Public University of Navarre



Academic year: 2023/2024 | Previous academic years:  2022/2023  |  2021/2022  |  2020/2021  |  2019/2020 
Bachelor's degree in Industrial Engineering at the Universidad Pública de Navarra
Course code: 252506 Subject title: INDUSTRIAL ELECTRONICS
Credits: 6 Type of subject: Mandatory Year: 3 Period: 1º S
Department: Ingeniería Eléctrica, Electrónica y de Comunicación
Lecturers:
ELOSUA AGUADO, CESAR (Resp)   [Mentoring ] URRUTIA AZCONA, AITOR   [Mentoring ]

Partes de este texto:

 

Module/Subject matter

Module: Cross-cientific technological module
Subject Matter: Electrical and Electronic Technology

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Contents

  • Dgital representation of information
  • Boole Algebra and logic functions
  • Combinational digital circuits
  • Sequential digital circuits
  • Introduction to microprocessors and microcontrollers.

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General proficiencies

CG3: Conocimiento en materias básicas y tecnológicas, que les capacite para el aprendizaje de nuevos métodos y teorías, y les dote de versatilidad para adaptarse a nuevas situaciones.

CG4: Capacidad de resolver problemas con iniciativa, toma de decisiones, creatividad, razonamiento crítico y de comunicar y transmitir conocimientos, habilidades y destrezas en el campo de la Ingeniería Industrial.

CG10: Capacidad de trabajar en un entorno multilingüe y multidisciplinar.

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Specific proficiencies

CEI2: Knowledge about the fundamentals of digital electronic and microprocessors, and their applications. 

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Learning outcomes

  • R1. Knowledge about numbering and coding digital systems 
  • R2. Knowledge about combinational/sequential digital systems, and their design rules. 
  • R3. Design and simulation of simple combinational/sequential digital circuits. 
  • R4. Knowledge about the internal structure of microprocessors and microcontrollers. 

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Methodology

Methodology - Activity Presential hours Non Presential hours
A-1. Expository/participative sessions 45  
A-2. Practical and Laboratory sessions 15  
A-3. Debates, group mentoring  5  
A-4. Work preparation   27
A-5. Material reading   11
A-6. Individual study   50
A-7. Exams 3  
A-8. Individual mentoring 2  
     
Total 70 88

 

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Languages

English

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Evaluation

 

Learning
outcome		 Assessment
activity		 Weight (%) It allows
test resit 		Minimum
required grade
R1. Know the numbering and coding systems. R2. Know what a combinational circuit is and how it is designed. R3. Design and simulate small combinational circuits.   Exam  50 YES 4
R1. Know the numbering and coding systems. R2. Know what a combinational circuit is and how it is designed. R3. Design and simulate small combinational circuits.  Control Exercises at classroom 25 NO N/A
R1. Know the numbering and coding systems. R2. Know what a combinational circuit is and how it is designed. R3. Design and simulate small combinational circuits. R4. Know the internal structure of microprocessors and microcontrollers and understand their operation. Short answer exams (Multiple choice) 10 NO N/A
R1. Know the numbering and coding systems. R2. Know what a combinational circuit is and how it is designed. R3. Design and simulate small combinational circuits. R4. Know the internal structure of microprocessors and microcontrollers and understand their operation.  Laboratory Exercises and / or  Reports

 15 NO N/A

 

 

EVALUATION SYSTEM WEIGHTS

1. It is required to get a weighted score of at least 5 points of 10 to pass the subject.

2. Exam score is 50% of the final qualification. To pass the subject, it is compulsory to get at least 4 points of 10 in the exam. This part is RECOVERABLE.

3. Control exercises will be proposed during the theory sessions and correspond to 25% of the final mark. This part is NOT RECOVERABLE.

4. Laboratory part is 25% of the final mark and it is evaluated as it follows:

- Test exams (multiple choice type) that in total are 18.75%. This part is NOT RECOVERABLE.

- Complete all the exercises proposed in the laboratory session and/or complete the laboratory script. It constitutes 6.25% of the final mark. This part is NOT RECOVERABLE.

- Voluntarily exercices will be proposed during the laboratory sessions to get extra points.

 

LABORATORY SESSIONS ATTENDANCE 

- As it is stated in the articles 10.3.f) and 23 of the Normativa Reguladora de los Procesos de Evaluación en la Universidad Pública de Navarra, it is COMPULSORY to attend Laboratory Sessions.

- Any non justified absence to a session implies to get 0 points in all the evaluation activities programmed for it.

 

FRAUDULENT BEHAVIOURS

The use of fradulent behaviours is ruled by article 34 of the Normativa Reguladora de los Procesos de Evaluación en la Universidad Pública de Navarra, which are summarized in the following points (Spanish):

- La utilización de material no autorizado expresamente por el profesorado, así como cualquier acción no autorizada dirigida a la obtención o intercambio de información con otras personas, podrá ser suspendido en dicha evaluación y calificado de suspenso (0,0) de la asignatura en la correspondiente convocatoria. Además, podrá ser objeto de sanción, previa apertura de expediente disciplinario.

- En caso de copia, el punto anterior será de aplicación a todos los estudiantes involucradosquienes copien y quienes hayan sido copiados, por ser responsabilidad de los estudiantes evitar que su examen, trabajo y todo material evaluable sea objeto de copia.

- Cuando se detecte el uso de medios fraudulentos, o se tenga la sospecha de que han sido utilizados, el profesorado podrá revisar las pruebas de evaluación y los trabajos previos presentados durante el semestre por el estudiante en la asignatura, incluso los ya evaluados, pudiendo realizar una prueba especial al estudiante sobre el que recaiga sospecha.

 

 

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Agenda

CHAPTER 1. Introduction to Digital Electronics

  • Digital and analog signals.
  • Definition and characteristics.
  • Digital electronics. Applications.

CHAPTER 2. Digital Representation of Information

  • Digital representation of the information.
  • Numeral systems based on polynomic definition. Base change.
  • Numeral systems based on powers of 2.
  • Binary codes.
    • Natural binary code.
    • Representation of signed numbers.
    • Representation of fixed point and floating point numbers.
    • Decimal codes expressed in binary code: BCD, Excess-3 BCD.
    • Cyclic and continuous binary codes: Gray and Johnson.
    • Alphanumeric codes: ASCII.
    • Applications.

CHAPTER 3. Boolean Algebra. Logic Functinos and Gates

  • Boolean algebra: axioms and theorems
  • Logic functions.
    • Definition of logic variable and function.
    • Representation of logic functions. Truth table.
    • Basic logic functions and their symbols (logic gates).
    • Complete sets of logic gates.
    • Function generation with logic gates.
    • Universality of NAND and NOR gates.
  • Operation with logic functions.
    • Standard forms for a logic function. Synthesis by minterms and maxterms.
    • Simplification by application of theorems.
    • Simplification with Karnaugh maps. Examples.
    • Operation with incomplete functions and multifunctions.
  • Integrated logic functions
    • Tension and switching parameters.
    • Logic families and nomenclature.
    • Conectivity between logic families.

CHAPTER 4. Digital Arithmetic Systems

  • Binary arithmetic (revision).
  • Adders
    • Basic half-adder.
    • Complete adder.
    • Parallel adder with serial carry.
    • Parallel adder with parallel carry.
    • Serial adder.
  • Substractors
    • Basic half-subtractor.
    • Complete subtractor.
  • Adder - subtractor.
  • Binary multiplier.
  • Comparators
  • Arithmetic Logic Unit (ALU).

CHAPTER 5. Combinational Systems

  • Combinational circuit concept.
    • Digital multiplexer. 
    • Encoders. Standard encoders. Priority encoders.
    • Decoders.
    • Code converters.
    • Parity generator and checker. Parity generator and checker extension.

CHAPTER 6. Sequential Systems

  • Latches and flip-flops
    • Sequential system definition.
    • Types and characteristics: asynchronous and synchronous.
    • RS, JK, D and T Latches / Flip Flops
    • Switching parameters
  • Shift registers
    • Register concept.
    • Configurations depending on inputs / outputs.
    • Applications of registers. 
  • Digital counters.
    • Asynchronous counters. 
    • Synchronous counters. 
    • Analysis and syntehis of digital counters
  • Synchronous sequential systems: Finite States Machines
    • Transition tables and state diagrams: Mealy and Moore machine state.
    • Synthesis of synchronous sequential systems.
    • Analysis of synchronous sequential circuits.

CHAPTER 7. Introduction to Microprocessors

  • Basic hardware and software architectures in a microprocessor.
  • Semiconductor memories
  • Programming a microprocessor (low and high level languages).

CHAPTER 8. Programmable Logic Devices (PLDs)

  • Programmable ROM encoders.
  • Programmable logic matrices (PLA / PAL).
  • PLDs based on macrocells
  • FPGAs
  • Programming software tools / VHDL

 

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Experimental practice program

Laboratory sessions will last between 3 or 4 hours.

SESSION 1. Logic functions.

SESSION 2. Combinational sytems.

SESSION 3. Sequential systems.

SESSION 4. Digital systems.

 

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Bibliography

Access the bibliography that your professor has requested from the Library.


BASIC 

 

Title: DIGITAL FUNDAMENTALS, GLOBAL EDITION

Author: Thomas L Floyd

Editorial: Pearson Education Limited, 2015. Ed. 11

Title: SOLVED PROBLEMS IN DIGITAL ELECTRONICS (*)

Authors: Ignacio Del Villar, Francisco J. Arregui, Javier Goicoechea  

Editorial: MARCOMBO, S.A.

ISBN: 9788426726308

 

Title: PROBLEMAS RESUELTOS DE ELECTRÓNICA DIGITAL (*)

Author: Javier García Zubía

Editorial: MCGRAW-HILL

 

Title: PROBLEMAS RESUELTOS DE ELECTRÓNICA DIGITAL (*)

Author: C. Bariáin, I. R. Matías, F. J. Arregui

Editorial: Universidad Pública de Navarra

 

SUPLEMENTARY

 

Title: CIRCUITOS ELECTRÓNICOS: DIGITALES.

Author: MANUEL MAZO QUINTAS Y OTROS.

Editorial: SERVICIO DE PUBLICACIONES. UNIVERSIDAD DE ALCALA.

 

Title: FUNDAMENTOS DE ELECTRÓNICA DIGITAL

Author: CECILIO BLANCO VIEJO

Editorial: THOMSON-PARANINFO

 

Title: CIRCUITOS ELECTRÓNICOS DIGITALES II

Author: ELIAS MUÑOZ MERINO y otros

Editorial: SERVICIO DE PUBLICACIONES UNIVERSIDA POLITECNICA DE MADRID

 

Title: PROBLEMAS DE CIRCUITOS Y SISTEMAS DIGITALES (*)

Author: CARMEN BAENA, MANUEL JESÚS BELLIDO, etc

Editorial: MCGRAW-HILL

 

Title: EJERCICIOS DE ELECTRÓNICA DIGITAL. (*)

Author: ISIDORO PADILLA.

Editorial: DPTO DE PUBLICACIONES E.T.S. ING. DE TELECOMUNICACION MADRID.

 

Title: ELECTRÓNICA DIGITAL. (*)

Author: L. CUESTA; A. GIL PADILLA; F. REMIRO.

Editorial: MCGRAW-HILL

 

(*) EXERCISES BOOKS

 

 

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Location

Aulario Classrooms and laboratories 

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