DIGITAL ELECTRONICS: FUNDAMENTALS AND LABORATORY (MODULE 2)
cod. 1004645

Academic year 2019/20
1° year of course - First semester
Professor
Nicola DELMONTE
Academic discipline
Elettronica (ING-INF/01)
Field
"altre conoscenze utili per l'inserimento nel mondo del lavoro"
Type of training activity
More
24 hours
of face-to-face activities
3 credits
hub: PARMA
course unit
in ITALIAN

Integrated course unit module: DIGITAL ELECTRONICS: FUNDAMENTALS AND LABORATORY

Learning objectives

The course provides the basic information useful for the understanding of digital systems operating principles. At the end of the course, students acquire a functional view of digital systems, familiarize with some of the basic simulation tools and are able to complete simple design experiences with low cost development boards.

Prerequisites

- - -

Course unit content

The Unit 2 of the course Digital Electronics: Fundamentals and Laboratory counts 3 CFUs (one CFU, University Credits equals one ECTS credit and represents the workload of a student during educational activities aimed at passing the exams), which corresponds to 24 hours of lectures. It aims to provide the students with the general criteria to analyze the behavior basic digital electronic circuits using simulation tools and/or development board (e.g. Arduino). Therefore, the contents proposed during the course include the following topics:

- Design workflow of digital systems

- Programmable development boards

- Formal description of simple combinational and sequential systems

- Simulation and middleware programming using development boards.

Full programme

INTRODUCTION TO THE COURSE (2 h)

INTRODUCTION TO MATLAB AND SIMULINK (12 h)
- Variables and Workspace in MATLAB;
- Figure tool;
- Digital circuits modeled with Simulink to simulate transients with inputs changing over the time;
- Fundamentals blocks of Simulink, as Logical Operator, Constant, Signal Builder and Scope.
- Exercises implementing different digital circuits.

INTRODUTION TO PROGRAMMABLE DEVELOPMENT BOARDS (2 h):
- Microcontrollers and microprocessors;
- Reference web sites;
- Arduino UNO specifications;
- Other programmable development boards;
- Introduction to shields;
- Introduction to Thinkercad.

PROGRAMMING AND SIMULATING WITH ARDUINO (2 h):
- download and installation of the IDE programmer;
- the bootloader; the sketch (loop and setup);
- Hello Led! (first example of programming).

MODELS TO SIMULATE COMBINATORIAL AND SEQUENTIAL CIRCUITS (6 h):
- Implementation of combinatorial and sequential circuits with Arduino.

Bibliography

The student can study the topics discussed during the course reading the following textbooks:

Paolo Aliverti, IL MANUALE DI ARDUINO: GUIDA COMPLETA, zeppelinmaker.it

ESERCIZI DI AUTOMAZIONE di Gianfranco Annessa, ISBN 9781291240368

The notes of the lectures and exercises will be available to students and shared on the Elly web site.

Teaching methods

The module provides for mainly laboratory activities, where will be used some applications for Windows operating system. These applications will enable both the simulations and the hardware implementations of digital circuits, using protyping boards as Arduino.

Assessment methods and criteria

The exam includes an evaluation of laboratory activity and a written test with exercises on the topics covered during the course.
To access the written test, a positive evaluation must be obtained in the laboratory exam. The laboratory test will ask to the candidates to simulate digital systems using the tools presented during the course. Beyond the simulation and programming tools for digital system, for this test, the students have to be familiar with the use of PC with Windows, because the test will be done in informatics labs and the models and/or the programs made, will be downloaded by the examiner all the same time, only in specific directories of the terminal used by each student which will carry out the exam.

Other information

Additional educational materials will be available accessing to the web site Elly of the Department of Engineering and Architecture of the University of Parma.

2030 agenda goals for sustainable development

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Contacts

Toll-free number

800 904 084

Student registry office

E. segreteria.ingarc@unipr.it

Quality assurance office

Education manager:
Elena Roncai
T. +39 0521 903663
Office E. dia.didattica@unipr.it
Manager E. elena.roncai@unipr.it

 

President of the degree course

Gianluigi Ferrari
E. gianluigi.ferrari@unipr.it

Faculty advisor

Giovanna Sozzi
E. giovanna.sozzi@unipr.it

Career guidance delegate

Guido Matrella
E. guido.matrella@unipr.it

Tutor professor

Boni Andrea
E. andrea.boni@unipr.it
Caselli Stefano
E. stefano.caselli@unipr.it
Cucinotta Annamaria
E. annamaria.cucinotta@unipr.it
Nicola Delmonte
E. nicola.delmonte@unipr.it
Mucci Domenico
E. domenico.mucci@unipr.it
Saracco Alberto
E. alberto.saracco@unipr.it
Ugolini Alessandro
E. alessandro.ugolini@unipr.it
Vannucci Armando
E. armando.vannucci@unipr.it

Erasmus delegates

Paolo Cova
E. paolo.cova@unipr.it
Corrado Guarino
E. corrado.guarinolobianco@unipr.it
Walter Belardi
E. walter.belardi@unipr.it

Quality assurance manager

Massimo Bertozzi
E. massimo.bertozzi@unipr.it

Tutor students

SPAGGIARI Davide E. davide.spaggiari@unipr.it
MUSETTI Alex E. alex.musetti@unipr.it
BERNUZZI Vittorio E. vittorio.bernuzzi1@studenti.unipr.it
NKEMBI Armel Asongu E. armelasongu.nkembi@unipr.it
BASSANI Marco E. marco.bassani@unipr.it
ZANIBONI Thomas E. thomas.zaniboni@unipr.it
BOCCACCINI Riccardo E. riccardo.boccaccini@unipr.it
MORINI Marco E. marco.morini@unipr.it
SHOZIB Md Sazzadul Islam E. mdsazzadulislam.shozib@studenti.unipr.it