The main objective of this subject is to achieve a basic level of knowledge in digital electronics and set the basis to be able to design complex digital circuits. It is imperative to have passed second year electricity and electronic related subjects and to be taking analog electronics.

Knowledge and competencies acquired in this subject are essential to face the following subjects: Digital Electronics Design, Embedded Systems and Microlectronics.

The following competencies from the degree verified report will be developed:

C3 – Knowledge on basic and technologic topics, which will allow learning new methods and theories providing versatility to adapt themselves to new situations.

C4 – Capability to solve problems with initiative, decision-making, creativity, critic thinking and to convey and transmit knowledge and skills in engineering fields.

C6 – Capability to handle specifications, regulations and rules of mandatory compliance.

C10 – Capability to work in a multidisciplinary and multilingual environment

TEEOI3 – Knowledge of the foundation and applications of electronic circuits and microcontrollers.

As outcome of the development of the aforementioned competencies the following results are expected:

- Select the most suitable integrated circuit for a specific design.

- Apply knowledge of basic electronic components to develop digital electronics applications.

- Formulate ideas, discuss and make viable technological decisions in team work in the field of electronic engineering disciplines.

- Apply the legislation, specifications, regulations and mandatory standards in the field of electronic engineering.



With what you will get:

- The ability to design a digital system, both at the level of integrated circuits available on the market, and at the level of own design of functional blocks.

-The ability to select the most suitable integrated circuit for a specific design.

-The ability to analyze any type of integrated circuit, based on its data sheets.

-The ability to analyze and detect errors in any combinational digital circuit.

0.- Introduction

1.- Transistor in switching mode

2.- Number systems and codes

3.- Boole algebra

4.- Combinational circuits

5.- Sequential circuits

6.- Logic families

7.- Programmable logic devices

8.- Hardware description languages

9.- Memories

10.- High speed digital design considerations

Demonstrations:

Transistor in switching mode

Inverter transfer function

VHDL: Synthesis and simulation

Multiplexers, decoders andtransmission gates

VHDL: Combinational circuits

VHDL: Sequential circtuis, PWM

VHDL: State machines

Master classes introducing the required concepts to lead the learning process will be carried out. Active participation of the students will be fostered. Simultaneously to the introduction of new circuits in the classical way, the representation of the same circuits using hardware description languages will be introduced.

Practical laboratory demonstrations in small groups will take place to implement different digital circuits. The demonstrations will be coordinated with the lectures so that the students can experience the concepts given in class. In some demonstrations, the student will be requested to submit a previous work.

If no physical access to the laboratory is allowed, demonstrations will be replaced by simulation exercises and remote laboratories.

• Continuous Assessment System
• Final Assessment System
• Tools and qualification percentages:
  • Written test to be taken (%): 80
  • Individual works (%): 20

One written exam accounts for 80 % of the final mark. Attendance to the demonstrations is compulsory and one additional practical exam should be taken in the case that attendance and/or the academic progress is not fulfilled.

A compulsory individual work focusing on the development and synthesis of digital circuits using hardware description languages should be submitted. It will account for 20 % of the final mark as long as at least 4.5 points are obtained in the written exam. Failing this work prevents the students from passing the subject regardless the result in the written exam.

In order to renounce this call the student only needs not to take the written exam.

The same rules apply to the second call.

Lecture presentations available in eGela platform need to be coplemented with notes taken by the student
VIVADO Webpack

Basic bibliography

ELECTRÓNICA DIGITAL

I. Sistemas combinacionales

II. Sistemas secuenciales

III. Microelectrónica

IV. Tecnología CMOS

T. Pollán

Prensas Universitarias de Zaragoza PUZ, 3ª ed. 2007

Diseño de Circuitos Digitales con VHDL. Machado Sánchez, F. Borromeo López, S. Dpto. tecnología Electrónica Universidad Juan Carlos I

ELECTRÓNICA DIGITAL

J.L. Martín et al.

Delta publicaciones 2007

Electrónica digital: aplicaciones y problemas con VHDL. Prentice Hall, Madrid [etc.] : 2002.



CIRCUITOS ELECTRÓNICOS DIGITALES

Mazo et al.

Servicio de publicaciones de la Universidad de Alcalá 1995



ELECTRÓNICA DIGITAL

J. Mira, S. Dormido, M. A. Canto, A. E. Delgado,

Editorial Sanz y Torres 2001

ISBN 9788488667731







PROBLEMAS DE ELECTRÓNICA DIGITAL

Mazo et al.

Servicio de publicaciones de la Universidad de Alcalá 1997



INTRODUCCIÓN AL DISEÑO LÓGICO DIGITAL

J.P. Hayes

Addison-Wesley 1996



PROBLEMAS DE ELECTRONICA DIGITAL

Delgado, Mira, Hernández, Lázaro

Editorial Sanz y Torres, 2ª edición 1999



PROBLEMAS DE ELECTRÓNICA DIGITAL

García Lagos et. al.

Universidad de Málaga 2001



CIRCUITOS Y SISTEMAS DIGITALES. Problemas

J.A. Carrasco et al.

Ediciones UPC 1996



CIRCUITOS ELECTRÓNICOS

Tomo 3. Digitales I, 4ª ed. 1986

Tomo 4. Digitales II, 5ª ed. 1989

Dpto. de publicaciones de la ETSI de Telecomunicación de Madrid.

In-depth bibliography

PRINCIPIOS DIGITALES
R.L. Tokheim
Mc Graw-Hill 2000
- The designer's guide to VHDL Ashenden, Peter Morgan Kaufmann
CIRCUITOS INTEGRADOS DIGITALES
Una perspectiva de diseño
J.M. Rabaey
Ed. Prentice Hall, 2ª edición 2004
- The student's guide to VHDL

SISTEMAS DIGITALES.
Principios y aplicaciones
Tocci, Widmer, Moss
Prentice Hall 10ª ed. 2007
ISBN 9702609704

ELECTRÓNICA DIGITAL INTEGRADA
Teoría, problemas y simulación
Acha, Rioseras, Lozano, Castro, Pérez
Ed. Rama 2006

DISEÑO DIGITAL: Principios y prácticas
J.F. Wakerly
Pearson Education 3ª ed. 2001

PROBLEMAS DE CIRCUITOS Y SISTEMAS DIGITALES
C. Baena el al.
Mc Graw-Hill 1997
FUNDAMENTOS DE SISTEMAS DIGITALES
T.L. Floyd
Prentice Hall.

SISTEMAS ELECTRÓNICOS DIGITALES
E. Mandado, J.L. Martín
Marcombo, 10ª ed. 2015

Web addresses

http://www.cypress.com/
http://www.ti.com/
http://www.st.com/stonline/
http://www.onsemi.com/