2014年5月17日 星期六

Digital Electronics (EE101) 2006-2007


Digital Electronics (EE101)   2006-2007
Lecturer: Dr. Conor McArdle
School of Electronic Engineering
Dublin City University
mcardlec@eeng.dcu.ie

Course materials developed by Dr. Derek Molloy and Dr. Ovidiu Ghita


Welcome to the Digital Electronics Course for Engineers
The aim of this course is to provide the student with an introduction
to basic digital electronic devices and their applications. 
Digital circuit design is one of the fundamental areas of 
electronic & mechatronic engineering and computer science.


Syllabus

 

Timetable & Course Structure

Binary Logic: Basic Boolean operators (AND, OR, NOT).
Boolean algebra: De Morgan's Laws. Further Boolean operators (XOR, NAND, NOR). Minimization of logic functions using boolean algebra; using Karnaugh maps, including 3-variable and 4-variable cases.
Binary Arithmetic: Representation of positive integers and fractions in binary notation. Conversion between decimal and binary notations. Addition of binary numbers. Logic circuits for performing binary addition including the half-adder, the full-adder, and the parallel adder.
Binary representation of negative numbers including sign- plus-magnitude, one's complement and two's complement. Addition of negative numbers. Subtraction.
Binary Coded Decimal representation. Addition and subtraction of BCD numbers using the nine's complement method.
Sequential Logic: Sequential logic elements including S-R, D, and J-K flip-flops.
Applications of flip-flops including data registers and shift registers. Asynchronous binary counters. Down counters. Counters with any number of states. Synchronous binary counters. Comparison of maximum frequency of operation of asynchronous and synchronous counters.
2 hours per week for 12 weeks
Monday 10.00 (HG09) and Tuesday 9.00 (CG20)
1 hour per week for 12 weeks
Monday 17.00 (CG28)
One Assignment (10%)Labs: (15%)
 Wednesday 9.00-12.00 (SG16)  (Weeks 2,4,6,8,10)  5 lab sessions  3 hours per week every 2nd week  Must complete pre-lab questions before lab  Lab notebook required  Students' attendance will be recorded by demonstrator

4 questions out of 5 (75%)

Instruction Approach

The course consists of lectures, homework assignments, dedicated tutorial sessions and coursework. The coursework comprises of laboratory based experimentation. Students must complete their coursework successfully before they are eligible to sit the end-of-year exam. For more information see the Module Descriptor.

Recommended Texts

Lectures:
Tutorials:
Coursework:
Exam:
"Digital Fundamentals",
7th Edition,
Merrill  
2000
Restricted Loan (621.3815) 4 copies and 1 in 24 hour loan
3rd edition 2 copies in main lending - 1 lost (621.3815)
2nd edition 1 copy (621.3815)
On-Line Digital Electronics Coursework Manual

DCU
1997




DCU
2003




Use the Internet version.

Additional Texts

T.L. Floyd,



D. Molloy,

O. Ghita &
D. Molloy,
On-Line Digital Electronics 
Lecture Notes



"Digital Design from Zero to One",
Available in shop - no copies in library as yet.
"Fundamentals of logic design"
Fourth Edition
West
One copy in main lending (621.395)
"Logic Circuits"
Third Edition
McGraw-Hill
3rd ed. One copy in main lending (621.381537)
2nd ed. One copy lost (621.381537)
"Digital Logic and Computer Design"
First Edition 
Prentice-Hall 
4 copies in main lending (621.38195835)

EE101 Digital Electronics - Design and content developed by Derek Molloy. All documents and images ©Derek Molloy 1998-2006. Please do not reproduce anything from these pages without his expressed permission.
Daniels, J.D.,
First Edition 
Wiley
1996

Roth, C.H.,
1992

MorrisN.M.,
1983


Mano, M.M.,
1979


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