SYLLABUS
EET 2023 - DIGITAL COMPUTER ELECTRONICS
Spring 2012
Meeting Times: Lecture 9:30 to 10:20 am Monday and Wednesday
Lab
3:00 to 4:50 pm Wednesday
Prerequisite:
EET 1013 and an understanding of plane trigonometry.
Instructor: Mr. Mark Polson
Phone:
581-2893
E-mail:
mpolson@cameron.edu
Web Site: www.cameron.edu/~mpolson
Office:
225H Science Complex
Office hours: 10:30 to 11:30 am Monday and Wednesday and by appointment.
COURSE DESCRIPTION: Circuit analysis and applications using digital integrated circuits
with emphasis on digital computer circuits.
OBJECTIVES: Upon completion of this course, students should be able to:
PO2
PO2
PO2
PO2
PO1
PO1
PO4
PO3
PO9
Perform decimal, binary, octal, or hexadecimal number system conversions.
Perform binary, octal, hexadecimal, two’s complement, and BCD arithmetic
Explain digital logic and Boolean algebra concepts
Construct truth tables and draw timing diagrams
Explain in detail the operation of various TTL devices, including Flip-Flops, Counters, and Shift
Registers.
Design and construct various digital circuits
Use available digital test equipment
Gain proficiency in the testing, troubleshooting, and debugging of digital circuits
Prepare technical reports on laboratory experiments related to digital electronics.
LAB EQUIPMENT:
Students may use digital/analog meters, oscilloscopes, logic probe/pulser, signal generators,
digital trainers, and other equipment as required.
REQUIRED TEXT:
Floyd, Thomas L., Digital Fundamentals,10th Edition. Prentice-Hall, 2008
Buchla, David, Experiments in Digital Fundamentals, 10th Edition. Prentice-Hall, 2008
REFERENCES:
Digital Systems Principles and Applications, 9th Edition; Tocci, Widmer, and Moss, PrenticeHall, 2004
The TTL Data Book, Texas Instruments
STUDENT EVALUATION:
2 exams at 100 points
1 final exam at 200 points
12 Labs at 25 points
Homework
5 Quizzes at 20 points
Total points
= 200 points
= 200
= 300
= 200
= 100
= 1000
End of Course Grade
A = 900 - 1000
B = 800 - 899
C = 700 - 799
D = 600 - 699
F = Less than 600
I = Incomplete
W = Withdrawal *
NOTE:
The instructor reserves the right to lower the number of points required to earn one
or more of the letter grade categories.
* The instructor does not have the authority to withdraw the student from class. The
procedure must be initiated by the student. The last day to withdraw from the class with an
automatic W is April 8, 2011.
COURSE SCHEDULE SEQUENCE:
Chapter
1
2
3
4
5
6
7
8
9
Digital Concepts
Number Systems, Operations, and Codes
Logic Gates
Boolean Algebra and Logic Simplification
Combinational Logic Analysis
Functions of Combinational Logic
Latches, Flip-Flops, and Timers
Counters
Shift Registers
INSTRUCTOR’S POLICIES:
Students are expected to read the text and communicate with the instructor if there are any
questions that you are not sure of. All scheduled assignments/projects are to be turned in at
the beginning of the class period on the date they are due or they are considered late and will
be penalized 25%. Late work will not be accepted after the instructor has returned the class
papers. Neatness is expected and will be part of the grade.
If you know in advance that you will not be able to take the Final on the scheduled date, it is
your responsibility to make arrangements for a pre-test. No student will be seated for an
exam after the first student has left the exam room.
Each laboratory experiment must be validated by having a copy of the results initialed by the
instructor or other authorized individual prior to the lab being disassembled (no exceptions).
The instructor will want to observe the completed experiment in operation, so do not
take the experiment apart until approved by the instructor or no credit will be given for
the work. A copy of the sheet with the instructors initial will be turned in with the lab report.
Place all equipment and components in their proper location and clean your work area prior to
leaving the laboratory. Food and/or beverages will not be allowed in the laboratory room.
University Policy:
Cameron University discourages lecture and/or laboratory attendance by any person not
enrolled in the course. Included are student’s friends, student’s spouses, and student’s
children.
Tobacco product use is not allowed in any building on Cameron University campus.
Accommodations of Disabilities:
It is the policy of Cameron University to accommodate students with disabilities, pursuant to
federal and state law. Students with disabilities who need classroom accommodations must
make their requests by contacting the Office of Student Development at (580) 581-2209,
North Shepler, Room 314.
Academic Honesty:
Each student is expected to engage in all academic pursuits in a manner that is above
reproach. Students are expected to maintain complete honesty and integrity in the academic
experiences both in and out of the classroom. Any student found guilty of academic
dishonesty will be subject to disciplinary action.
EXAMINATION SCHEDULE:
Exam 1
Ch 1-3
Exam 2
Ch 4-6
Final
Comprehensive (Ch 1- 9)
Tentative Date
February 13
April 02
May 04
8:00 to 10:00 AM
HOMEWORK PROBLEMS: There will be 12 homework assignments during the semester.
Num.
#1
#2
#3
#4
#5
#6
#7
#8
#9
# 10
# 11
# 12
Chap.
1
2
2
3
4
4
5
5
6
7
8
9
Questions
Due Date
7, 8, 9, 11, 16, 18, 19, 26, 28
01/18
7a,g, 8g,i, 13a,g, 15d,f, 22c,h
01/25
35, 37b,g, 39c,g, 41a, 45e, 47j, 51f, 56a, 57a, 65a,b 02/01
7, 10, 26, 27, 32, 34
02/08
2, 5b,e, 8b,e, 10a,d, 13c
02/22
20a,d, 23c, 31b, 33a, 38, 40c, 44c
02/29
2b, 4e, 6d, 14, 15, 21, 22
03/07
28, 29, 35, 40, 42, 43, 56
03/14
1a, 4, 8, 14, 19, 22, 23, 25b,d, 28
03/28
2, 4, 6, 10, 12, 19, 20, 27, 29, 30
04/11
4, 10, 16, 18, 23, 24
04/18
6, 8, 10, 12, 18, 22, 26
04/25
LABORATORIES: There will be 12 labs performed during the semester.
Laboratory
1
2
3
4
5
6
7
8
9
10
11
12
Experiment
2 Constructing a Logic Probe
3 Number Systems
4 Logic Gates
5 More Logic Gates
7 Boolean Laws & DeMorgan’s Theorem
8 Logic Circuit Simplification
10 The Molasses Tank
11 Adder & Magnitude Comparator
12 Combinational Logic for Multiplexers
16 The J-K Flip Flop
17 One-Shots & Multivibrators
18 Asynchronous Counters
Laboratory Reports:
Each lab report is worth 25 points and will consist of the following:
(5 Points) 1. Cover Page - Title of exercise
Student’s Name
Date exercise was performed
Date of report submission
(5 Points) 2. An introduction which states the purpose of the experiment with expected
results, in your own words. This should include a description of the
theoretical action of the circuit and a schematic drawing of the circuit
preferably using Electronic Work Bench.
(5 Points) 3. The Lab Workbook Sheet (or copy) with recorded results as well as any
calculations made to complete the experiment. This sheet must have been
initialed by the instructor. This section also includes the “For Further
Investigation” portion of the lab.
(5 Points) 4. A sheet which compares your Lab results with the stated expected
results and an explanation of why the achieved results were or were not
comparable. If the Lab's purpose is to prove a stated “Law”, be sure to
give evidence that the Law is proven. All observed wave forms should be
drawn and explained with reference levels and phase relationships
noted.
(5 Points) 5. There should be a final page where you will answer the lab Evaluation
and Review Questions and give your conclusions about the results of
your experiment. Give evidence to support your conclusions.
Note: Lab reports are to be neat and easy to read. Any calculations
necessary to perform the lab should be included with the report.