syllabi

COLLEGE OF ENGINEERING AND ARCHITECTURE
UNIVERSITY OF SAN AGUSTIN
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGNINEERING
COURESE SYLLABUS (LECTURE)
Course Code: EE 105
Course Title : Energy Conversion
Credit :
Prerequisite :EE 102, (EE 103)
Co-requisite : BASIS OF GRADING:
Cut off Score:
Prelim:
Midterm:
Final:
COURSE DESCRIPTION:
To learn the different types of motors, generators and transformers. Qualification of Lecturer:

GENERAL OBJECTIVES:
At the end of this course, the students should be able to:
1. To be able to know the principles of motors and generators.
2. To learn the designs of transformers and alternators. Prepared by:

____________ __________________ __________
Name Signature Date
TEXT:
Electrical Machines
By: Siskind, Mc Graw Hill

Electrical Machines
By: Hayt, Mc Graw Hill Recommending Approval:

____________ __________________ __________
Name Signature Date

REFERENCES:
• Electrical Machines
By: Fitzgerald, 1992
• Googles. com Approved by:

____________ __________________ __________
Name Signature Date



COURSE CONTENT
Prelim
Unit I – Direct Current Motor Characteristics & Direct Current Generator Characteristics Estimated Time:
Topics Specific Objectives Instructional Activities Assessment of Outcomes No. of Hours Value Aims References
• Rotating Electrical Machines
• Armature Windings
• Field poles
• Types of DC Generators
• Voltage Characteristics of DC motors
• Transformers • To learn the ideas behind shunt motors
• To know the load characteristics of series, shunt and compound motors
• To determine the characteristics of DC generator
• To perform the parallel operations of separately exited generators • Lecture / discussion
• Research
• Supplementary Articles
• Design • Quizzes
• Class participation
• Class exercises
• Recitation
• Exam Electrical Machines
By: Siskind, Mc Graw Hill

Electrical Machines
By: Hayt, Mc Graw Hill

Topics Specific Objectives Instructional Activities Assessment of Outcomes No. of Hours Value Aims Electrical Machines
• Generator Action
• General Voltage Equation for DC Generator
• Direction of Generated Voltage
• Lorentz Law
• Lenz Law
• Force and Torque Developed by DC Motors
• Cable • Be familiar with Faradays Law
• Know different kinds Direction of Generated Voltage
• To determine what is Lorentz Law
• Lenz Law • Lecture / discuss
• Research
• Supplementary articles • Quizzes
• Class participation
• Class exercises
• Recitation
• Exam By: Siskind, Mc Graw Hill








MIDTERM
Unit II- Transformer
Topics Specific Objectives Instructional Activities Assessment of Outcomes No. of Hours Value Aims References
• Types of Armature windings
• Coin span for all types of winding
• Commutator pitch for lap windings
• Define a single phase transformers
• Perform three phase transformer connection
• Know the principles of three phase alternator • Lecture / discuss
• Research
• Supplementary articles
• Design • Quizzes
• Class participation
• Class exercises
• Recitation
• Exam Electrical Machines
By: Siskind, Mc Graw Hill

Electrical Machines
By: Hayt, Mc Graw Hill Siemens Electronic Communications by Kennedy






Unit III- Synchronous Motor
Topics Specific Objectives Instructional Activities Assessment of Outcomes No. of Hours Value Aims References
• Types of DC Generators
• No load characteristics of generators
• Degrees of Compounding Adjustment
• • Analyze synchronous motor design
• Examine the three phase squirrel cage induction motor
• Use the design of single phase induction motor • Lecture / discuss
• Research
• Supplementary articles • Quizzes
• Class participation
• Class exercises
• Recitation
• Exam Electrical Machines
By: Siskind, Mc Graw Hill

Electrical Machines
By: Hayt, Mc Graw Hill


Unit V- Alternator
Topics Specific Objectives Instructional Activities Assessment of Outcomes No. of Hours Value Aims References
• Alternator Construction
• Frequency of AC generators
• The Revolving Field


• Transformers
• Transformer Action
• Transformer Construction
• Transformer voltage and the general transformer equation
• Voltage and current ratios in transformers
• To learn the ideas behind Alternator
• To know frequency of AC generators
• To determine the revolving field and transformers Lecture / discuss
Research
Supplementary articles Quizzes
Class participation
Class exercises
Recitation
Exam Electrical Machines
By: Siskind, Mc Graw Hill

Electrical Machines
By: Hayt, Mc Graw Hill
• To learn the ideas behind transformers
• To know how transformers are constructed
• To determine the different formulas in transformers • Lecture / discussion
• Research
• Supplementary Articles
• Design • Quizzes
• Class participation
• Class exercises
• Recitation
• Exam
Batteries
• Primary Cells
• Lead Acid batteries
• Specific Gravity
• Hydrometers
• Water for Batteries
• Capacity of a batteries
• Maintaining lead-Acid Cells
• Other chemical Cells • To learn about different batteries
• To know how batteries works

• Lecture / discussion
• Research
• Supplementary Articles
• Design • Quizzes
• Class participation
• Class exercises
• Recitation
• Exam








COLLEGE OF ENGINEERING AND ARCHITECTURE
UNIVERSITY OF SAN AGUSTIN
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGNINEERING
COURESE SYLLABUS (LECTURE)
Course Code: ECE 110
Course Title :Industrial Electronics
Credit :3 hours lecture (3 units), 3 hours laboratory(1 unit)
Prerequisite :ECE 102, EE 105
Co-requisite: BASIS OF GRADING:
Cut off Score:
Prelim:
Midterm:
Final:
COURSE DESCRIPTION:
This course deals with the study of different industrial electronics materials (semiconductors) and its applications such as SCR, TRIAC, FET< three phase rectifier, UJT, single phase inverter and PLC (Programmable Logic Controller). Qualification of Lecturer:

GENERAL OBJECTIVES:
At the end of this course, the students should be able to:
1. To familiarized the components and its applications n industrial electronics
2. To be able to design using industrial electronics
3. To be able to apply the skills and knowledge they acquired in industrial electronics. Prepared by:

____________ __________________ __________
Name Signature Date
TEXT:
Recommending Approval:

____________ __________________ __________
Name Signature Date

REFERENCES:
Approved by:

____________ __________________ __________
Name Signature Date
COURSE CONTENT:
PRELIM
Unit I- Pnpn and other Devices, SCR Characteristics, and TRIAC
Topics Specific Objectives Instructional Activities Assessment of Outcomes No. of Hours Value Aims References
• Pnpn and other devices
a. Introduction
b. History of SCR
c. Basic SCR operation
d. SCR symbol and construction
e. SCR two transistor equivalent circuit
• SCR characteristics and ratings
a. Forward breakover voltage
b. Holding Current
c. Forward reverse blocking regions
• Reverse breadown voltage • To learn the principles of how the Silicon Controlled Rectifier(SCR) triggers, understand the basic operations and determine its characteristics
• To examine the SCR construction, and perform the SCR applications
• To learn the principles of how the TRIAC triggers, understand the basic operations, and determine its characteristics
• To examine the TRIAC construction, and perform the TRIAC applications
• To learn the principles of Field Effect Transistor (FET), the small signal model, and the basic FET circuits
To distinguish the different kinds of FETs such as JFET, MOSFET, etc. • Lecture / discuss
• Research
• Supplementary articles
• Exam • Quizzes
• Class participation
• Class exercises
• Recitation
• Exam • Electronics Devices & Circuit Theory , 6th Ed. By: R. Boylestad L. Nashelsky
• Gooles. Com
• Industrial Electronics by Maloney


Lab Work:

1. Silicon Controlled Rectifier
2. TRIAC
3. FET
4. JFET source- follower Circuit








MIDTERM:
Topics Specific Objectives Instructional Activities Assessment of Outcomes No. of Hours Value Aims References
• Three Phase inverters
a. The Delta connection
b. Computation of voltage and current of 3 phase
c. Balance Wye Loads
d. Current, Power and voltage per phase computations
e. Computation for AC current and DC current for 3 phase inverters
f. Three anode rectifiers
• Uni-junction Transistor(UJT)
a. Symbol and basic biasing arrangement for the UJT
b. UJT transistor basic construction
c. Typical static emitter- characteristics curves for a UJT.
d. Appearance, specification sheet and terminal identification
e. Computation of UJT problems
• Single Phase inverters
a. Introduction
b. Design circuit
Analysis • Learn the Three-phase inverters
• Learn the Uni-junction Transistor
• To understand how the inverter works

• Lecture / discuss
• Research
• Supplementary articles
• Design • Quizzes
• Class participation
• Class exercises
• Recitation
• Exam • Electronics Devices & Circuit Theory , 6th Ed. By: R. Boylestad L. Nashelsky
• Gooles. Com
• Industrial Electronics by Maloney

Lab work:

5. Three phase inverters
6. UJT (Unijunction Transistor)




FINAL
Unit III- Introductory Experiments on PLC (Programmable Logic Controller)
Topics Specific Objectives Instructional Activities Assessment of Outcomes No. of Hours Value Aims References
• Introductory experiments on Programmable Logic Controllers (PLC) and sensors
a. Introduction to PLC
b. Series and Parallel circuits
c. Numbering systems
d. Boolean Algebra
e. Input and Output
f. Internal Relays
• AND and OR • To learn the experiment on Programmable Logic Controller (PLC) and Sensors • Lecture / discuss
• Research
• Supplementary articles
• Design • Quizzes
• Class participation
• Class exercises
• Recitation
• Exam • Electronics Devices & Circuit Theory , 6th Ed. By: R. Boylestad L. Nashelsky
• Gooles. Com
• Industrial Electronics by Maloney

Lab work:
7. The programmable Logic Controller (PLC)