Title | CO - just an outline |
---|---|
Course | Digital Electronics |
Institution | Universiti Teknologi Malaysia |
Pages | 6 |
File Size | 279.4 KB |
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just an outline...
COURSE OUTLINE
Page:
Faculty:
Department of Electronic and Computer Engineering / Faculty of Electrical Engineering
Course code:
SKEE 1223
Academic Session/Semester:
Course name:
Digital Electronics
Credit hours:
42
Pre/co requisite (course name and code, if applicable):
Department/
1 of 6
2017/2018-2
Course synopsis
This course teaches the fundamental principles of digital systems. From the signal concepts and the importance of numbers systems and codes, it then proceeds to logic gates, their relationship to Boolean algebra and the integration of gates to form complex circuits. The course emphasizes on techniques to design, analyse, plan, and implement simple digital systems using gates and MSI circuits. Simulation software Quartus 2 version 13 will also be introduced to facilitate learning process.
Course coordinator (if applicable)
Dr. Amirjan bin Nawabjan
Course lecturer(s)
Sect ion 1 2 3 4 5 6 7 8 9 10 11 12
Name
Office
Contact no.
E-mail
Dr. Rashidah bte Arsat Dr. Nurzal Effiyana bte Ghazali Dr. Bruce Leow Chee Yen Dr. Mohd Ariffanan bin Mohd Basri Dr. Muhammad Al Farabi bin Muhammad Iqbal Dr. Arnidza bte Ramli PM Ir Dr Ahmad ‘Athif bin Mohd Faudzi Dr. Nadiatulhuda bte Zulkifl PM Dr. Muhammad Nadzir bin Marsono Dr. Amirjan bin Nawabjan Dr. Leow Pei Ling Dr. Mohamad Hafis Izran Ishak
P19a-05-02-10 P19a-05-02-19 P15a-01-09-01 P05-405
57168 57186 36105 35246
P19a-03-05-03
57203
[email protected] [email protected] [email protected] [email protected] [email protected]
P19a-03-11-00
57224
P08-207
35204
P19a-03-05-00 Vecad Lab-P04L1 P19a-03-12-00 P19a-05-02-11 P19a-04-03-09
57202
[email protected] [email protected]
57223 57170 57162
[email protected] [email protected] [email protected]
Prepared by: Name:
Certified by: Dr. Amirjan bin Nawabjan
Signature: Date:
[email protected] [email protected]
Name: Signature:
08.02.2018
Date:
PM. Dr. Norlaili Safri
Department/
Page:
Faculty:
Department of Electronic and Computer Engineering / Faculty of Electrical Engineering
Course code:
SKEE 1223
Academic Session/Semester:
Course name:
Digital Electronics
Credit hours:
42
Pre/co requisite (course name and code, if applicable):
2 of 6
2017/2018-2
Mapping of the Course Learning Outcomes (CLO) to the Programme Learning Outcomes (PLO), Teaching & Learning (T&L) methods and Assessment methods: *Taxonomies PLO T&L ***Assessment and (ICGPA No. CLO Weight (%) **generic methods methods CODE) skills* Apply the basic digital signal Lecture, concept, various number Active PLO1 CLO1 systems, codes, logic gates 20 C2 learning T (10%) (KW) and basic digital circuit’s F (10%) concepts. Demonstrate number Lecture, systems conversion, Active formulate logic circuit learning Q (5%) PLO3 simplification and identify T (20%) CLO2 50 C4 or construct logic digital (THPA) F (25%) circuit using gates and MSI circuits (both sequential and combinational). Combinational and Project A (10%) PLO5 sequential MSI circuits based E ( 5%) CLO3 30 C5, P1 CTPS1-3 design solutions for learning (THDS) F (15%) complex digital systems. Refer *Taxonomies of Learning and **UTM’s Graduate Attributes, where applicable for measurement of outcomes achievement ***T – Test; Q – Quiz; HW – Homework; PR – Project; Pr – Presentation; F – Final Exam, A – Assignment,E- e-portfolio Details on Innovative T&L practices: No. Type Implementation 1 Active learning Conducted through in-class activities and presentation 2 Project-based learning Conducted through design assignments. Students are given group Assignments (Problem base: Hardware and Software (Quartus II)), Written Quizzes and Final Examination.
Weekly Schedule: Week Week 1 11/2/2018
Content (Lecture)
Chapter 1: Introduction (2 hours) Differences of analog and digital. Advantage/disadvantage of digital. Example systems.
Remarks
Department/
Page:
Faculty:
Department of Electronic and Computer Engineering / Faculty of Electrical Engineering
Course code:
SKEE 1223
Academic Session/Semester:
Course name:
Digital Electronics
Credit hours:
42
Pre/co requisite (course name and code, if applicable):
Week 2 18/2/2018
Week 3 25/2/2018 Week 4 4/3/2018 Week 5 11/3/2018
3 of 6
Chapter 2: Number Systems& Digital Codes (6 hours) Conversions between number systems: decimal, binary, hexadecimal, octal.
Holiday: Chinese New Year, 18 February 2018 (Sunday)
Binary codes: BCD, Gray. Alphanumeric: ASCII, Unicode. Binary and other bases arithmetic: +, -, x, / Chapter 3: Gates and Boolean Algebra (4 hours) Logic gates. Boolean algebra. Boolean theorems. Algebraic simplifications .Conversion of equations to circuits and vice versa. Chapter 4: Combinational Logic Networks (6 hours) Minterms, maxterms, canonical SOP and POS, don’t care conditions.
Week 6 18/3/2018
Logic simplification using Karnaugh maps, Gate transformations and DeMorgan equivalent circuits.
Week 7 25/3/2018
Chapter 5: Digital IC (3 hours) IC classification, CMOS vs TTL, performance characteristics (voltage levels, propagation delay, power dissipation, noise margin, fan-in, fanout).
Week 8 1/4/2018 Week 9 8/4/2018
Mid semester break
Week 10 15/4/2018
2017/2018-2
Assessment: Test 1 (CLO1, CLO2)
Holiday: Birthday of His Majesty the Sultan of Johor, 25 March 2018 (Sunday)
Chapter 6: Combinational MSI (6 hours) Multiplexers: concepts, devices (74x153 and 74x151), expansion. Demultiplexer: concepts, devices Decoders/code converters: concepts, devices (74x138, 74x139, and 74x47), expansion. Implementations of Boolean functions using multiplexers and decoders Encoders: concepts, devices (74x148 and 74x147), expansion. Adders: half adder, full adder, ripple adder, device (74x283). Assessment: Test 2 (CLO1,CLO2) Comparators device (74x85).
Week 11 22/4/2018
Chapter 7: Latches and flip-flops (6 hours) Sequential vs combinational circuits. SR latches, Gated SR latch, Gated D latch, D flip flop, JK flip flop, T flip flop
Week 12 29/4/2018
74x74 and 74x76 devices. Preset and clear functions. Timing characteristics, timing diagrams.
Week 13 6/5/2018
Chapter 8: Sequential MSI (6 hours) Synchronous and asynchronous counters, ripple counter, 74x293 and 74x163 devices: basic usage and generating custom counting sequences
Holiday: Labour Day, 1 May 2018 (Tuesday)
Department/
Page:
Faculty:
Department of Electronic and Computer Engineering / Faculty of Electrical Engineering
Course code:
SKEE 1223
Academic Session/Semester:
Course name:
Digital Electronics
Credit hours:
42
Pre/co requisite (course name and code, if applicable):
Week 14 13/5/2018
4 of 6
Register shift registers (SISO, SIPO, PISO, PIPO), shift register counters (Johnson and Ring), 74xl64, 74xl64, 74xl65, 74xl94, 74xl95 devices.
2017/2018-2
Assessment: Test 3 (CLO1,CLO2) Holiday: First day of Ramadhan, 17 May 2018 (Thursday)
Week 15 20/5/2018
Chapter 9: Memory & Programmable Logic (3 hours) RAM, ROM, PLA, PAL, GAL.
Week 16 -18 27/5/2018
Revision Period (1 week: 25 May – 29 May 2018)
Assessment: Final Exam (CLO1,CLO2,CLO3)
&
Holiday: Wesak, 29 May 2018 (Tuesday)
Final Examination (3 weeks: 30 May – 14 June 2018)
Birthday of His Majesty Seri Paduka Baginda Yang Di – Pertuan Agong, 2 June 2018 (Saturday) Eid Al – Fitri, 15 - 16 June 2018 (Friday & Saturday)
Transferable skills (generic skills learned in course of study which can be useful and utilised in other settings): Team working Written communication Presentation
Student learning time (SLT) details: Distribution of student Learning Time (SLT) Guided Learning Course (Face to Face) content outline CLO CLO1 CLO2 CLO3 Total SLT
L 12h 21h 9h 42h
T 4h 7h 3h 14h
Teaching and Learning Activities TOTAL SLT Guided Learning Non-Face to Face
P
Independent Learning Non-Face to face
O 10h 12h 5h 27h
10h 12h 9h 31h
38h 53h 23h 114h
Department/
Page:
Faculty:
Department of Electronic and Computer Engineering / Faculty of Electrical Engineering
Course code:
SKEE 1223
Academic Session/Semester:
Course name:
Digital Electronics
Credit hours:
42
Pre/co requisite (course name and code, if applicable):
Continuous Assessment 1
Quiz
PLO2
5
% each 1
2
Test
PLO1 PLO2
2
15
30
2h 30m
3
Simulation assignment and e- portfolio Final Assessment Final examination
PLO5
1
10+5
15
as in CLO3
% total 50
Total SLT 2h 30m
1
PLO
Number
5 of 6
PLO1 PLO2 PLO5
Grand Total L: Lecture, T: Tutorial, P: Practical, O: Others
2017/2018-2
Total SLT
Dates
5
1h
Will be informed in class (Choose 2) Test 1:Week 5 Test 2: Week 10 Test 3: Week 14
% total
Will be informed in class
Exam Week 100
120h
Special requirement to deliver the course (e.g: software, nursery, computer lab, simulation room): Simulation software Quartus 2
Learning resources: Text book (if applicable) Main references 1. PM Munim, Izam Kamisian & Muhammad Arif, “A Book of Digital Electronics”. 2017 2. Thomas L. Floyd, "Digital Fundamentals" 10th Ed., Prentice Hall, 2009 3. Tocci & Widmer, "Digital Systems Principles and Applications", 11th Ed., Prentice Hall, 2011. 4. M. Morris Mano, "Digital Design", 4th Ed. Prentice Hall, 2007. Online http://elearning.utm.my
Academic honesty and plagiarism: Assignments are individual tasks and NOT group activities (UNLESS EXPLICITLY INDICATED AS GROUP ACTIVITIES) Copying of work (texts, simulation results etc.) from other students/groups or from other sources is not allowed. Brief quotations are allowed and then only if indicated as such. Existing texts should be reformulated with your own words used to explain what you have read. It is not acceptable to retype existing texts and just acknowledge the source as a reference. Be warned: students who submit copied work will obtain a mark of zero for the assignment and disciplinary steps may be taken by the Faculty. It is also unacceptable to do somebody else’s work, to lend your work to them or to make your work available to them to copy. Other additional information (Course policy, any specific instruction etc.): -
Department/
Page:
Faculty:
Department of Electronic and Computer Engineering / Faculty of Electrical Engineering
Course code:
SKEE 1223
Academic Session/Semester:
Course name:
Digital Electronics
Credit hours:
42
Pre/co requisite (course name and code, if applicable):
6 of 6
2017/2018-2
Disclaimer: All teaching and learning materials associated with this course are for personal use only. The materials are intended for educational purposes only. Reproduction of the materials in any form for any purposes other than what it is intended for is prohibited. While every effort has been made to ensure the accuracy of the information supplied herein, Universiti Teknologi Malaysia cannot be held responsible for any errors or omissions....