Università di Pisa - Valutazione della didattica e iscrizione agli esami

Scheda programma d'esame

ELECTRONICS

ROBERTO RONCELLA

Academic year2016/17
CourseBIOMEDICAL ENGINEERING
Code003II
Credits12
PeriodSemester 1 & 2
LanguageItalian

Modules

Area

Type

Hours

Teacher(s)

ELETTRONICA

ING-INF/01

LEZIONI

120

GIANLUCA FIORI unimap

PAOLO MARCONCINI unimap

ROBERTO RONCELLA unimap

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Learning outcomes

Knowledge

Acquire the basic concepts of operation of digital systems, from the knowledge of Boolean algebra to the micro controller. Acquire the concept of digital signal and digital data processing. Understanding the connection between logical description and physical realization of a digital network. Acquire the basic concepts that allow us to understand the functioning of key electronic components. Explore the techniques of analysis of electronic circuits for large and small signals. Understanding of the linearisation technique of a circuit. Acquire the basic concepts that enable the understanding of the operation and usefulness of the main application circuits used in analog electronic systems. Knoledge and abilities relative to the previous points.

Assessment criteria of knowledge

- In the written exams (each of them has 5 problems, to solve in 1 hour), the student must demonstrate his/her knowledge of the course material and his/her ability to solve simple problems of analog electronics and digital sistem design. It is obligatory a sufficient mark in the written test to give the relative oral exam. - During the oral exams the student must be able to demonstrate his/her knowledge of the course material and be able to discuss the reading matter thoughtfully and with propriety of expression.

Methods:

Final oral exam
Final written exam

Further information:
The exam is divided into 2 independent parts, each of them has a written test and a an oral examination.

Teaching methods

Delivery: face to face

Learning activities:

attending lectures
individual study

Attendance: Advised

Teaching methods:

Lectures
Task-based learning/problem-based learning/inquiry-based learning

Syllabus

1) Digital Systems Microcontroller and assembly. Boolean algebra. Combinatorial networks. Synthesis and combinational details. Flip-flop. Synchronous sequential. Summary structured and synchronous networks details.Asynchronous sequential networks. Memories. Architecture of complex computer systems. The logic gates from the hardware point of view. CMOS and bipolar technologies. 2) Analog Electronics Analog electronics and information. The silicon diode junction. Main diode circuits without memory. Diode circuits with memory: peak and envelope detectors, clipper, voltage doubler. Rectifier circuits and regulators. The bipolar transistor. Main BJT amplifier. The field effect transistor. Main FET amplifiers. The operational amplifier. Main circuits realized with operational. Ideal and real Operational amplifier. Oscillators. Filters.

Bibliography

D. D. Givone, "Digital Principles and Design", McGraw Hill, 1ed. 2003 J. Millman, A. Grabel, P. Terreni, "Elettronica di Millman", McGraw Hill Italia, 4ed. 2008

Updated: 14/11/2016 17:27