitions. Power devices: diodes, bipolar junction transistors, MOSFET transistors, thyristor,gate turn off, IGBT, FCTh, MCT. Circuits: Diode circuits and rectifiers, with R, C, RC, RLC load, single phase half-wave rectifiers, single-phase full-wave, three-phase rectifiers, controlled rectifiers, single-phase converters, three-phase half-way converters, AC voltage controllers: single-phase and three-phase controllers, cycloconverters, DC-DC converters: step-down, book, boost. Inverters: single-phase, single-phase bridge, three-phase with two and three devices in conduction, voltage control of single-phase inverters, harmonic reduction, resonant pulse converters, serial, parallel, class E, zero current switching resonant converters.
MICROPROCESSORS (II)
Course: 42
Laboratory: 14
8 bit Microcontrollers.MCS51 Family (Intel): architecture, I/O system configuration ; addressing modes and instruction set. High performance derivatives (8051 kernel): processing facilities, compare and capture, PWM, A/D conversion, I2C bus. 68HC11 microcontroller (Motorola): architecture, on chip peripherals, SPI ; addressing modes and instruction set. 16 bit Microcontrollers. MCS-96 Family (Intel): CPU operation , registers, memory space; I/O system, interrupt system , HSIO subsystem; addressing and instruction set. MCS-96 compatible upgrades. 68HC16 microcontroller (Motorola): architectural overview, addressing modes and instruction set of CPU16 ; software debugging facilities, DSP facilities. 32 bit Microcontrollers 68300 Family (Motorola: family structure, processor architecture (CPU32) , memory space, peripherals , brief review of addressing modes and instruction set. Electromagnetic compatibility (EMC) in designing with CMOS microcontrollers
AUTOMATED CONTROL
Course: 42
Laboratory: 42
Automated control systems. Mathematical models and process identification. Analysis and design of conventional control systems. Analysis and design of digital control systems. Non-linear and adaptive systems. Conventional control equipment. Digital control systems with microprocessors.
ELECTRONIC CIRCUITS FOR COMMUNICATIONS
Course: 42
Laboratory: 28
PLL Circuits. Principles. BE665 circuit and applications. Special circuits for communication. CVSD. Interface circuits. Implementation principles for digital communications. TASI. Echo suppression. Codes for TV signals.
SENSORS AND INSTRUMENTATION
Course: 42
Laboratory: 28
Classification of transducers and sensors. Strain measurement: resistive strain gauges. Displacement measurement: Linear Variable Differential Transformers, Incremental Encoders, Inductosyns and Resolvers. Fluid-Property transducers: pressure and flow rate Temperature measurement (RTD's, thermocouples, semiconductor sensors). Light and radiation transducers.
TELEVISION
Course: 42
Laboratory: 28
The course deals in a logical chain with the black and white and colour television systems, running by the three colour TV basic systems (NTSC, PAL and SECAM) , the video receiver and player devices , the block of a colour TV receiver as well as any aspects concerning the video signal processing and the TV reception by satellite.
ELECTRONIC DRIVES
Course: 42
Laboratory: 42
Power semiconductor elements: thyristors, bipolar power transistors, field effect transistors, power loses in power semiconductor elements, testing of elements, protection (short circuit, overload). Static power converters: rectifiers, DC variators, cycloconverters, inverters. Electric driving system using static converters.
PERSONAL COMPUTERS
Course: 42
Laboratory: 28
Structure of personal computers IBM PC-XT: Motherboard: coprocessor, memory, interrupts system, DMA, real time clock, keyboard interface. I/O devices and interfaces: display interface (CGA), floppy disk organisation, serial and parallel interface. Multi-user and multitasking systems. Advanced microprocessor systems: pipe-line structure, cache memory, the 80386 microprocessor: protected mode, memory, tasks. Structure of IBM PC-AT computers: motherboard, expanded memory, extended memory, shadow memory, interleave, interrupts, DMA, ISA bus.
OPTOELECTRONICS
Courses: 28
Laboratory: 14
Light sources; light energy, radiometry, stimulated and spontaneous emission. LED's, Laser diodes. Display devices: optical parameters, principles , hybrid displays, monolithic displays, liquid crystals displays, display drivers. Cuantic Detectors. Optical Fibres: introduction, birefringence, optical coupling between light sources and optical fibber. passive optical sensors: classification, optical sensor with intensity modulation, sensors with phase modulation, sensors with polarisation modulation. Schemes for LED's and laser diodes control in telecommunications: optical power control, laser diodes in direct current. Pulse control circuit for laser diodes.
DESIGN OF ELECTRONIC MEASUREMENTS STRUCTURES
Course: 28
Laboratory: 28
Design of data acquisition systems: structure, data acquisition plug-in boards, programmable instrumentation and instrumentation buses. Design of analog signal conditioning modules for various electrical sensors interfacing: instrumentation amplifiers, isolation amplifiers, filters etc.. Design of analogue to digital conversion (ADC) modules: ADC selection. Design of an intelligent controller for a data acquisition system: system configuration, ADC interfacing, digital I/O, communication interface.
ARTIFICIAL NEURAL NETWORKS
Course: 28
Laboratory: 28
Introduction. Neuron Model and Network Architecture. Perceptron. Feedforward Neural Networks. Hopfield Networks. Kohonen Networks. Boltzmann machine. Counter propagation. Neural Networks. Neocognition. Hammimg Networks. Learning rules. Backpropagation. Hebbian Learning Rules. Instar learning. Outstar learning. Competitive learning. Application. Control system. Pattern recognition. Implementations.
DIGITAL IMAGE PROCESSING
Course: 42
Laboratory: 28
Artificial vision: Applications. Digital images. Quantisation-sampling. Electronic devices for image acquisition (CCD, CID cameras, sensors with photo diodes, 3D range finders sensors). Models for digital image. Pre-processing and segmentation of images. Orthogonal, sinusoidal, non-sinusoidal transformations. Frequency filtering. Spatial filtering. Correction of image geometry. Description , classification and pattern recognition, decisions. Methods and algorithms for pattern recognition. Artificial 3D vision. Stereo vision. Methods and algorithms. Hardware for image processing. Examples of artificial vision systems (acquisition and processing) and their applications.
PROCESS COMPUTERS
Course: 28
Laboratory: 28
General organisation of digital computers.: von Neumann principles and structure. The structure of a computer process control system. The information in digital computers. Elements of computer arithmetic: fixed and floating point arithmetic operations, Control units and class of instructions; the general structure and functioning of an elementary processor; memory addressing modes. I/O systems for digital computers. The structure of an I/O system with programmed transfer; interrupts. DMA. I/O systems for process control computers. Peripheral equipment for digital computers; videoterminals, printers, disks.
INDUSTRIAL ROBOTS
Course: 28
Laboratory: 28
Structure and specification of robots. Articulated mechanical systems. Characterisation and use of models. Position control of articulated robots. Learning and trajectory generation-path control. Servocontrolled industrial robots. Actuators and actuator control-pneumatic and hydraulic actuators, DC and stepper motors. Robot sensors and sensing. Positioning control of articulated robot. Dynamic control. Equations of motion. Speed control of articulated robot. Controllability and observability. Task and performance. Computer control. Computational architecture's. Robot programming languages. Industrial applications.
TESTING SYSTEMS
Course: 28
Laboratory: 28
Physical failures and fault models. Boolean differential calculus: the partial derivative. series expansions of a Boolean function. the total differential and total variation. Fault detection in combinational circuits. test generation by Boolean derivative. Analysis of multiple faults in combinational circuits. D-calculus and D-algorithm. Poage method. Sequential machine fault detection. homing sequence, synchronising sequence and experiment initialisation. distinguishing sequence and state identification. Poage McCluskey method. Testing tools: logic analysers; signature analysers.
RELIABILITY OF ELECTRONIC COMPONENTS
Course: 28
Laboratory: 28
Mathematical methods for reliability evaluation: probability and mathematical statistics applied in reliability. Computing methods of systems reliability. Maintainability and availability of systems.

Curricula

Year 1 

Nr.                  Discipline name                    Code      Level   Sem       Weekly          Overall        Assessment   Credits  
                                                                                  structure        structure                   allocated 
                 COMPULSORY  DISCIPLINES                            C      S      C    S    LP     C    S    LP                          
 1   Linear Algebra (MA)                               MA1101C      I      1      3    2     0    42    28    0        E           5     
 2   Mathematical Analysis I (MA)                      MA1102C      I      1      3    3     0    42    42    0        E           6     
 3   Technical Drawing (ME)                            ME1103C      I      1      2    0     2    28    0    28       AWM          4     
 4   Computer Programming (CS)                         CS1104C      I      1      4    1     2    56    14   28        E           7     
 5   Electricity (EE)                                  EE1105C      I      1      2    0     2    28    0    28        E           4     
 6   English  Language (FL)                            FL1106C      I      1      0    2     0     0    28    0       AWM          2     
 7   Sports                                                         I      1      0    2     0     0    28    0       AWM          2     
                                    TOTAL semester 1                             14    10    6    196  140   84                   30     
 8   Mathematical Analysis II (MA)                     MA1208C      I      2      3    2     0    42    28    0        E           5     
 9   Differential Equations (MA)                       MA1209C      I      2      2    2     0    28    28    0        E           3     
 10  Physics I (PH)                                    PH1210C      I      2      3    0     1    42    0    14        E           4     
 11  Mechanics (ME)                                    ME1211C      I      2      3    0     1    42    0    14        E           4     
 12  Programming Techniques (CS)                       CS1212C      I      2      3    0     3    42    0    42        E           5     
 13  Introduction to Electronics (EI)                  EI1213C      I      2      2    0     2    28    0    28       AWM          3     
 14  English  Language (FL)                            FL1214C      I      2      0    2     0     0    28    0       AWM          2     
 15  Sports                                                         I      2      0    2     0     0    28    0       AWM          2     
 16  Practice (CS)                                     CS1216C      I      2      0    0     4     0    0    56       AWM          2     
                                    TOTAL semester 2                             16    8    11    224  112   154                  30     
                                       TOTAL level I                             30    18   17    420  252   238                  60
Year 2 
Nr.                 Discipline name                   Code      Level   Sem      Weekly        Overall            Assessment   Credits    
                                                                                structure      structure                       allocated  
                COMPULSORY  DISCIPLINES                           C      S      C     S    LP    C     S    LP                            
 17  Numerical Computation ( MA)                     MA2317C     II      3      3     1    1    42    14    14         E           5      
 18  Fundamental of Electrical Engineering I (EE)    EE2318C     II      3      4     2    0    56    28     0         E           5      
 19  Physics II (PH)                                 PH2319C     II      3      3     0    1    42     0    14         E           5      
 20  Specific Topics of Higher Mathematics  (MA)     MA2320C     II      3      3     2    0    42    28     0         E           5      
 21  Programming Techniques (CS)                     CS2321C     II      3      2     0    2    28     0    28        AWM          4      
 22  Materials for Electronics (EI)                  EI2322C     II      3      3     0    1    42     0    14         E           4      
 23  Sports                                                      II      3      0     2    0     0    28     0        AWM          2      
                                  TOTAL semester I                             18     7    5    252   98    70                     30     
 24  Analysis and Design of Digital Devices (AC)     AC2424C     II      4      4     1    1    56    14    14         E           5      
 25  Electronic Devices and Circuits I (EI)          EI2425C     II      4      4     2    1    56    28    14         E           6      
 26  Fundamental of Electrical Engineering II (EE)   EE2426C     II      4      3     0    2    42     0    28         E           5      
 27  Signals, Circuits and Systems I (EI)            EI2427C     II      4      4     2    0    56    28     0         E           5      
 28  Measurement Techniques (EI)                     EI2428C     II      4      2     0    2    28     0    28         E           5      
 29  Sports                                                      II      4      0     2    0     0    28     0        AWM          2      
 30  Practice (AC)                                   AC2430C     II      4      0     0    4     0     0    56        AWM          2      
                                  TOTAL semester 2                             17     7    10   238   98    140                    30     
                                    TOTAL level II                             35    14    15   490   196   210                    60
Year 3 
Nr.                Discipline name                  Code     Level   Sem      Weekly       Overall           Assessment  Credits   
                                                                            structure      structure                     allocated 
               COMPULSORY  DISCIPLINES                         C      S     C     S    LP    C     S    LP                         
 31  Digital  Electronic Circuits (EI)             EI3531C    III     5     3     0    1    42     0    14       E           6     
 32  Electronic Devices and Circuits II (EI)       EI3532C    III     5     4     1    2    56    14    28       E           6     
 33  Signals Circuits and Systems II (EI)          EI3533C    III     5     3     2    1    56    28    14       E           6     
 34  Analog Electronic Circuits (EI)               EI3534C    III     5     4     1    2    56    14    28       E           6     
 35  Fundamentals of Data Transmission I (AC)      AC3535C    III     5     3     0    2    42     0    28       E           6     
                                TOTAL semester 1                           17     4    8    252   56   112                  30     
 36  Fundamentals of Data Transmission II (AC)     AC3636C    III     6     4     0    2    56     0    28       E           6     
 37  Data Conversion and Acquisition (EI)          EI3637C    III     6     3     1    1    42    14    14       E           6     
 38  Power Electronic Circuits (EI)                EI3638C    III     6     3     1    1    42    14    14       E           6     
 39  Microprocessors I (EI)                        EI3639C    III     6     3     1    2    42    14    28       E           6     
 40  Microwaves (EI)                               EI3640C    III     6     3     1    1    42    14    14       E           4     
 41  Practice (EI)                                 EI3641C    III     6     0     0    4     0     0    56      AWM          2     
                                TOTAL semester 2                           16     4    11   224   56   154                  30     
                                 TOTAL level III                           33     8    19   276   112  268                  60
Year 4 
Nr.                Discipline name                  Code     Level   Sem      Weekly       Overall           Assessment  Credits   
                                                                            structure      structure                     allocated 
               COMPULSORY  DISCIPLINES                         C      S     C     S    LP    C     S    LP                         
 42  Microprocessors II (EI)                       EI4742C     IV     7     3     0    3     42    0    42        E          6     
 43  Theory of automated control (AC)              AC4743C     IV     7     3     1    2     42    14   28        E          6     
 44  Electronic Circuits for Communication (EI)    EI4744C     IV     7     3     1    1     42    14   14        E          6     
 45  Sensors and Instrumentation (EI)              EI4745C     IV     7     3     0    2     42    0    28        E          6     
 46  Television (EI)                               EI4746C     IV     7     4     0    2     56    0    28        E          6     
                               TOTAL  semester 1                           16     2    10   224    28   140                 30     
 47  Electronic drives (EM)                        EM4847C     IV     8     3     0    3     42    0    42        E          6     
 48  Personal Computers (EI)                       EI4848C     IV     8     3     0    2     42    0    28        E          5     
 49  Optoelectronics (EI)                          EI4849C     IV     8     2     0    1     28    0    14       AWM         2     
 50  Communication Systems I (EI)                  EI4850C     IV     8     4     0    2     56    0    28        E          5     
 51  Design of Electronic Measurement              EI4851C     IV     8     2     0    2     28    0    28       AWM         5     
     Equipments (EI)
 52  Artificial Neural Networks (AC)               AC4852C     IV     8     2     0    2     28    0    28        E          5     
 53  Practice (EI)                                 EI4853C     IV     8     0     0    4     0     0    56       AWM         2     
                               TOTAL  semester 1                           16     0    16   224    0    224                 30     
                                  TOTAL level IV                           32     2    26   448    28   364                 60
Year 5 
Nr.               Discipline name                   Code       Level   Sem      Weekly          Overall        Assessment    Credits   
                                                                              structure        structure                    allocated  
              COMPULSORY  DISCIPLINES                            C      S     C     S    LP    C     S    LP                           
 54  Communication Systems II (EI)                 EI5954C       V      9     4     0    2    56     0    28        E           5      
 55  Design of Electronic Equipment (EI)           EI5955C       V      9     2     0    2    28     0    28       AWM          5      
 56  Digital Image Processing (AC)                 AC5956C       V      9     3     1    1    42    14    14        E           5      
 57  Medical Electronics (MI)                      MI5957C       V      9     3     0    2    42     0    28        E           5      
 58  Optional Discipline I (CS)                    CS5958C       V      9     2     0    2    28     0    28       AWM          5      
 59  Optional Discipline II (AC)                   AC5959C       V      9     2     0    2    28     0    28        E           5      
                               TOTAL semester 1                              16     1    11   224   14   154                    30     
 60  Management and Marketing (MM)                MM51060C       V     10     3     2    0    42    28    0        AWM          5      
 61  Diploma (Final) Project (EI)                 EI51061C       V     10     0     0    30    0     0   420                    25     
                               TOTAL semester 2                               3     2    30   42    28   420                    30     
                                  TOTAL level V                              19     3    41   266   42   574                    60

Optional Discipline I:
- Testing Systems
- Computer Network
- Multimedia Equipments
Optional Discipline II:
- Industrial Robots
- Reliability of Electronic Equipments
- Process Computers

REMARKS:
C - Course (lecturer);
S - Class Exercises;
LP - Laboratory and Project
Sem. - Semester;
E - Examination;
AWG - Assessment without Grading.
All semesters have 14 weeks. Diplome (final) project - V th year, 10th Semester.
Code: aa.b.c.dd.e =
aa - Code of department,
b - level,
c - semester,
dd - number in curricula,
e - compulsory (C).

Courses' Evaluation 
      LIST OF SUBJECTS                     Units:  hours                  
 No.  SUBJECT                                BS      ES     NTS    Total  
  1   Linear Algebra                         5                       5    
  2   Mathematical Analysis I                6                       6    
  3   Technical Drawing                      4                       4    
  4   Computer Programming                   7                       7    
  5   Electricity                            4                       4    
  6   English  Language                                      2       2    
  7   Sports                                                 2       2    
  8   Mathematical Analysis II               5                       5    
  9   Differential Equations                 4                       4    
 10   Physics I                              4                       4    
 11   Mechanics                              4                       4    
 12   Programming Techniques                 6                       6    
 13   Introduction to Electronics            4                       4    
 14   English  Language                                      2       2    
 15   Sports                                                 2       2    
 16   Practice                               4                       4    
 17   Numerical Computation                  5                       5    
 18   Fundamental of Electrical                      6               6    
      Engineering I
 19   Physics II                             4                       4    
 20   Specific Topics of Higher              5                       5    
      Mathematics                                                         
 21   Programming Techniques                 4                       4    
 22   Materials for Electronics              4                       4    
 23   Sports                                                 2       2    
 24   Analysis and Design of Digital                 6               6    
      Devices                                                             
 25   Electronic Devices and Circuits I              7               7    
 26   Fundamental of Electrical                      5               5    
      Engineering II                                                      
 27   Signals, Circuits and Systems I                6               6    
 28   Measurement Techniques                         4               4    
 29   Sports                                                 2       2    
 30   Practice                                       4               4    
 31   Digital  Electronic Circuits                   4               4    
 32   Electronic Devices and Circuits II             7               7    
 33   Signals Circuits and Systems II                6               6    
 34   Analogue Electronic Circuits                   7               7    
 35   Fundamentals of Data Transmission I            5               5    
 36   Fundamentals of Data Transmission II           6               6    
 37   Data Conversion and Acquisition                5               5    
 38   Power Electronic Circuits                      5               5    
 39   Microprocessors I                              6               6    
 40   Microwaves                                     5               5    
 41   Practice                                       4               4    
 42   Microprocessors II                             6               6    
 43   Theory of Automated Control                    6               6    
 44   Electronic Circuits for                        5               5    
      Communication                                                       
 45   Sensors and Instrumentation                    5               5    
 46   Television                                     6               6    
 47   Electronic Drives                              6               6    
 48   Personal Computers                             5               5    
 49   Optoelectronics                                3               3    
 50   Communication Systems I                        6               6    
 51   Design of Electronic Measurement               4               4    
      Equipments                                                          
 52   Artificial Neural Networks                     4               4    
 53   Practice                                       4               4    
 54   Communication Systems II                       6               6    
 55   Design of Electronic Equipment                 4               4    
 56   Digital Image Processing                       5               5    
 57   Medical Electronics                            5               5    
 58   Optional Discipline I                          4               4    
 59   Optional Discipline II                         4               4    
 60   Management and Marketing                               5       5    
 61   Diploma (Final) Project                        30             30    
Total                                       79     216      17     312   

Percentages                               25,32   69,23    5,45    100   
Course duration in U                        5                            
Percentages: BS+ES=                                  94,55            
Ratio: ES/BS                                         2,73             
Final conclusion: The Course is to be        accepted    not accepted
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