Reflecting 20 years' combined experience in engineering industry and in the classroom, this bestseller provides thorough, up-to-date coverage of digital fundamentals from basic concepts to microprocessors. Floyd's acclaimed emphasis on applications using real devices and on troubleshooting gives students the problem-solving experience they'll need to compete in the professional arena. This practical text is known for its clear, accurate explanations of theory supported by superior exercises, examples, and visual aids. Its vivid full-color format is packed with the photographs, illustrations, tables, charts, and graphs today's students need to grasp concepts.
Digital Fundamentals, 11th Edition, continues its long and respected tradition of offering students a strong foundation in the core fundamentals of digital technology, providing basic concepts reinforced by plentiful illustrations, examples, exercises, and applications.
This document provides information about the textbook "Digital Fundamentals (8th Edition)" by Thomas L. Floyd. The textbook provides thorough coverage of digital fundamentals from basic concepts to more advanced topics like microprocessors, programmable logic, and digital signal processing. It is known for its clear explanations of theory supported by exercises and examples. The book uses a full-color format with visual aids to help students understand complex concepts.Read less
The best selling book is recognized as the authority of digital fundamentals for over a quarter of a century, provides thorough, up-to-date coverage from basic concepts to advanced topics such as programmable logic and digital signal processing.
Circuit Design Technical Library - learning about circuit design, simulation, layout, and test; find links to valuable on SPICE simulation fundamentals, SPICE models, example circuits, application notes, and tutorials.
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Digital representation of the information Boolean algebra and logic functions Combinational circuits Sequential circuits Memories Synchronous and asynchronous digital circuits Microcontrollers and microprocessors fundamentals Hardware description language fundamentals A/D and D/A conversion fundamentals
CB1. Students should demonstrate having and understanding knowledge in a study field starting from the background of secondary education, and should reach a level that, although supported by advanced textbooks, also includes some aspects that imply state-of-the-art knowledge in their study field
CB2. Students should be able to know how to apply their knowledge to their work or vocation in a professional manner and possess skills that tend to be demonstrated through the elaboration and defense of arguments and solving problems within their field of study
2.9. Ability of analyzing and designing combinational and sequential circuits (synchronous and asynchronous), and the utilization of microprocessors and integrated circuits.
2.10. Knowledge and application of hardware description language fundamentals.
Methodology - Activity Presential Hours Non-presential hours A-1 Theoretical classes/participatory classes 35 A-2 Practical sessions 15 15 A-3 Cooperative learning activities 5 2 A-4 Study and autonomous student work 68 A-5 Tutoring and evaluation activities 5 5 Total 60 90
2. The practical part of the subject consists of attending and doing exercises before and during the laboratory sessions and taking a final practice exam. The work and evaluation of the student in the laboratory (by means of guided, proposed exercises, or tests) during the sessions computes 5% (not recoverable), while the practice exam will be worth 20% (yes, recoverable). Attendance at all practice sessions is mandatory. Completion of all the proposed exercises or tests will be compulsory in order to have the right to take the practice exam. Therefore, it will be essential to have attended all the sessions and have done the work required in the sessions.
In these laboratory practices, the acquisition of the knowledge developed in the theoretical classes will be demonstrated through the implementation of the designs proposed in the practice scripts. A minimum grade of 4 points out of 10 in the total of practices will be necessary to average with the theory and pass the subject. In case of not reaching 4 points, the note of the sessions (5%) will be saved and the extraordinary call will be attended, which will consist of a practical laboratory exam (20%).
3. Those students that have followed the continuous evaluation will be able to do the recovery exam (extraordinary evaluation), which will consist of a single exam where all the theoretical knowledge acquired during the semester will be assessed. This exam will be worth 75% of the global score. In this case, in order to pass the subject, it will be necessary to obtain a 50% score in the recovery exam.
CHAPTER 1: INTRODUCTION TO DIGITAL ELECTRONICS
* Basics.
- Digital and analog signals. Definition and characteristics.
- Digital electronics. Applications.
CHAPTER 2: DIGITAL REPRESENTATION OF THE INFORMATION
* Digital representation of the information.
- Information concept and unit of information.
- Information codification.
* Numeral systems.
- Binary numeral system.
- Octal numeral system.
- Hexadecimal numeral system.
- System conversion.
* Binary codes.
- Natural binary code.
- Decimal codes expressed in binary code: BCD, Excess-3 BCD.
- Cyclic and continuous binary codes: Gray and Johnson.
- Representation of signed numbers.
- Representation of fixed point and floating point numbers.
- Alphanumeric codes: ASCII.
- Applications.
CHAPTER 3: BOOLEAN ALGEBRA. LOGIC FUNCTIONS
* Boolean algebra.
- Boolean algebra postulates.
- Boolean algebra theorems.
* Logic functions.
- Definition of logic variable.
- Definition of logic 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.
* Simplification with logic functions.
- Simplification by application of theorems.
- Canonical forms for a logic function. Synthesis by minterms and maxterms.
- Simplification with Karnaugh maps. Examples.
- Simplification of incomplete functions.
- Simplification of multifunctions.
CHAPTER 4: DIGITAL ARITHMETIC SYSTEMS
* Binary arithmetic.
- Introduction.
- Arithmetic operations in binary natural code. Binary addition. Binary substraction. Substraction as an addition: Representation of negative numbers in ones complement and in twos complement. Binary multiplication.
- Arithmetic operations in BCD: addition and substraction.
* Arithmetic circuit.
- Basic half-adder.
- Complete adder.
- Parallel adder with serial carry.
- Parallel adder with parallel carry.
- Serial adder.
- Basic half-substracter.
- Complete substracter.
- Adder-substracter.
- Binary multiplier.
- Arithmetic Logic Unit (ALU).
CHAPTER 5: OTHER COMBINATIONAL SYSTEMS
* Combinational circuits and subsystems.
- Combinational circuit concept.
- Digital multiplexer. Multiplexer extension. Applications of multiplexers: parallel-serial conversion. Generation of functions.
- Encoders. Standard encoders. Priority encoders.
- Decoders. Mutual exclusive output decoders. Driver decoders. Decoder extension. Decoder applications: serial-parallel conversion (demultiplexers). Generation of logical functions.
- Code coverters.
- Parity generator and checker. Parity generator and checker extension.
- Binary comparator. Comparator extension.
CHAPTER 6: SEQUENTIAL SYSTEMS
* Flip-flop circuits.
- Sequential system definition.
- Types and characteristics: asynchronous and synchronous.
- R S flip-flop.
- J K flip-flop.
- T flip-flop.
- D flip-flop.
- Flip-flop timing parameters.
* Shift registers.
- Register concept.
- Shift registers. Serial input, serial output. Serial input, parallel output. Parallel input, serial output. Parallel input, parallel output.
- Bidirectional register.
- Applications of registers. Sequence generator.
* Counters.
- Digital counters.
- Asynchronous counters. Decade counter.
- Synchronous counters. Serial and parallel carry.
- Reversible counter.
- Counters based on shift registers. Ring counter. Johnson counter. Anti-lockout counter.
- Applications.
* Analysis and design of synchronous sequential circuits.
- Analysis of synchronous sequential circuits.
- Transition tables and state diagrams: Mealy and Moore machine state.
- Synthesis of synchronous sequential systems.
* Integrated digital circuits. Main logic families general characteristics.
- NAND gate 7400
- TTL family and subfamilies
- Notation and encapsulation of integrated digital circuits.
- Characteristics or general parameters for digital circuits.
- Connectivity among different technologies
Title: PROBLEMAS RESUELTOS DE ELECTRNICA DIGITAL (*)
Author: C. Bariin, I. R. Matas, F. J. Arregui
Editorial: Universidad Pblica de Navarra
Title: FUNDAMENTOS DE SISTEMAS DIGITALES.
Author: THOMAS L. FLOYD.
Editorial: PRENTICE HALL.
Title: CIRCUITOS ELECTRNICOS: DIGITALES.
Author: MANUEL MAZO QUINTAS Y OTROS.
Editorial: SERVICIO DE PUBLICACIONES. UNIVERSIDAD DE ALCAL.
Title: FUNDAMENTOS DE ELECTRNICA DIGITAL
Author: CECILIO BLANCO VIEJO
Editorial: THOMSON-PARANINFO
Title: CIRCUITOS ELECTRNICOS DIGITALES II
Author: ELIAS MUOZ MERINO y otros
Editorial: SERVICIO DE PUBLICACIONES UNIVERSIDA POLITECNICA DE MADRID