Module Catalogues, Xi'an Jiaotong-Liverpool University   
 
Module Code: EEE104
Module Title: Digital Electronics I
Module Level: Level 1
Module Credits: 2.50
Academic Year: 2017/18
Semester: SEM2
Originating Department: Electrical and Electronic Engineering
Pre-requisites: EEE109
   
Aims
This module aims to provide students with knowledge of:

A knowledge of basic design methods for combinational and sequential logic circuits.

An understanding of number systems such as binary, hexadecimal, BCD

A knowledge of the laws of Boolean algebra.
Learning outcomes 
Knowledge and Understanding

On successful completion of the module, students should be able to demonstrate: .

Knowledge of the capabilities of synchronous digital systems.


Intellectual Abilities

On successful completion of the module, students should be able to demonstrate ability in applying knowledge of the above topics to

Design a stable and robust digital system.


Practical Skills

On successful completion of the module, students should be able to show experience and enhancement of the following discipline-specific practical skills:

Design digital system.


General Transferable Skills

On successful completion of the module, students should be able to show experience and enhancement of the following key skills:

Independent learning.

Problem solving and design skills
Method of teaching and learning 
This module is delivered through lectures and tutorials.

Problems are embedded within lectures and knowledge of the lecture material is tested by weekly home works delivered on the web based system.

Students will use the knowledge developed in the Laboratories included in the Experimental Skills module.
Syllabus 
Chapter 1. Introduction Codes, coding, number systems and arithmetic

Chapter 2. Combinational Logic

Basic logic elements, circuit description by truth table and Boolean algebra.

Design of circuits including the minimisation by Karnaugh map technique.

Introduction to electronic principles of gate circuits.

Simple application of logic circuits in computers.

Chapter 3. Sequential Logic

Basic features of sequential elements including SR and D type, JK and T type. Design of sequential logic circuits, e.g. counters, registers.

Chapter 4. Synchronous Sequential Circuits

Analysis of circuits. State tables, state diagrams. Design method for synchronous sequential circuits. Design examples.

Chapter 5. Asynchronous Sequential Circuits

Introduction to asynchronous sequential circuits. Algorithmic state machines. State flow tables. Feedback logic and set reset flip-flop based asynchronous sequential circuit design.
Delivery Hours  
Lectures Seminars Tutorials Lab/Prcaticals Fieldwork / Placement Other(Private study) Total
Hours/Semester 19   4    6    45  75 

Assessment

Sequence Method % of Final Mark
1 Final Exam 70.00
2 Assignments 10.00
3 Laboratory 10.00
4 Midterm Exam 10.00

Module Catalogue generated from SITS CUT-OFF: 10/22/2017 10:28:53 AM