174.- TECHNICAL TELECOMMUNICATIONS ENGINEER, ELECTRONIC SYSTEMS

FIRST YEAR

Circuits Analysis I

Digital Electronics

Physics I

Fundamentals of Electronics

Mathematics I

Mathematics II

Physics II

Circuits Analysis II

Electronics Laboratory

Computer Programming

Computer Programming Laboratory

SECOND YEAR

Analog Integrated Circuits

Computer Aided Design of Circuits

Analog Electronics

Computers

Digital Systems I

Linear Systems I

Laboratory of Electronic Circuits

Laboratory of Computers

Laboratory of Digital Systems I

Mathematics III

Linear Systems II

Communications Theory

Electrothecnics

THIRD YEAR

Electronic Instrumentation I

Electronic Instrumentation II

Microelectronic I

Microelectronic II

Control Systems I

Control Systems II

Projects

Digital Systems II

Power Electronics

Business Administration

Laboratory of Digital Systems II

Final Project

OPTIONAL COURSES

Computer Aided Design

Technical English

Chemical in Electronic Systems

Passive Components

Photonic Components

Fundamentals of Acoustic

Fundamentals of Telematics

Transmission Systems

Further Mathematics

Business Strategies and Technology

Telecommunication Systems

Industrial Electronics

Practices

Digital Processing

Data Transmission

FIRST YEAR

15614- Circuits Analysis I

Semester 1; 60 Hours.
General Concepts: Elements and Basic Laws. Analysis Techniques and Fundamentals Theorems. Steady-state AC Circuits, power and energy. L adaptation. Magnetically coupled circuits.

Teaching Method: Lectures. Practical problems. Laboratory Practices

Assessment: Written exam. Assessment of laboratory Practices.

15615- Digital Electronics

Semester 2; 60 Hours.
Introduction to digital logic. Logical functions. Logic circuits families. Binary codes. Combinational circuits. Arithmetical and logical computes. Flips flops. Sequential circuits. Counter and shift registers. Memories.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15616- Physics I

Semester 1; 60 Hours
Scalar and vector fields. Electrical Field. Conductors. Capacitors. Electrical Properties of the Materia. Electrical Current. Magnetic Field. Magnetic Properties of the Materia. Electromagnetic induction. Elasticity. Waves. Acoustics.

Teaching Method: Lectures. Practical problems. Laboratory Practices.

Assessment: Written exam. Assessment of Laboratory Practices.

15617- Fundamentals of Electronics

Semester 1; 60 Hours
Semiconductors. Diodes. Bipolar transistors. Unipolar transistors. Amplifiers.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15618- Mathematics I

Semester 1; 75 Hours
Linear Algebra. Differential Calculus in one variable. Differential Calculus in more than one variable. Integrals in one variable.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15619- Mathematics II

Semester 2; 75 Hours
Sequences and series. Further Integral. Complex Variable.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15620- Physics II

Semester 2; 45 Hours
Electromagnetic waves. Interference. Diffraction. Reflection and Refraction of Waves. Stationary waves. Wave Guides. Laser.

Teaching Method: Lectures. Practical problems. Laboratory Practices.

Assessment: Written exam. Assessment of Laboratory Practices.

15621- Circuits Analysis II

Semester 2; 75 Hours
Resonant Circuits. Transients in First Order Circuits. Transients in Second Order Circuits. Using Laplace Transformation for solving Circuits. Quadripoles. Groups of Quadripoles. Introduction to the Filters Theory.

Teaching Method: Lectures. Practical problems. Laboratory Practices

Assessment: Written exam. Assessment of laboratory Practices.

15622- Electronics Laboratory

Semester 2; 30 Hours
Measurement devices. Semiconductors diodes. Bipolar transistor. Unipolar transistor. Digital Electronics.

Teaching Method: Laboratory Practices.

Assessment: Trial of Laboratory Practices.

15623- Computer Programming

Semester 1; 60 Hours
Introduction to Computer Programming. Introduction to C lenguage. Structured programming. Pointers. Modules. Structured Data. UNIX

Teaching Method: Lectures. Practical problems. Laboratory Practices

Assessment: Written exam. Assessment of laboratory Practices.

15624- Computer Programming Laboratory

Semester 1; 30 Hours
Files. Search and Sort Algorithms. Dynamic Variables. Dynamic Data.

Teaching Method: Lectures. Practical problems. Laboratory Practices

Assessment: Written exam. Assessment of laboratory Practices.

SECOND YEAR

15628- Analog Integrated Circuits

Semester 2; 45 Hours
Analogic Switches and multiplexors. Sampling circuits and buffers. Analogical modules for operating. Measurement circuits. A/D and D/A converters. Active filters. Voltage frequency converters. Amplifiers.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15629- Computer Aided Design of Circuits

Semester 2; 30 Hours
Computer Aided Design of Circuits. Printed Circuits. CAD. Schemes Capture. Printed Circuit Boards.

Teaching Method: Laboratory Practices.

Assessment: Written exam, Practical work.

15630- Analog Electronics

Semester 1; 60 Hours
Multi-Stage Amplifiers. Differential Amplifiers. Power Amplifiers. Frequency response of Amplifiers. Operational Amplifiers. Applications of Operational Amplifiers. Feedback amplifiers. Oscillators.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15631- Computers

Semester 1; 60 Hours
Computer Architectures. Operatives Systems.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15632- Digital Systems I

Semester 2; 60 Hours
The microprocessor. The MC68000. Hardware interface in MC68000. Exceptions in MC68000. Input output devices.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15633- Linear Systems I

Semester 1; 45 Hours
Signals and systems. Linear time-invariant (LTI) systems. Fourier Analysis. Discrete-time Fourier transform.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15634- Laboratory of Electronic Circuits

Semester 1; 30 Hours
The oscilloscope. Computer circuits simulation. Amplifiers with bipolar transistors. Circuits with operational amplifiers.

Teaching Method: Practical laboratories.

Assessment: Assessment of practical laboratories.

15635- Laboratory of Computers

Semester 2; 30 Hours
PC assembler programming

Teaching Method: Practical laboratory.

Assessment: Laboratory practical works of trial.

15636- Laboratory of Digital Systems I

Semester 2; 30 Hours
Programmable logic devices. MC68000 programming.

Teaching Method: Practical laboratory.

Assessment: Laboratory trial.

15637- Mathematics III

Semester 1; 60 Hours
Numeric calculus. Differential equations. Partial linear differential equations

Teaching Method: Lectures. Practical problems. Practical laboratories.

Assessment: Written exam. Assessment of practical laboratories.

15638- Linear Systems II

Semester 2; 45 Hours
Sampling. Laplace transforms. Z transforms. Introduction to digital processing. MATLAB.

Teaching Method: Lectures. Practical problems. Laboratory practices

Assessment: Written exam.

15639- Communications Theory

Semester 2; 45 Hours
Introduction. Analogue modulations. Pulse modulations. Information and coding. Digital communications in base band. Digital modulation.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15642- Electrothecnics

Semester 1; 45 Hours
Transformers. Manoeuvring machines. CC and CA machines.

Teaching Method: Lectures. Practical problems. Laboratory practices.

Assessment: Written exam.

THIRD YEAR

15646- Electronic Instrumentation I

Semester 1; 45 Hours
Measurement systems. Resistive Transducers. Voltage and intensity reference. Signal conditioner for resistance transducers. Other transducers. Noise.

Teaching Method: Lectures. Practical problems. Laboratory practices.

Assessment: Written exam.

15647- Electronic Instrumentation II

Semester 2; 45 Hours
Tele-measurement. Acquisition and distribution of data. The multi-meter. The oscilloscope. Logic analysers. Buses. Virtual instrumentation.

Teaching Method: Lectures. Practical problems. Laboratory practices.

Assessment: Written exam. Assessment of Laboratory practices.

15648- Microelectronic I

Semester 1; 60 Hours
MOS transistor. CMOS family. Manufacturing processes. Technologic design. Circuits characterisation. Design with CMOS. Alternative logic structures. Synchronism. Input/Output

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15649- Microelectronic II

Semester 2; 60 Hours
CMOS design strategies. Integrated circuits tests. Design of CMOS subsystems.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15650- Control Systems I

Semester 1; 60 Hours
Analogue control systems. Control systems design.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15651- Control Systems II

Semester 2; 60 Hours
Digital control systems. Introduction to state variables models,

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15652- Projects

Semester 1; 60 Hours
Technical telecommunications projects: management and standards.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15653- Digital Systems II

Semester 2; 60 Hours
Fundamentals of DSP processors. The TMS32C3X microprocessor.

Teaching Method: Lectures.

Assessment: Written exam.

15654- Power Electronics

Semester 1; 45 Hours
Power converters.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15655- Business Administration

Semester 1; 45 Hours
The enterprise and the market. Business decisions. Management Support.

Teaching Method: Lectures.

Assessment: Written exam. Continuos work.

15656- Laboratory of Digital Systems II

Semester 2; 30 Hours
TMS320C31 programming.

Teaching Method: Laboratory practices.

Assessment: Assessment of laboratory practices.

15664- Final Project

Once all the obligatory courses have been collected, a Final Project has to be worked out. It also has to be defended by the author in front of a committee of Professors appointed by the School-Board. Both requirements need to be successfully me before receiving the official Diploma (Bachelor Degree).

OPTIONAL COURSES

15625- Computer Aided Design

Semester 2; 45 Hours
Geometric Fundamentals of Technical Design. Sketches. Standards. Electrical and Electronic Symbols. CAD. Teaching Method: Lectures. Practical problems. Laboratory Practices

Assessment: Written exam. Assessment of laboratory Practices.

15626- Technical English

Semester 2; 45 Hours
Description in Technical English. Definition in Technical English. The "problem-solution" pattern in technical Englis. Classification in Technical English. Vocabulary in Technical English. Visual Verbs Relationship. Instructions. Cause-effect relationship. Communicative aspects.

Teaching Method: Lectures. Practical exercices.

Assessment: Written exam.

15627- Chemical in Electronic Systems

Semester 2; 45 Hours
Electronic properties of solids. Electo-chemistry.

Teaching Method: Lectures. Practical problems. Laboratory practices

Assessment: Written exam.

15640- Passive Components

Semester 1; 45 Hours
Conductors. Resistors. Capacitors. Magnetic Materials. Coils. Transformers. Electromagnetic relays. Quartz.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15641- Photonic Components

Semester 2; 45 Hours
Introduction to Opto-electronics. Light transmitters. Light detectors. Fibre optics. Optical couple devices

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15643- Fundamentals of Acoustic

Semester 2; 45 Hours
Fundamentals of vibrations. Acoustical wave equation. Acoustic measurements. Transmission phenomena. Sound absorption. Architectonic acoustic. Environmental acoustic.

Teaching Method: Lectures. Practical problems. Laboratory practices.

Assessment: Written exam. Laboratory practices assessment.

15644- Fundamentals of Telematics

Semester 1; 45 Hours
Transmission data systems. OSI reference model, mainly levels 1 and 2. Introduction to LAN

Teaching Method: Lectures. Practical problems. Laboratory practices.

Assessment: Written exam. Laboratory practices are required.

15645- Transmission Systems

Semester 2; 45 Hours
Models. Metallic cable transmission. Fibre optics transmission. Radio transmission.

Teaching Method: Lectures. Practical problems. Laboratory practices.

Assessment: Written exam. Laboratory practices assessment.

15657- Further Mathematics

Semester 1; 45 Hours
Data description. Probability. Random variables. Distribution models. Introduction to statistical inference. Punctual estimation. Interval estimation. Parametric contrast.

Teaching Method: Lectures. Practical problems. Laboratory practices.

Assessment: Written exam. Laboratory practices assessment.

15658- Business Strategies and Technology

Semester 1; 45 Hours
Strategies.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15659- Telecommunication Systems

Semester 1; 45 Hours
Switching systems. Traffic. Telephony. TV systems.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15660- Industrial Electronics

Semester 2; 60 Hours
Power supply. Photovoltaic solar electricity. Further applications.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15661- Practices

Semester 2; 60 Hours
The student should look for an enterprise where he will stay doing a technical activity.

Teaching Method: The student will have an engineer responsible in the company and a professor in the School. They should advise to the student in their work.

Assessment: The responsible professor should assign a mark to the student from a final report.

15662- Digital Processing

Semester 2; 60 Hours
Transforms. Frequency domain. Fourier analysis. Image processing. Speech processing.

Teaching Method: Lectures. Practical problems.

Assessment: Written exam.

15663- Data Transmission

Semester 2; 60 Hours
Computer networks. Link Level. TCP/IP. Internet. Sockets.

Teaching Method: Lectures. Practical problems. Laboratory Practices.

Assessment: Written exam. Laboratory practices required.

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