EEEI Building, Velasquez Street, University of the Philippines Diliman Campus, 1101 Quezon City, Philippines

Tel: +63-2-9818500 local 3300 TeleFAX: 925-2957 URL: http://www.eee.upd.edu.ph/ 3

ELECTRICAL AND ELECTRONICS ENGINEERING INSTITUTE

EEE 1: Essentials of Electrical & Electronics Engineering 2nd Semester AY 2012-2013

Credits: 4 units (3 units lecture + 1 unit laboratory) Schedule: LECTURE T/Th 4:00pm – 5:30pm ASTEC Multimedia Lecture Hall (LC2) LABORATORY M/W/F/S varies per lab section EEEI Rm. 305 (A-Lab) Course Description:

Analysis of direct current (DC) and alternating current (AC) circuits; ideal transformers; motors and generators, characteristics and methods of control; diode and transistor circuits; digital circuits and logic gates; transducers and transducer circuits; operational amplifiers; motor control; feedback control systems; introduction to digital control; introduction to programmable logic controllers.

Prerequisites:

Applied Physics, ChE, and ME students; Physics 72/Physics 102, and ES 21/Math 121.1

Lecturer:

Leonard Bryan B. Paet MTWThF 10:00am – 12:00nn , or email for appointment

EEEI Wireless Communications Engineering Laboratory (WCEL) Faculty Rm. 304/306 +63-2-9818500 ext. 3305 lenard@eee.upd.edu.ph

Goals: The course is designed to make students: • Understand basic electrical and electronics engineering concepts, laws and principles • Appreciate the applications of electrical and electronics engineering concepts in relation to their

chosen field of study Objectives:

At the end of the course, the students are expected to: 1. Describe the basic laws and principles of electrical circuits. 2. Solve AC and DC circuits using fundamental circuits analysis techniques. 3. Describe the operating principles and characteristics of transformers and AC and DC machines and

their applications in industry. 4. Solve simple diode and transistor circuits and identify and appreciate their use in simple practical

applications. 5. Analyze, design and implement simple digital logic circuits. 6. Differentiate the different types of transducers and their applications in industry. 7. Illustrate the use of signal conditioning and data acquisition circuits in digital control. 8. Analyze, design and implement simple op-amp circuits and describe their applications. 9. Describe and appreciate the basic operation of feedback control systems and their applications in

industry. 10. Describe the operation and applications of programmable logic controllers in industry. 11. Create ladder diagrams and implement simple application programs on the programmable logic

controller.

EEEI Building, Velasquez Street, University of the Philippines Diliman Campus, 1101 Quezon City, Philippines

Tel: +63-2-9818500 local 3300 TeleFAX: 925-2957 URL: http://www.eee.upd.edu.ph/ 3

Course Schedule: Meeting Lecture Topics

1 Class outline and policies Basic concepts: charge, voltage, current,

energy and power 2-4

Circuit elements: ideal sources and resistor Kirchhoff’s Law Resistance and source combinations DC circuit examples

5 – 7

Useful Circuit Analysis Techniques a. voltage and current division b. nodal and mesh Analysis c. Thevenin’s and Norton’s Theorems d. Y-Δ transformation e. source transformation f. superposition

First Exam: Tuesday, December 11, 2012 (6 - 8pm, VLC) 8-9

Additional circuit elements: capacitor and inductor

Sinusoidal function a. leading and lagging sinusoids b. average and RMS values c. effective value of a sinusoid AC circuit response (sinusoid source)

10-12 Phasor Analysis a. rectangular and polar forms b. impedance c. network transformation d. power equations

13 Ideal transformers

Meeting Lecture Topics

14 Introduction to AC machines DC shunt machines

Second Exam: Monday, February 04, 2012 (6-8pm, VLC) 15-16 Semiconductors

Diodes 17-18 Transistors 19-20

Digital Circuits a. Boolean theorems b. logic gates c. logic circuit analysis and design

Third Exam: Monday, March 04, 2012 (6-8pm,VLC) 21 Transducers

Analog-Digital conversion 22-23 Operational amplifiers 24-25

Feedback Control Systems a. Open-loop vs. Closed-Loop b. System Modeling c. Transient and Steady-state Response d. System Stability

26

Programmable Logic Controllers a. Relays b. Ladder Diagrams c. PLC Programming

Fourth Exam: Monday, March 25, 2012 (6-8pm, VLC) Comprehensive Exam (TBA)

Class Policies:

1. Attendance will be checked once in a while. A student who is 20 min. late is considered absent. University rules on attendance will be strictly implemented.

2. Student participation in lectures is not mandatory but is highly encouraged. Quizzes and/or “Clicker” surveys will be conducted once in a while to gauge the students’ understanding of the lessons covered. Attendance may be derived from these quizzes/surveys.

3. A student incurring more than six (6) absences in lectures or more than three (3) absences in laboratory sessions will have to drop the course and be given a grade of 5.0 (or forced drop if majority of the absences are excused).

4. Acts of dishonesty will be dealt with accordingly. The Electrical and Electronics Engineering Institute

will file a case against any student who is caught committing an act of dishonesty (i.e. plagiarism, cheating). If a student is found guilty, the minimum penalty is one-year suspension from the university.

5. There will be four (4) long exams and NO final exam for the lecture class. Only one (1) missed written

exam with a valid excuse is allowed per student. A comprehensive exam will be given to those with an excused missed exam provided that the average of the remaining three exams is at least 60%. Their score in the comprehensive exam will replace the missed exam score.

6. Exam papers may only be submitted for re-grading up to one week from the time the papers/exam

solution were released.

EEEI Building, Velasquez Street, University of the Philippines Diliman Campus, 1101 Quezon City, Philippines

Tel: +63-2-9818500 local 3300 TeleFAX: 925-2957 URL: http://www.eee.upd.edu.ph/ 3

Grade Distribution:

Component Requirements Weight LECTURE

(100%) 4 Long Exams 80%

Quizzes/Attendance 20%

LABORATORY (100%)

4 Lab Exercises 40% 2 Oral/Practical Exam 40%

1 Design Problem 20% *Laboratory Presence 5%

Students must pass both lecture and laboratory components in order to pass this course. The final grade shall be computed as:

FINAL GRADE = 60% LECTURE + 40% LABORATORY

UP Standard Grading Scheme will be used to compute for the UPG

FINAL UPG FINAL UPG [92,+∞) 1.00 [72,76) 2.25 [88,92) 1.25 [68,72) 2.50 [84,88) 1.50 [64,68) 2.75 [80,84) 1.75 [60,64) 3.00 [76,80) 2.00 (−∞,60) 5.00

References:

D. E. Johnson, et al. “Electric Circuit Analysis 3rd Edition.” © 1997, Wiley.

AC and DC Circuits Transformers

B.L. Theraja. “Fundamentals of Electrical Engineering and Electronics 28th Ed.” © 1997. S. Chand and Co. Ltd., Ram Nagar, New Delhi, India.

AC and DC Machines Transformers

A. E. Fitzgerald. “Electric Machinery 6th Edition”. © 2002 McGraw-Hill Companies.

AC and DC Machines

V. Del Toro. “Principles of Electrical Engineering 2nd Ed” © 1972. Prentice-Hall.

AC and DC Machines AC and DC motor control Control Systems examples

R. Boylestad , L. Nashelsky. “Electronic Devices and Circuit Theory 10th Ed.” © 2008. Prentice Hall, NJ.

Diodes and Transistor Circuits

M. Mano. ”Digital Design 4th Ed.” ©2006. Prentice-Hall.

Digital Logic Circuits

L. D. Jones, A. F. Chin. “Electronics Instruments and Measurement 2nd Ed.” ©1991. Prentice-Hall Intl. Editions.

Transducers Introduction to Digital Control DC and AC Measurements (lab)

R. Coughlin, F. Driscoll. “Operational Amplifiers and Linear Integrated Ckts. 6th Ed.” ©2000. Prentice-Hall Int’l. Editions.

Operational Amplifiers A/D and D/A Converters

R. C. Dorf and R. H. Bishop.” Modern Control Systems 12th Ed.” ©2010. Addison Wesley Longman Inc.

Feedback Control Systems

D. R. Patrick. “Electronic Instruments 4th Edition.” ©1992. Prentice-Hall Englewood Cliffs, NJ.

PLCs

C. Moberg. “AC and DC Motor Control with Related Electrical Code Featuring Code Talk” ©2006. Pearson Education

AC and DC Motor Control PLCs