Ee Ece Syllabus[1]
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B BA AC CH HE EL LO OR RO OFF SSC CIIE EN NC CE E IIN NE EL LE EC CT TR RIIC CA AL LE EN NG GIIN NE EE ER RIIN NG G ((B BSSE EE E)) IInnttrroodduuccttiioonn:: The invention of incandescent bulb by Thomas Edison spawned the development of Electrical Engineering profession. From that time onwards, Electrical Technology is changing so rapidly all over the world. In circuits, for example, there was a fast turnover from vacuum tubes to transistors then to integrated circuits and recent developments have now microprocessors and microcontrollers. Likewise, Power Engineers used slide rules which later outmoded by calculators in computational tasks. Then came highly technological and scientific general-purpose computers which made routine calculation encountered in everyday Electrical Engineering works economically feasible. Most industries today are adapting this new technology especially in their new equipment. Electrical Engineers have to adjust and cope up with the advancement of knowledge and skills needed consistent with the principles of sustainable development. Courses related to the knowledge in response to these changes must be formulated in the Electrical Engineering curriculum. O Obbjjeeccttiivveess:: The BSEE program is offered to produce graduates who will be able: 1. to learn and obtain a baccalaureate education necessary to understand the impact of Electrical Engineering in a global, societal and environmental context consistent with the principles of sustainable development; 2. to identify, analyze and solve Electrical Engineering problems with the recognition of the role computers will play in the solution process; 3. to conduct research activities and extension services for the benefit of the community; 4. to qualify in taking the licensure examination in Electrical Engineering; and, 5. to qualify for further study in the post-baccalaureate level towards a field of specialization.
B BA AC CH HE EL LO OR RO OFF SSC CIIE EN NC CE E IIN NE EL LE EC CT TR RIIC CA AL LE EN NG GIIN NE EE ER RIIN NG G ((B BSSE EE E)) ((L I S T O F C O U R S E S B Y S E M E S T E R ) LIST OF COURSES BY SEMESTER)
First Year, First Semester Course No. Eng 1 Eng 3 Fil 1 Math 17 Hist 1 PE 1 NSTP 1
Course Title
Units
College English I Oral Communication Sining ng Komunikasyon Algebra and Trigonometry Philippine History Physical Fitness and Health National Service Training Program 1 Total
3 3 3 6 3 2 (3)
Prerequisite(s) Hrs/Wk Lec Lab Total 3 0 3 None 3 0 3 None 3 0 3 None 6 0 6 None 3 0 3 None 2 0 2 None None
20
20
0
20
First Year, Second Semester Course No. Eng 2 Bio 1 Chem 12 Chem 12.1 Math 51 Hist 3 PE 2 NSTP 2
Course Title
Units
Hrs/Wk Lab Total 0 3 0 3 0 3 3 3
Prerequisite(s)
College English II Basic Biology Fundamentals of Chemistry Fundamentals of Chemistry Lab Analytic Geometry and Calculus I History of the Muslim Filipinos and the Indigenous Peoples of MINSUPALA Martial Arts/Dance National Service Training Program 2 Total
3 3 3 1
Lec 3 3 3 0
6
6
0
6
Math 17
3
3
0
3
None
2 (3)
2
0
2
PE 1 NSTP 1
21
20
3
23
Eng 1 Math 17 Math 17 Math 17
Second Year, First Semester Course No. Eng 4 CSc 101
Course Title Introduction to Literature Introduction to Computer Programming
Units 3 3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 Eng 2 2
3
5
Math 17
Math 61 Phys 21 Phys 21.1 Hum 1 PE 3 ES 51
Analytic Geometry and Calculus II General Physics I Laboratory Physics I Introduction to Humanities Individual and Dual Sports Engineering Drawing Total
6 3 1 3 2 2 23
6 3 0 3 2 0 19
0 0 3 0 0 6 12
6 3 3 3 2 6 31
Math 51 Math 51 Math 51 None PE 1 Math 51
Second Year, Second Semester Course No.
Course Title
Units
Hrs/Wk Prerequisite(s) Lec Lab Total
Math 71
Analytic Geometry and Calculus III
6
6
0
6
Phys 41
General Physics III
3
3
0
3
Phys 41.1
Laboratory Physics III Philippine Government and Constitution, Agrarian Reform, Taxation, Family Planning and Population Education Team Sports Elements of Material Science Probability and Statistics in Engineering Total
1
0
3
3
Math 61 Phys 21, Phys 21.1 Phys 21, Phys 21.1
3 2 3
3 2 3
0 0 0
3 2 3
None PE 1 Chem 12
3 21
3 20
0 3
3 23
Math 71
Pol Sci 2 PE 4 ES 67 ES 85
Third Year, First Semester Course No. Phys 31 Phys 31.1 ES 61 ES 81 EE 128
Course Title
Units
General Physics II Laboratory Physics II
3 1
Statics of Rigid Bodies Mathematical Methods of Engineering I Electrical Engineering Laboratory and Instrumentation I
3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 Phys 21 0 3 3 Phys 21 Math 71 3 0 3 Phys 21/21.1
3
3
0
3
Math 71
1
0
3
3
EE 131
EE 131 EE 171
Electrical Circuit Theory I Electrical Materials And Devices Total
3
3
0
3
3 17
3 15
0 6
3 21
Math 71 Phys 41 Math 71 EE 131
Third Year, Second Semester Course No. ES 62
Course Title
Units 3
EE 129 EE 132
Dynamics of Rigid Bodies Mechanics of Deformable Bodies Numerical Methods Electrical Engineering Laboratory Electrical Circuit Theory II
EE 136
Electromagnetics
EE 172
Electronics Circuits I
ES 64 ES 84
Total
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 ES 61
3 3
3 2
0 3
3 5
ES 61 ES 81,CSc 101
1 3
0 3
3 0
3 3
3
3
0
3
4 20
3 17
3 9
6 26
EE 131 EE 131 Phys 41 Math 81 EE 131 EE 171
Fourth Year, First Semester Course No. ES 91 EE 133 EE 147 EE 173
Course Title
Units
Hrs/Wk Lab Total 0 3 0 3 0 3 3 6
3 3 3 4
Lec 3 3 3 3
EE 177
Engineering Economy Advanced Circuit Theory Energy Conversion Electronics Circuit II Logic Circuits and Digital Electronics
4
3
3
6
ME 151
Thermodynamics
3 19
3 16
0 9
3 25
Total
Prerequisite(s) 4th Year Standing
EE 132 EE 132 EE 172 Math 71 Phy 41 Math 71 Phys 41/41.9
Fourth Year, Second Semester Course No. Hist 5 ES 65 ES 92 EE 148 EE 150
Course Title Life and Works of Rizal Mechanics of Fluids Engineering Management Electrical Machines Power System Analysis I
3 3 3 3 3
Hrs/Wk Lec Lab Total 3 0 3 3 0 3 3 0 3 2 3 5 3 0 3
EE 182
Communication Systems
4 19
3 17
Summer: EE Practicum (320 Hours)
Units
Total
3 6
6 23
Prerequisite(s) None ES 62 4th Year Standing
EE 147 EE 147 ES 81 EE 173
Fifth Year, First Semester Course No. EE 158 EE 179 EE 188 EE 199
Course Title
Units
Electrical System Design Linear Control Systems Computer Architecture and Organization Electrical Engineering Research and/or Project EE Elective EE Elective Total
3 3
Hrs/Wk Prerequisite(s) Lec Lab Total 2 3 5 EE 150 3 0 3 EE 133
3
3
0
3
EE 177
3 3 3 18
1 3 3 15
6 0 0 9
7 3 3 24
Cand for Grad 5th Year Standing
Fifth Year, Second Semester Course Title
Units
Hrs/Wk
Prerequisite(s)
Course No. STS 1 EE 176 EE 181 ECE 191
EE 123
Course Title
Units
Hrs/Wk Prerequisite(s) Lec Lab Total
Science, Technology and Society 3 3 0 Industrial Electronics and Instrumentation 3 2 3 Electrical Engineering Laws, Code, Ethics, etc. 3 2 3 EE Laws, Trips and Seminars 3 2 3 EE Elective 3 3 0 EE Elective 3 3 0 Total 18 15 9 C A T A L O G U E O F C O U R S E CATALOGUE OF COURSE
3
5th Year Standing
5
EE 173
5 5 3 3 24
Cand for Grad Math 71 5th Year Standing 5th Year Standing
ELEMENTARY ELECTRICAL ENGINEERING
Fundamentals of electric and magnetic circuits; direct and alternating current machinery; elementary distribution system and electrical wiring; laboratory exercises. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : Math 71 (Analytic Geometry and Calculus III) and Phys 41 (General Phys III) EE 124
INDUSTRIAL ELECTRONICS AND MEASUREMENTS
Fundamental of electronic devices and circuits; electrical measurements and their industrial applications. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 123 (Elementary Electrical Engineering) EE 125
ELECTRICAL EQUIPMENT AND CONTROL
Theory and characteristic of electrical equipment; associated devices and circuits for their control; application in power and industrial systems. Credit : 3 unit (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 124 (Industrial Electronics and Measurements) EE 128
ELECTRICAL LABORATORY AND INSTRUMENTATION I
Basic skills in fabricating electrical and electronics circuits including soldering, wire wrapping, PCB fabrication; house wiring; safe laboratory practices. Credit
: 1 unit (3 hrs lec)
Co-requisite(s): EE 131 (Electrical Circuit Theory I) EE 129
ELECTRICAL LABORATORY AND INSTRUMENTATION II
Laboratory procedures; data analysis; standard electric instruments and circuits; basic electric circuit behavior; transducers. Credit : 1 unit (3 hrs lab) Prerequisite(s) : EE 131 (Electrical Circuit Theory I) EE 131
ELECTRICAL CIRCUIT THEORY I Circuit parameters; circuit laws, principles and theorems; DC circuits; networks; response of linear networks to constant and exponential excitation; circuits in the sinusoidal steady-state; phasor algebra. Credit : 3 units (3 hrs lec) Prerequisite(s): Math 71 (Analytic Geometry and Calculus III) and Phys 41 (General Physics III) EE 132
ELECTRICAL CIRCUIT THEORY II
Polyphase circuits; complex frequency; adjustable circuits in the sinusoidal steady-state; magnetically coupled circuits; Laplace transforms.
EE 133
Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 131 (Electrical Circuit Theory I) ADVANCED CIRCUIT THEORY
Two port networks; state variable analysis; Fourier analysis; Fourier transforms; image parameters and conventional filters. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 132 (Electrical Circuit Theory II) EE 136
ELECTROMAGNETICS I
Introduction to vector analysis; electrostatics, dielectric materials; conductors; steady magnetic field coupled circuits; magnetic materials; time varying fields; Maxwell's equation; some application of Maxwell's equations. Credit : 3 units (3 hrs lec) Prerequisite(s) : Phys 41 (General Physics III) and Math 81 (Analytic Geometry and Calculus III) EE 137
ELECTROMAGNETICS II
Uniform plane-wave propagation in unbounded media; antennas effect of boundaries on electromagnetic fields and waves; transmission line theory and solution in the time
and frequency domains; reflection and refraction of uniform plane waves; wave guides and cavities; relation of field theory to circuit theory; ray scattering, diffraction and interference. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 131 (Electrical Circuit Theory I) EE 147
ENERGY CONVERSION Principles of energy conversion with emphasis on DC and AC machines; alternative energy conversion processes. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 132 (Electrical Circuit Theory II) EE 148
ELECTRICAL MACHINERY
Transformer principles and applications; converters; laboratory exercises on electrical machines. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 147 (Energy Conversion) EE 150
POWER SYSTEM ANALYSIS I
Electric power industry; transmission line parameters; electrical design of power transmission lines; power system representation; per unit system; network calculations; symmetrical faults; symmetrical components. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 147 (Energy Conversion) EE 151
POWER SYSTEM ANALYSIS II
Formulation of a mathematical model of a power system; numerical solution of equations; load flow studies; computer methods.
EE 152
Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 150 (Power System Analysis I) and ES 84 (Numerical Methods) POWER PLANT DESIGN
The location, erection and arrangement for modern power plants and substations; layout of main and auxiliary circuits for control, protection, metering and house power with the study in the laboratory of the operation of various relays and circuit breakers. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 148 (Electrical Machinery) EE 153
FAULT ANALYSIS
Analysis of unbalanced electrical circuits; calculation of the constant of synchronous machines, transformers, short transmission lines and cables; fault calculations. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 150 (Power System Analysis I) EE 154
POWER SYSTEM STABILITY
Stability conditions of synchronous machines and electric power systems under both steady and transient loads. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 153 (Fault Analysis) EE 155
POWER SYSTEM ECONOMICS
Economics of energy generation and operation; optimization methods; optimal load flow studies. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 151 (Power System Analysis II) EE 156
POWER SYSTEM PROTECTION
Fundamental relay operating principles and characteristics; current, voltage, directional, differential distance, wire-pilot, carrier-current pilot and microwavepilot relays; current and voltage transformers; ac generator, motor, transformer, bus and line protection. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 153 (Fault Analysis) EE 157
POWER SYSTEM RELIABILITY
Basic concepts; measures and models; reliability of generation, transmission, distribution and composite systems. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 151 (Power System Analysis II) EE 158
ELECTRICAL SYSTEM DESIGN
Choice of systems, selection and arrangement of electrical equipment for residential, commercial and industrial plants; building and factory wiring; illumination.
Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 150 (Power System Analysis I) EE 171
ELECTRONIC MATERIALS AND DEVICES
Conductors, semi-conductors and insulators; introduction to electron and semiconductor physics, solid-state and vacuum tube devices; discrete and integrated circuit components and fabrication technology, diode circuits and applications voltage regulators and power supplies), piecewise linear models for electronic devices. Detailed study of bipolar semi-conductor and field effect transistors; dc-biasing of BJT’s and FET’s. Credit
: 3 units (3 hrs lec)
Prerequisite(s) : Math 71 (Analytic Geometry and Calculus III) corequisite: EE131 (Electrical Circuit Theory I)
EE 172
ELECTRONICS CIRCUITS I
DC-biasing of BJT's and FET's; transistor circuit configurations of BJT's and FET's; design of BJT and FET single stage amplifiers; dc and ac load line analysis; thermal stabilization. Transistor voltage regulators and power supplies; Small signal; equivalent circuits of BJT’s and FET’s at LF, MF, & HF; Frequency response and bode plots. introduction and application of PSPICE in the different transistor configurations; laboratory works for verification of topics taken in lectures. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : EE 171 (Electronic Materials and Devices) and EE 131 (Electrical Circuit Theory I) EE 173
ELECTRONICS CIRCUITS II
DC and AC amplifiers; feedback; cascaded connections; multistage frequency effects; band pass amplifiers; large signal amplifiers; differential amplifiers; operational amplifiers; wave shaping circuits. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : EE 172 (Electronics Circuits I) EE 176
INDUSTRIAL ELECTRONICS & INSTRUMENTATION
Study of electronic components and devices used in high power industrial applications and detectors for the measurement and control of industrial process variables; electronic, magnetic, hydraulic and mechanical control devices; analysis and synthesis of performance characteristics of control systems. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 173 (Electronics Circuits II)
EE 177
LOGIC CIRCUITS AND DIGITAL ELECTRONICS
Boolean algebra; number systems; codes for digital information; map method of expressions simplification; combinational circuits; sequential circuits; SSI, MSI, LSI, digital integration circuits; laboratory works for verification of topics taken up in lectures. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : Math 71 (Analytic Geometry and Calculus III) and Phys 41 (General Physics III)
EE 178
INFORMATION THEORY
Information as a measurable quantity. Discrete information sources; source coding; minimum redundancy codes; unique decodability; the source coding theorem. Discrete memoryless channels; calculation of capability; channel coding and decoding; the noisy channel coding theorem. Introduction to error-correcting codes. Credit : 3 units (2 hrs lec) Prerequisite(s) : ES 85 (Probability and Statistics in Engineering) and CSc 121 (Data Structures I) EE 179
LINEAR CONTROL SYSTEMS
Analysis of linear control systems; control systems components, block diagrams, transfer functions; flow graphs; bode and polar plots; frequency response; state variables; state diagrams; types of controllers, system stability. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 133 (Advanced Circuit Theory) and EE 181
ELECTRICAL ENGINEERING LAWS, CODE, ETHICS. ETC.
Laws affecting the practice of Electrical Engineering; contracts; specifications and professional ethics. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : Candidate for graduation EE 182
COMMUNICATION SYSTEMS
Electronic circuits for communication systems; modulation and demodulation techniques; electronic transmitters and receivers; introduction to digital communication. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : ES 81 (Mathematical Methods in Engineering I) and EE 173 (Electronics Circuits II) EE 186
TRANSMISSION LINES AND ANTENNAS
Analysis and design of transmission lines and antenna systems; measurements if line parameters; characteristics impedance; velocity of propagation; standing wave ratio; stub matching; phasing of antenna currents; self input; impedance radiation resistance; frequency response measurement of material impedance and coefficient of coupling receiving antenna characteristics. Credit
: 3 units (2 hrs lec, 3 hrs lab)
Prerequisite(s) : EE 132 (Electrical Circuit Theory II) and EE 136 (Electromagnetics I) EE 188
COMPUTER ORGANIZATION AND ARCHITECTURE
Elements of computer design; logic design subsystems; central processor; microprogram control; arithmetic logic unit; I/O organization; assembly language programming study of a hypothetical computer, microcomputer architecture and organization. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 177 (Logic Circuits and Digital Electronics) EE 191/CSC 141 DISCRETE MATHEMATICS Set theory, the Peano axiom system, graph theory, paths and trees, generating functions. Algebraic structures, semigroups, permutation groups, automata, lattices, and mathematical logic. Finite field and coding. Credit : 3 units (2 hrs lec) Prerequisite(s) : Math 71 (Analytic Geometry and Calculus III) EE 193/CSC 112 ASSEMBLY LANGUAGE PROGRAM Study of popular microprocessors and microcomputer systems; assembly language programming; assemblers and macro processors; linkers and loaders. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : CSc 101 (Introduction to Computer Programming) EE 194/CSC 127 MICROCOMPUTER BASED DESIGN Merit of microcomputer-based design; microcomputer hardware; processor, memory and peripheral devices; microcomputer registers and addressing modes; data manipulation; I/O handling; memory mapped I/O DMA; interrupting; multi-processor systems. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : CSc 112 (Computer Organization and Architecture) and CSc121 (Data Structures I) EE 195/CSC 121 DATA STRUCTURE I Concepts, algorithms and applications of data structures: Linear list, stacks and queues. Recursion of singly and doubly linked lists, trees, generalized lists. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : CSc 101 (Introduction to Computer Programming)
EE 196/CSC 122 DATA STRUCTURE II Multilinked structures, strings, graphs, tables, files: Logical and physical file structures. Secondary storage devices. Sequential, direct, indexed files. Data compaction. Implementation of file organization. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : CSc 121 (Data Structures I) EE 198
RESEARCH METHODS
Study of the different methods of research in preparation of making a research and/or project proposal. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : Fourth Year Standing EE 199
ELECTRICAL ENGINEERING RESEARCH AND/OR PROJECT
Design, fabrication and testing of electrical hardware and equipment in the field of power, communications, instrumentation controls, computers, etc. Credit : 3 units (1 hrs lec, 6 hrs lab) Prerequisite(s) : Candidate for Graduation B BA AC CH HE EL LO OR RO OFF SSC CIIE EN NC CE E IIN NE EL LE EC CT TR RO ON NIIC CSS A AN ND D C CO OM MM MU UN NIIC CA AT TIIO ON NSS E EN NG GIIN NE EE ER RIIN NG G ((B BSSE EC CE E)) IInnttrroodduuccttiioonn:: With the advancement of science and technology in the present generation industrialization becomes a major factor in uplifting the economic status of the country. The growth in industry, communication and computerization made the field of Electronics and Communications Engineering becomes the latest trend in offering degree programs. In order to support this fast growth, the Institute offers the BS Electronics and Communication Engineering program. O Obbjjeeccttiivveess:: 1. Students will learn and obtain a baccalaureate education necessary to understand the impact of Electronics and Communication Engineering in a global, societal and environmental context consistent with the principles of sustainable development. 2. Students will obtain an appreciation for and an ability to engage in their life-long learning process and become effective engineers in the workplace of the future.
3. Students will be able to conduct research activities and extension services for the benefit of the community. 4. Students will experience an academic environment that facilitates and encourages learning retention and will also be well prepared for graduate school to further their education.
B BA AC CH HE EL LO OR RO OFF SSC CIIE EN NC CE E IIN NE EL LE EC CT TR RO ON NIIC CSS A AN ND D C CO OM MM MU UN NIIC CA AT TIIO ON NSS E EN NG GIIN NE EE ER RIIN NG G ((B BSSE EC CE E)) ((L LIISST TO OFF C CO OU UR RSSE ESS B BY Y SSE EM ME ESST TE ER R)) First Year, First Semester Course No. Eng 1 Fil 1
Course Title College English I Sining ng Komunikasyon
Units 3 3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 None 3 0 3 None
Math 17 Hist 1 Hist 5 PE 1 NSTP 1
Algebra and Trigonometry Philippine History Life and Works of Rizal Physical Fitness and Health National Service Training Program 1 Total
6 3 3 2 (3)
6 3 3 2
0 0 0 0
6 3 3 2
20
20
0
20
None None None None None
First Year, Second Semester Course No. Eng 2 Chem 12 Chem 12.1 Math 51 Phys 21 Phys 21.1 Hist 3 PE 2 NSTP 2
Course Title
Units
College English II Fundamentals of Chemistry Fundamentals of Chemistry Lab Analytic Geometry and Calculus I General Physics I Laboratory Physics I History of the Muslim Filipinos and the Indigenous Peoples of MINSUPALA Martial Arts/Dance National Service Training Program 2 Total
3 3 1
Hrs/Wk Lec Lab Total 3 0 3 3 0 3 0 3 3
Prerequisite(s) Eng 1 Math 17 Math 17
6
6
0
6
Math 17
3 1 3
3 0 3
0 3 0
3 3 3
Math 17 Math 17 None
2 (3)
2
0
2
PE 1 NSTP 1
22
20
6
26
Second Year, First Semester Course No. Eng 3 Bio 1 Math 61 Phys 31 Phys 31.1 PE 3 ES 51
Course Title
Units
Oral Communication Basic Biology Analytic Geometry and Calculus II General Physics II Laboratory Physics II Individual and Dual Sports Engineering Drawing Total
3 3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 None 3 0 3 Math 17
6 3 1 2 2 20
6 3 0 2 0 17
0 0 3 0 6 9
6 3 3 2 6 26
Math 51 Phys 21 Phys 21 PE 1 Math 51
Second Year, Second Semester Course No. Eng 4
Course Title
Units
3
2
3
5
Math 17
Math 71
Introduction to Literature Introduction to Computer Programming Analytic Geometry and Calculus III
6
6
0
6
Phys 41
General Physics III
3
3
0
3
Phys 41.1
Laboratory Physics III Philippine Government and Constitution, Agrarian Reform, Taxation, Family Planning and Population Education Team Sports Total
1
0
3
3
Math 61 Phys 21, Phys 21.1 Phys 21, Phys 21.1
3 2 21
3 2 19
0 0 6
3 2 25
CSc 101
Pol Sci 2 PE 4
3
Prerequisite(s) Hrs/Wk Lec Lab Total 3 0 3 Eng 2
None PE 1
Third Year, First Semester Course No. ES 61
Course Title
Units 3
EE 128
Statics of Rigid Bodies Mathematical Methods of Engineering I Probability and Statistics in Engineering Electrical Engineering Laboratory and Instrumentation I
EE 131
Electrical Circuit Theory I
ES 81 ES 85
EE 171 EE 177
Electrical Materials And Devices Logic Circuits and Digital Electronics Total
Hrs/Wk Prerequisite(s) Lec Lab Total Math 71, Phys 3 0 3 21, Phys 21.1
3
3
0
3
Math 71
3
3
0
3
Math 71
1
0
3
3
3
3
0
3
3
3
0
3
4 20
3 18
3 6
6 24
EE 131 Math 71 Phys 41 Math 71 EE 131 (corequisite) Math 71 Phys 41
Third Year, Second Semester Course Title
Units
Hrs/Wk
Prerequisite(s)
Course No. ES 62 ES 84
Course Title
Units
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 ES 61 2 3 5 ES 81,CSc 101
3 3
EE 129 EE 132
Dynamics of Rigid Bodies Numerical Methods Electrical Engineering Laboratory Electrical Circuit Theory II
1 3
0 3
3 0
3 3
EE 136
Electromagnetics
3
3
0
3
EE 172
Electronics Circuits I
4
3
3
6
ECE 120
Signals and Spectra
3 3 0 Total 20 17 9 Fourth Year, First Semester
3 26
Course No. ES 64 EE 147 EE 173 ECE 121 ECE 137 ECE 151
Course Title Mechanics of Deformable Bodies Energy Conversion Electronics Circuit II Communication Theory 1 Transmission Lines and Antennas Fundamentals of Electronic Instrumentation Total
Units
EE 131 EE 131 Phys 41 Math 71 EE 171 EE 131 ES 81 EE 171
Hrs/Wk Prerequisite(s) Lec Lab Total
3 3 4 3
3 3 3 3
0 0 3 0
3 3 6 3
3
2
3
5
3 19
2 16
3 9
5 25
ES 61 EE 132 EE 172 ECE 120 EE 132 EE 136 EE 172
Fourth Year, Second Semester Course No. ES 65 EE 188 ECE 122 ECE 130
Course Title Mechanics of Fluids Computer Architecture and Organization Communication Theory II
Units 3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 ES 62
3 3
3 3
0 0
3 3
1
0
3
3
3
3
0
3
ECE 152
Communication Laboratory I Microwave Communication and Navigational Aids Industrial Electronics and Instrumentation
3
2
3
5
ECE 172
Linear Control and Systems
3
3
0
3
ECE 138
EE 177 ECE 121 ECE 122 ECE 138 ECE 137 EE 173 ECE 151 ES 81 EE 173
Summer: ECE Practicum (320 Hours) Course No. ES 91 ECE 117 ECE 123 ECE 124 ECE 131 ECE 199
Course No. Hum 1 ES 92 STS 1 EC 191
ECE 112
Total
19
17
Fifth Year, First Semester Course Title Units Engineering Economy Audio and Electro-Acoustics Communication Theory III Communication Theory IV Electronics Communication Laboratory II Research and/or Projects Elective Total
6
3 3 3 3
Lec 3 3 3 3
1 3 3 19
0 1 3 16
23
Hrs/Wk Lab Total 0 3 0 3 0 3 0 3 3 6 0 9
3 7 3 25
Prerequisite(s) 4th Year Standing
ECE 121 ECE 121 ECE 121 ECE 123
5th Year Standing
Fifth Year, Second Semester Course Title Units Prerequisite(s) Hrs/Wk Lec Lab Total Introduction to Humanities 3 3 0 Engineering Management 3 3 0 Science, Technology and Society 3 3 0 ECE Laws, Trips and Seminars 3 2 3 Elective 3 3 0 Elective 3 3 0 Total 18 17 3 C CA AT TA AL LO OG GU UE EO OFF C CO OU UR RSSE ESS
3 3
None
3
5th Year Standing
5 3 3 20
5th Year Standing
COMMUNICATION SYSTEMS
Electronic circuits for communication systems; Signals, spectra and noise; Modulation and demodulation techniques; Electronic transmitters and receivers; AM, FM; Introduction to digital communication; optical communication, satellite communication, Laboratory works for verification of topics taken up in lectures. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : ES 81 (Mathematical Methods in Engineering I) and EE 172 (Electronics Circuits I) ECE 117
AUDIO AND ELECTRO-ACOUSTICS
Study of the fundamentals of acoustics; Vibration isolation systems; Motion of vibrating string and membranes having non-rigid support; Plane waves of sound; Microphones; Sound propagation in tubes and horns; Loudspeakers; Wave theory of room acoustics; Sound recording and reproduction; Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : ECE 121 (Communications Theory I) ECE 120
SIGNALS AND SPECTRA
Signals, spectra and noise; Laplace transform, Fourier transform, ztransform, convolution, correlation, spectral analysis. Credit : 3 units (3 hrs lec) Prerequisite(s) : ES 81 (Mathematical Methods in Engineering I) and EE 171 (Electronics Materials and Devices) ECE 121
COMMUNICATION THEORY 1
Study of standard AM, FM, and television broadcast practice; Signals and studio equipment; Fundamentals of monochrome and color TV systems; Image reproducing equipment; Television receivers; Video recording systems; Principles and types of wireless communication systems; Carrier transmission systems; Mobile radio communication systems; Cellular systems and standards; Satellite communication system. Credit : 3 units (3 hrs lec) Prerequisite(s) : ECE 120 (Signals and Spectra) ECE 122
COMMUNICATION THEORY II
Study of telephony; Principles of switching; types of telephone exchange; Traffic engineering and trucking; Information theory; Cable distribution systems; optical communication.
Credit : 3 units (3 hrs lec), Prerequisite(s) : ECE 121 (Communication Theory I)
ECE 123
COMMUNICATION THEORY III
Study of PCM, DPCM, and high frequency digital systems (PSK, FSK,OOK); digital communication for both point-to-point and switched applications; optimum receiver structures and transmitters; signal shaping for binary and M-ary signal transmissions; FDM and TDM; data transmissions; Noise in digital communications; Information theory and Rate distortion theory; Channel coding; Coded modulation; Spread Spectrum communications, Optimum receiver structures and transmitter; codes for digital information.
Credit : 3 units (3 hrs lec) Prerequisite(s) : ECE 121 (Communication Theory I) ECE 124
COMMUNICATION THEORY IV
Theory and components of data communication systems, modes, codes, error detection and correction techniques for data transmission; and network protocols, common carrier services; packet switching; local area networks (LANS); Introduction to distributed and parallel processing. Credit : 3 units (3 hrs lec) Prerequisite(s) : ECE 121 (Communication Theory I) ECE 137
TRANSMISSION LINES AND ANTENNAS
Study of wave motion; Wave propagation; Uniform plane waves; Analysis and design of transmission lines and antenna systems; Measurement of line parameters; Characteristic impedance; Standing wave ratio; Impedance matching; Stub matching; Transmission line components; Types of antennas; Phasing of antenna currents; Self input; Impedance radiation resistance; Electromagnetic radiation; Frequency response measurement of materials; Impedance and coefficient of coupling; Receiving antenna characteristics; Effects of ground on antennas; free-space path loss; Extra terrestrial communications. Credit : 3 units ( 3 hrs lec) Prerequisite(s) : EE 136 (Electromagnetics I) and EE 132 (Electrical Circuit Theory II) ECE 138
MICROWAVE COMMUNICATION AND NAVIGATIONAL AIDS
Review of Maxwell's equations. Propagation phenomena of plane waves in dielectric and conducting media. Transmission lines, waveguides and resonators, Study of passive and active microwave devices and circuitry; Microwave waveguides; Waveguide Coupling, matching and attenuation; Cavity resonators; S-matrix; Z-matrix; Microwave communication systems; Antennas and radiation. Instruments and equipment used in navigation, e.g. radar, VOR, ILS, MLS, DME, LORAN, SONAR, etc.
Credit : 3 units (3 hrs lec) Prerequisite(s) : ECE 137 (Transmission Lines and Antennas) ECE 130
COMMUNICATION LABORATORY I Laboratory work on microwave, wire and wireless
communication.
Credit Corequisites
ECE 131
: 1 unit (3 hrs lab) : ECE 122 (Communication Theory II) and ECE 138 (Microwave Communication and Navigational Aids) ELECTRONICS COMMUNICATION LABORATORY II
Laboratory work on digital communication, optical communication and data communication Credit Corequisite *ECE 135
: 1 unit (3 hrs lab) : ECE 123 (Communication Theory III)
DIGITAL & ANALOGUE INTEGRATED CIRCUITS
Technologies of digital integrated circuits; TTL, ECL, IIL, DTL and MOS; analogue integrated circuits device characteristics and models; IC operational amplifiers analysis and design; feedback amplifiers, stability and frequency compensation techniques; non-linear analogue circuits. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 173 (Electronics Circuit II) ECE 151
FUNDAMENTALS OF ELECTRONIC INSTRUMENTATION
Study of DC bridges, AC bridges, AC detection, DC meters, electronic volt-ohm-milliammeters; digital multimeters; attenuators; filters; triggered sweep and storage oscilloscopes; spectrum wave analyzers; frequency counters; timers; function generators; harmonic analyzing instruments; Laboratory works for instrument familiarization and verification of topics taken up in lectures. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 172 (Electronics Circuit I) ECE 152
INDUSTRIAL ELECTRONICS AND INSTRUMENTATION
Study of electronic components and devices used in high power industrial applications and detectors for the measurement and control of industrial process variables. Electronic, magnetic, hydraulic and mechanical control devices.
Analysis and synthesis of performance characteristics of control systems. Laboratory work on linear control systems; industrial electronics and instrumentation. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 173 (Electronics Circuit II) and ECE 151 (Fundamentals of Electronic Instrumentation) ECE 172
LINEAR CONTROL SYSTEMS
Analysis of linear control systems; control systems components, block diagrams, transfer functions; flow graphs; bode and polar plots; frequency response; state variables; state diagrams; types of controllers, system stability. Credit : 3 units (3 hrs lec) Prerequisite(s) : ES 81 (Mathematical Methods in Engineering I) and EE 173 (Electronics Circuit II) ECE 176
MEDICAL ELECTRONICS
Study of electronics devices and systems used in clinical diagnosis such as x-ray, EKG, etc., therapeutics; patient, monitoring systems; bio-electronics.
ECE 178
Credit : 3 units (3 hrs lec) Prerequisite(s) : 5th Year Standing INTRODUCTION TO NEURAL NETWORKS
Applications
Study of the fundamental theories in Neural Networks; of neural networks; Programming of some applications. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : 5th Year Standing
ECE 179
INTRODUCTION TO DIGITAL SIGNAL PROCESSING
Detailed study of one-dimensional discrete-time linear systems and signals; Discrete-time Fourier transform; Fast Fourier transform. Discrete convolution; Z-transform; Sampled data systems; Digital filters & design; DSP architecture. Credit : 3 units (3 hrs lec) Prerequisite(s) : 5th Year Standing ECE 191
ECE LAWS, TRIPS AND SEMINARS
Laws affecting the practice of Electronics and Communications Engineering; contracts; specifications and professional ethics. Visits to industrial plants and communication installations; reports on such visits; preparation and
discussion of papers on assigned topics and special problems. Engineering safety and special current topics Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : 5th Year Standing ECE 195
MICROELECTRONICS Study of micro-electronics devices and design of integrated circuits. Credit : 3 units ( 2 hrs lec, 3 hrs lab.) Prerequisite(s) : EE 173 (Electronics Circuit II)
ECE 196
SPECIAL TOPICS Study of current / latest development in the field.
ECE 199/EC 199 RESEARCH AND/OR SPECIAL PROJECT Study of the different methods of research in preparation of making a project proposal. Design, fabrication and testing of electronic hardware and equipment in the field of electronics, instrumentation and controls, communication and computers. Credit : 3 units (1 hr lec, 6 hrs lab) Prerequisite(s) : 5th Year Standing
B BA AC CH HE EL LO OR RO OFF SSC CIIE EN NC CE E IIN NE EL LE EC CT TR RIIC CA AL LE EN NG GIIN NE EE ER RIIN NG G ((B BSSE EE E)) ((L I S T O F C O U R S E S B Y S E M E S T E R ) LIST OF COURSES BY SEMESTER)
First Year, First Semester Course No. Eng 1 Eng 3 Fil 1 Math 17 Hist 1 PE 1 NSTP 1
Course Title
Units
College English I Oral Communication Sining ng Komunikasyon Algebra and Trigonometry Philippine History Physical Fitness and Health National Service Training Program 1 Total
3 3 3 6 3 2 (3)
Prerequisite(s) Hrs/Wk Lec Lab Total 3 0 3 None 3 0 3 None 3 0 3 None 6 0 6 None 3 0 3 None 2 0 2 None None
20
20
0
20
First Year, Second Semester Course No. Eng 2 Bio 1 Chem 12 Chem 12.1 Math 51 Hist 3 PE 2 NSTP 2
Course Title
Units
Hrs/Wk Lab Total 0 3 0 3 0 3 3 3
Prerequisite(s)
College English II Basic Biology Fundamentals of Chemistry Fundamentals of Chemistry Lab Analytic Geometry and Calculus I History of the Muslim Filipinos and the Indigenous Peoples of MINSUPALA Martial Arts/Dance National Service Training Program 2 Total
3 3 3 1
Lec 3 3 3 0
6
6
0
6
Math 17
3
3
0
3
None
2 (3)
2
0
2
PE 1 NSTP 1
21
20
3
23
Eng 1 Math 17 Math 17 Math 17
Second Year, First Semester Course No. Eng 4 CSc 101
Course Title Introduction to Literature Introduction to Computer Programming
Units 3 3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 Eng 2 2
3
5
Math 17
Math 61 Phys 21 Phys 21.1 Hum 1 PE 3 ES 51
Analytic Geometry and Calculus II General Physics I Laboratory Physics I Introduction to Humanities Individual and Dual Sports Engineering Drawing Total
6 3 1 3 2 2 23
6 3 0 3 2 0 19
0 0 3 0 0 6 12
6 3 3 3 2 6 31
Math 51 Math 51 Math 51 None PE 1 Math 51
Second Year, Second Semester Course No.
Course Title
Units
Hrs/Wk Prerequisite(s) Lec Lab Total
Math 71
Analytic Geometry and Calculus III
6
6
0
6
Phys 41
General Physics III
3
3
0
3
Phys 41.1
Laboratory Physics III Philippine Government and Constitution, Agrarian Reform, Taxation, Family Planning and Population Education Team Sports Elements of Material Science Probability and Statistics in Engineering Total
1
0
3
3
Math 61 Phys 21, Phys 21.1 Phys 21, Phys 21.1
3 2 3
3 2 3
0 0 0
3 2 3
None PE 1 Chem 12
3 21
3 20
0 3
3 23
Math 71
Pol Sci 2 PE 4 ES 67 ES 85
Third Year, First Semester Course No. Phys 31 Phys 31.1 ES 61 ES 81 EE 128
Course Title
Units
General Physics II Laboratory Physics II
3 1
Statics of Rigid Bodies Mathematical Methods of Engineering I Electrical Engineering Laboratory and Instrumentation I
3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 Phys 21 0 3 3 Phys 21 Math 71 3 0 3 Phys 21/21.1
3
3
0
3
Math 71
1
0
3
3
EE 131
EE 131 EE 171
Electrical Circuit Theory I Electrical Materials And Devices Total
3
3
0
3
3 17
3 15
0 6
3 21
Math 71 Phys 41 Math 71 EE 131
Third Year, Second Semester Course No. ES 62
Course Title
Units 3
EE 129 EE 132
Dynamics of Rigid Bodies Mechanics of Deformable Bodies Numerical Methods Electrical Engineering Laboratory Electrical Circuit Theory II
EE 136
Electromagnetics
EE 172
Electronics Circuits I
ES 64 ES 84
Total
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 ES 61
3 3
3 2
0 3
3 5
ES 61 ES 81,CSc 101
1 3
0 3
3 0
3 3
3
3
0
3
4 20
3 17
3 9
6 26
EE 131 EE 131 Phys 41 Math 81 EE 131 EE 171
Fourth Year, First Semester Course No. ES 91 EE 133 EE 147 EE 173
Course Title
Units
Hrs/Wk Lab Total 0 3 0 3 0 3 3 6
3 3 3 4
Lec 3 3 3 3
EE 177
Engineering Economy Advanced Circuit Theory Energy Conversion Electronics Circuit II Logic Circuits and Digital Electronics
4
3
3
6
ME 151
Thermodynamics
3 19
3 16
0 9
3 25
Total
Prerequisite(s) 4th Year Standing
EE 132 EE 132 EE 172 Math 71 Phy 41 Math 71 Phys 41/41.9
Fourth Year, Second Semester Course No. Hist 5 ES 65 ES 92 EE 148 EE 150
Course Title Life and Works of Rizal Mechanics of Fluids Engineering Management Electrical Machines Power System Analysis I
3 3 3 3 3
Hrs/Wk Lec Lab Total 3 0 3 3 0 3 3 0 3 2 3 5 3 0 3
EE 182
Communication Systems
4 19
3 17
Summer: EE Practicum (320 Hours)
Units
Total
3 6
6 23
Prerequisite(s) None ES 62 4th Year Standing
EE 147 EE 147 ES 81 EE 173
Fifth Year, First Semester Course No. EE 158 EE 179 EE 188 EE 199
Course Title
Units
Electrical System Design Linear Control Systems Computer Architecture and Organization Electrical Engineering Research and/or Project EE Elective EE Elective Total
3 3
Hrs/Wk Prerequisite(s) Lec Lab Total 2 3 5 EE 150 3 0 3 EE 133
3
3
0
3
EE 177
3 3 3 18
1 3 3 15
6 0 0 9
7 3 3 24
Cand for Grad 5th Year Standing
Fifth Year, Second Semester Course Title
Units
Hrs/Wk
Prerequisite(s)
Course No. STS 1 EE 176 EE 181 ECE 191
EE 123
Course Title
Units
Hrs/Wk Prerequisite(s) Lec Lab Total
Science, Technology and Society 3 3 0 Industrial Electronics and Instrumentation 3 2 3 Electrical Engineering Laws, Code, Ethics, etc. 3 2 3 EE Laws, Trips and Seminars 3 2 3 EE Elective 3 3 0 EE Elective 3 3 0 Total 18 15 9 C A T A L O G U E O F C O U R S E CATALOGUE OF COURSE
3
5th Year Standing
5
EE 173
5 5 3 3 24
Cand for Grad Math 71 5th Year Standing 5th Year Standing
ELEMENTARY ELECTRICAL ENGINEERING
Fundamentals of electric and magnetic circuits; direct and alternating current machinery; elementary distribution system and electrical wiring; laboratory exercises. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : Math 71 (Analytic Geometry and Calculus III) and Phys 41 (General Phys III) EE 124
INDUSTRIAL ELECTRONICS AND MEASUREMENTS
Fundamental of electronic devices and circuits; electrical measurements and their industrial applications. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 123 (Elementary Electrical Engineering) EE 125
ELECTRICAL EQUIPMENT AND CONTROL
Theory and characteristic of electrical equipment; associated devices and circuits for their control; application in power and industrial systems. Credit : 3 unit (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 124 (Industrial Electronics and Measurements) EE 128
ELECTRICAL LABORATORY AND INSTRUMENTATION I
Basic skills in fabricating electrical and electronics circuits including soldering, wire wrapping, PCB fabrication; house wiring; safe laboratory practices. Credit
: 1 unit (3 hrs lec)
Co-requisite(s): EE 131 (Electrical Circuit Theory I) EE 129
ELECTRICAL LABORATORY AND INSTRUMENTATION II
Laboratory procedures; data analysis; standard electric instruments and circuits; basic electric circuit behavior; transducers. Credit : 1 unit (3 hrs lab) Prerequisite(s) : EE 131 (Electrical Circuit Theory I) EE 131
ELECTRICAL CIRCUIT THEORY I Circuit parameters; circuit laws, principles and theorems; DC circuits; networks; response of linear networks to constant and exponential excitation; circuits in the sinusoidal steady-state; phasor algebra. Credit : 3 units (3 hrs lec) Prerequisite(s): Math 71 (Analytic Geometry and Calculus III) and Phys 41 (General Physics III) EE 132
ELECTRICAL CIRCUIT THEORY II
Polyphase circuits; complex frequency; adjustable circuits in the sinusoidal steady-state; magnetically coupled circuits; Laplace transforms.
EE 133
Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 131 (Electrical Circuit Theory I) ADVANCED CIRCUIT THEORY
Two port networks; state variable analysis; Fourier analysis; Fourier transforms; image parameters and conventional filters. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 132 (Electrical Circuit Theory II) EE 136
ELECTROMAGNETICS I
Introduction to vector analysis; electrostatics, dielectric materials; conductors; steady magnetic field coupled circuits; magnetic materials; time varying fields; Maxwell's equation; some application of Maxwell's equations. Credit : 3 units (3 hrs lec) Prerequisite(s) : Phys 41 (General Physics III) and Math 81 (Analytic Geometry and Calculus III) EE 137
ELECTROMAGNETICS II
Uniform plane-wave propagation in unbounded media; antennas effect of boundaries on electromagnetic fields and waves; transmission line theory and solution in the time
and frequency domains; reflection and refraction of uniform plane waves; wave guides and cavities; relation of field theory to circuit theory; ray scattering, diffraction and interference. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 131 (Electrical Circuit Theory I) EE 147
ENERGY CONVERSION Principles of energy conversion with emphasis on DC and AC machines; alternative energy conversion processes. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 132 (Electrical Circuit Theory II) EE 148
ELECTRICAL MACHINERY
Transformer principles and applications; converters; laboratory exercises on electrical machines. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 147 (Energy Conversion) EE 150
POWER SYSTEM ANALYSIS I
Electric power industry; transmission line parameters; electrical design of power transmission lines; power system representation; per unit system; network calculations; symmetrical faults; symmetrical components. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 147 (Energy Conversion) EE 151
POWER SYSTEM ANALYSIS II
Formulation of a mathematical model of a power system; numerical solution of equations; load flow studies; computer methods.
EE 152
Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 150 (Power System Analysis I) and ES 84 (Numerical Methods) POWER PLANT DESIGN
The location, erection and arrangement for modern power plants and substations; layout of main and auxiliary circuits for control, protection, metering and house power with the study in the laboratory of the operation of various relays and circuit breakers. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 148 (Electrical Machinery) EE 153
FAULT ANALYSIS
Analysis of unbalanced electrical circuits; calculation of the constant of synchronous machines, transformers, short transmission lines and cables; fault calculations. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 150 (Power System Analysis I) EE 154
POWER SYSTEM STABILITY
Stability conditions of synchronous machines and electric power systems under both steady and transient loads. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 153 (Fault Analysis) EE 155
POWER SYSTEM ECONOMICS
Economics of energy generation and operation; optimization methods; optimal load flow studies. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 151 (Power System Analysis II) EE 156
POWER SYSTEM PROTECTION
Fundamental relay operating principles and characteristics; current, voltage, directional, differential distance, wire-pilot, carrier-current pilot and microwavepilot relays; current and voltage transformers; ac generator, motor, transformer, bus and line protection. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 153 (Fault Analysis) EE 157
POWER SYSTEM RELIABILITY
Basic concepts; measures and models; reliability of generation, transmission, distribution and composite systems. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 151 (Power System Analysis II) EE 158
ELECTRICAL SYSTEM DESIGN
Choice of systems, selection and arrangement of electrical equipment for residential, commercial and industrial plants; building and factory wiring; illumination.
Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 150 (Power System Analysis I) EE 171
ELECTRONIC MATERIALS AND DEVICES
Conductors, semi-conductors and insulators; introduction to electron and semiconductor physics, solid-state and vacuum tube devices; discrete and integrated circuit components and fabrication technology, diode circuits and applications voltage regulators and power supplies), piecewise linear models for electronic devices. Detailed study of bipolar semi-conductor and field effect transistors; dc-biasing of BJT’s and FET’s. Credit
: 3 units (3 hrs lec)
Prerequisite(s) : Math 71 (Analytic Geometry and Calculus III) corequisite: EE131 (Electrical Circuit Theory I)
EE 172
ELECTRONICS CIRCUITS I
DC-biasing of BJT's and FET's; transistor circuit configurations of BJT's and FET's; design of BJT and FET single stage amplifiers; dc and ac load line analysis; thermal stabilization. Transistor voltage regulators and power supplies; Small signal; equivalent circuits of BJT’s and FET’s at LF, MF, & HF; Frequency response and bode plots. introduction and application of PSPICE in the different transistor configurations; laboratory works for verification of topics taken in lectures. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : EE 171 (Electronic Materials and Devices) and EE 131 (Electrical Circuit Theory I) EE 173
ELECTRONICS CIRCUITS II
DC and AC amplifiers; feedback; cascaded connections; multistage frequency effects; band pass amplifiers; large signal amplifiers; differential amplifiers; operational amplifiers; wave shaping circuits. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : EE 172 (Electronics Circuits I) EE 176
INDUSTRIAL ELECTRONICS & INSTRUMENTATION
Study of electronic components and devices used in high power industrial applications and detectors for the measurement and control of industrial process variables; electronic, magnetic, hydraulic and mechanical control devices; analysis and synthesis of performance characteristics of control systems. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 173 (Electronics Circuits II)
EE 177
LOGIC CIRCUITS AND DIGITAL ELECTRONICS
Boolean algebra; number systems; codes for digital information; map method of expressions simplification; combinational circuits; sequential circuits; SSI, MSI, LSI, digital integration circuits; laboratory works for verification of topics taken up in lectures. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : Math 71 (Analytic Geometry and Calculus III) and Phys 41 (General Physics III)
EE 178
INFORMATION THEORY
Information as a measurable quantity. Discrete information sources; source coding; minimum redundancy codes; unique decodability; the source coding theorem. Discrete memoryless channels; calculation of capability; channel coding and decoding; the noisy channel coding theorem. Introduction to error-correcting codes. Credit : 3 units (2 hrs lec) Prerequisite(s) : ES 85 (Probability and Statistics in Engineering) and CSc 121 (Data Structures I) EE 179
LINEAR CONTROL SYSTEMS
Analysis of linear control systems; control systems components, block diagrams, transfer functions; flow graphs; bode and polar plots; frequency response; state variables; state diagrams; types of controllers, system stability. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 133 (Advanced Circuit Theory) and EE 181
ELECTRICAL ENGINEERING LAWS, CODE, ETHICS. ETC.
Laws affecting the practice of Electrical Engineering; contracts; specifications and professional ethics. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : Candidate for graduation EE 182
COMMUNICATION SYSTEMS
Electronic circuits for communication systems; modulation and demodulation techniques; electronic transmitters and receivers; introduction to digital communication. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : ES 81 (Mathematical Methods in Engineering I) and EE 173 (Electronics Circuits II) EE 186
TRANSMISSION LINES AND ANTENNAS
Analysis and design of transmission lines and antenna systems; measurements if line parameters; characteristics impedance; velocity of propagation; standing wave ratio; stub matching; phasing of antenna currents; self input; impedance radiation resistance; frequency response measurement of material impedance and coefficient of coupling receiving antenna characteristics. Credit
: 3 units (2 hrs lec, 3 hrs lab)
Prerequisite(s) : EE 132 (Electrical Circuit Theory II) and EE 136 (Electromagnetics I) EE 188
COMPUTER ORGANIZATION AND ARCHITECTURE
Elements of computer design; logic design subsystems; central processor; microprogram control; arithmetic logic unit; I/O organization; assembly language programming study of a hypothetical computer, microcomputer architecture and organization. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 177 (Logic Circuits and Digital Electronics) EE 191/CSC 141 DISCRETE MATHEMATICS Set theory, the Peano axiom system, graph theory, paths and trees, generating functions. Algebraic structures, semigroups, permutation groups, automata, lattices, and mathematical logic. Finite field and coding. Credit : 3 units (2 hrs lec) Prerequisite(s) : Math 71 (Analytic Geometry and Calculus III) EE 193/CSC 112 ASSEMBLY LANGUAGE PROGRAM Study of popular microprocessors and microcomputer systems; assembly language programming; assemblers and macro processors; linkers and loaders. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : CSc 101 (Introduction to Computer Programming) EE 194/CSC 127 MICROCOMPUTER BASED DESIGN Merit of microcomputer-based design; microcomputer hardware; processor, memory and peripheral devices; microcomputer registers and addressing modes; data manipulation; I/O handling; memory mapped I/O DMA; interrupting; multi-processor systems. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : CSc 112 (Computer Organization and Architecture) and CSc121 (Data Structures I) EE 195/CSC 121 DATA STRUCTURE I Concepts, algorithms and applications of data structures: Linear list, stacks and queues. Recursion of singly and doubly linked lists, trees, generalized lists. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : CSc 101 (Introduction to Computer Programming)
EE 196/CSC 122 DATA STRUCTURE II Multilinked structures, strings, graphs, tables, files: Logical and physical file structures. Secondary storage devices. Sequential, direct, indexed files. Data compaction. Implementation of file organization. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : CSc 121 (Data Structures I) EE 198
RESEARCH METHODS
Study of the different methods of research in preparation of making a research and/or project proposal. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : Fourth Year Standing EE 199
ELECTRICAL ENGINEERING RESEARCH AND/OR PROJECT
Design, fabrication and testing of electrical hardware and equipment in the field of power, communications, instrumentation controls, computers, etc. Credit : 3 units (1 hrs lec, 6 hrs lab) Prerequisite(s) : Candidate for Graduation B BA AC CH HE EL LO OR RO OFF SSC CIIE EN NC CE E IIN NE EL LE EC CT TR RO ON NIIC CSS A AN ND D C CO OM MM MU UN NIIC CA AT TIIO ON NSS E EN NG GIIN NE EE ER RIIN NG G ((B BSSE EC CE E)) IInnttrroodduuccttiioonn:: With the advancement of science and technology in the present generation industrialization becomes a major factor in uplifting the economic status of the country. The growth in industry, communication and computerization made the field of Electronics and Communications Engineering becomes the latest trend in offering degree programs. In order to support this fast growth, the Institute offers the BS Electronics and Communication Engineering program. O Obbjjeeccttiivveess:: 1. Students will learn and obtain a baccalaureate education necessary to understand the impact of Electronics and Communication Engineering in a global, societal and environmental context consistent with the principles of sustainable development. 2. Students will obtain an appreciation for and an ability to engage in their life-long learning process and become effective engineers in the workplace of the future.
3. Students will be able to conduct research activities and extension services for the benefit of the community. 4. Students will experience an academic environment that facilitates and encourages learning retention and will also be well prepared for graduate school to further their education.
B BA AC CH HE EL LO OR RO OFF SSC CIIE EN NC CE E IIN NE EL LE EC CT TR RO ON NIIC CSS A AN ND D C CO OM MM MU UN NIIC CA AT TIIO ON NSS E EN NG GIIN NE EE ER RIIN NG G ((B BSSE EC CE E)) ((L LIISST TO OFF C CO OU UR RSSE ESS B BY Y SSE EM ME ESST TE ER R)) First Year, First Semester Course No. Eng 1 Fil 1
Course Title College English I Sining ng Komunikasyon
Units 3 3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 None 3 0 3 None
Math 17 Hist 1 Hist 5 PE 1 NSTP 1
Algebra and Trigonometry Philippine History Life and Works of Rizal Physical Fitness and Health National Service Training Program 1 Total
6 3 3 2 (3)
6 3 3 2
0 0 0 0
6 3 3 2
20
20
0
20
None None None None None
First Year, Second Semester Course No. Eng 2 Chem 12 Chem 12.1 Math 51 Phys 21 Phys 21.1 Hist 3 PE 2 NSTP 2
Course Title
Units
College English II Fundamentals of Chemistry Fundamentals of Chemistry Lab Analytic Geometry and Calculus I General Physics I Laboratory Physics I History of the Muslim Filipinos and the Indigenous Peoples of MINSUPALA Martial Arts/Dance National Service Training Program 2 Total
3 3 1
Hrs/Wk Lec Lab Total 3 0 3 3 0 3 0 3 3
Prerequisite(s) Eng 1 Math 17 Math 17
6
6
0
6
Math 17
3 1 3
3 0 3
0 3 0
3 3 3
Math 17 Math 17 None
2 (3)
2
0
2
PE 1 NSTP 1
22
20
6
26
Second Year, First Semester Course No. Eng 3 Bio 1 Math 61 Phys 31 Phys 31.1 PE 3 ES 51
Course Title
Units
Oral Communication Basic Biology Analytic Geometry and Calculus II General Physics II Laboratory Physics II Individual and Dual Sports Engineering Drawing Total
3 3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 None 3 0 3 Math 17
6 3 1 2 2 20
6 3 0 2 0 17
0 0 3 0 6 9
6 3 3 2 6 26
Math 51 Phys 21 Phys 21 PE 1 Math 51
Second Year, Second Semester Course No. Eng 4
Course Title
Units
3
2
3
5
Math 17
Math 71
Introduction to Literature Introduction to Computer Programming Analytic Geometry and Calculus III
6
6
0
6
Phys 41
General Physics III
3
3
0
3
Phys 41.1
Laboratory Physics III Philippine Government and Constitution, Agrarian Reform, Taxation, Family Planning and Population Education Team Sports Total
1
0
3
3
Math 61 Phys 21, Phys 21.1 Phys 21, Phys 21.1
3 2 21
3 2 19
0 0 6
3 2 25
CSc 101
Pol Sci 2 PE 4
3
Prerequisite(s) Hrs/Wk Lec Lab Total 3 0 3 Eng 2
None PE 1
Third Year, First Semester Course No. ES 61
Course Title
Units 3
EE 128
Statics of Rigid Bodies Mathematical Methods of Engineering I Probability and Statistics in Engineering Electrical Engineering Laboratory and Instrumentation I
EE 131
Electrical Circuit Theory I
ES 81 ES 85
EE 171 EE 177
Electrical Materials And Devices Logic Circuits and Digital Electronics Total
Hrs/Wk Prerequisite(s) Lec Lab Total Math 71, Phys 3 0 3 21, Phys 21.1
3
3
0
3
Math 71
3
3
0
3
Math 71
1
0
3
3
3
3
0
3
3
3
0
3
4 20
3 18
3 6
6 24
EE 131 Math 71 Phys 41 Math 71 EE 131 (corequisite) Math 71 Phys 41
Third Year, Second Semester Course Title
Units
Hrs/Wk
Prerequisite(s)
Course No. ES 62 ES 84
Course Title
Units
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 ES 61 2 3 5 ES 81,CSc 101
3 3
EE 129 EE 132
Dynamics of Rigid Bodies Numerical Methods Electrical Engineering Laboratory Electrical Circuit Theory II
1 3
0 3
3 0
3 3
EE 136
Electromagnetics
3
3
0
3
EE 172
Electronics Circuits I
4
3
3
6
ECE 120
Signals and Spectra
3 3 0 Total 20 17 9 Fourth Year, First Semester
3 26
Course No. ES 64 EE 147 EE 173 ECE 121 ECE 137 ECE 151
Course Title Mechanics of Deformable Bodies Energy Conversion Electronics Circuit II Communication Theory 1 Transmission Lines and Antennas Fundamentals of Electronic Instrumentation Total
Units
EE 131 EE 131 Phys 41 Math 71 EE 171 EE 131 ES 81 EE 171
Hrs/Wk Prerequisite(s) Lec Lab Total
3 3 4 3
3 3 3 3
0 0 3 0
3 3 6 3
3
2
3
5
3 19
2 16
3 9
5 25
ES 61 EE 132 EE 172 ECE 120 EE 132 EE 136 EE 172
Fourth Year, Second Semester Course No. ES 65 EE 188 ECE 122 ECE 130
Course Title Mechanics of Fluids Computer Architecture and Organization Communication Theory II
Units 3
Hrs/Wk Prerequisite(s) Lec Lab Total 3 0 3 ES 62
3 3
3 3
0 0
3 3
1
0
3
3
3
3
0
3
ECE 152
Communication Laboratory I Microwave Communication and Navigational Aids Industrial Electronics and Instrumentation
3
2
3
5
ECE 172
Linear Control and Systems
3
3
0
3
ECE 138
EE 177 ECE 121 ECE 122 ECE 138 ECE 137 EE 173 ECE 151 ES 81 EE 173
Summer: ECE Practicum (320 Hours) Course No. ES 91 ECE 117 ECE 123 ECE 124 ECE 131 ECE 199
Course No. Hum 1 ES 92 STS 1 EC 191
ECE 112
Total
19
17
Fifth Year, First Semester Course Title Units Engineering Economy Audio and Electro-Acoustics Communication Theory III Communication Theory IV Electronics Communication Laboratory II Research and/or Projects Elective Total
6
3 3 3 3
Lec 3 3 3 3
1 3 3 19
0 1 3 16
23
Hrs/Wk Lab Total 0 3 0 3 0 3 0 3 3 6 0 9
3 7 3 25
Prerequisite(s) 4th Year Standing
ECE 121 ECE 121 ECE 121 ECE 123
5th Year Standing
Fifth Year, Second Semester Course Title Units Prerequisite(s) Hrs/Wk Lec Lab Total Introduction to Humanities 3 3 0 Engineering Management 3 3 0 Science, Technology and Society 3 3 0 ECE Laws, Trips and Seminars 3 2 3 Elective 3 3 0 Elective 3 3 0 Total 18 17 3 C CA AT TA AL LO OG GU UE EO OFF C CO OU UR RSSE ESS
3 3
None
3
5th Year Standing
5 3 3 20
5th Year Standing
COMMUNICATION SYSTEMS
Electronic circuits for communication systems; Signals, spectra and noise; Modulation and demodulation techniques; Electronic transmitters and receivers; AM, FM; Introduction to digital communication; optical communication, satellite communication, Laboratory works for verification of topics taken up in lectures. Credit : 4 units (3 hrs lec, 3 hrs lab) Prerequisite(s) : ES 81 (Mathematical Methods in Engineering I) and EE 172 (Electronics Circuits I) ECE 117
AUDIO AND ELECTRO-ACOUSTICS
Study of the fundamentals of acoustics; Vibration isolation systems; Motion of vibrating string and membranes having non-rigid support; Plane waves of sound; Microphones; Sound propagation in tubes and horns; Loudspeakers; Wave theory of room acoustics; Sound recording and reproduction; Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : ECE 121 (Communications Theory I) ECE 120
SIGNALS AND SPECTRA
Signals, spectra and noise; Laplace transform, Fourier transform, ztransform, convolution, correlation, spectral analysis. Credit : 3 units (3 hrs lec) Prerequisite(s) : ES 81 (Mathematical Methods in Engineering I) and EE 171 (Electronics Materials and Devices) ECE 121
COMMUNICATION THEORY 1
Study of standard AM, FM, and television broadcast practice; Signals and studio equipment; Fundamentals of monochrome and color TV systems; Image reproducing equipment; Television receivers; Video recording systems; Principles and types of wireless communication systems; Carrier transmission systems; Mobile radio communication systems; Cellular systems and standards; Satellite communication system. Credit : 3 units (3 hrs lec) Prerequisite(s) : ECE 120 (Signals and Spectra) ECE 122
COMMUNICATION THEORY II
Study of telephony; Principles of switching; types of telephone exchange; Traffic engineering and trucking; Information theory; Cable distribution systems; optical communication.
Credit : 3 units (3 hrs lec), Prerequisite(s) : ECE 121 (Communication Theory I)
ECE 123
COMMUNICATION THEORY III
Study of PCM, DPCM, and high frequency digital systems (PSK, FSK,OOK); digital communication for both point-to-point and switched applications; optimum receiver structures and transmitters; signal shaping for binary and M-ary signal transmissions; FDM and TDM; data transmissions; Noise in digital communications; Information theory and Rate distortion theory; Channel coding; Coded modulation; Spread Spectrum communications, Optimum receiver structures and transmitter; codes for digital information.
Credit : 3 units (3 hrs lec) Prerequisite(s) : ECE 121 (Communication Theory I) ECE 124
COMMUNICATION THEORY IV
Theory and components of data communication systems, modes, codes, error detection and correction techniques for data transmission; and network protocols, common carrier services; packet switching; local area networks (LANS); Introduction to distributed and parallel processing. Credit : 3 units (3 hrs lec) Prerequisite(s) : ECE 121 (Communication Theory I) ECE 137
TRANSMISSION LINES AND ANTENNAS
Study of wave motion; Wave propagation; Uniform plane waves; Analysis and design of transmission lines and antenna systems; Measurement of line parameters; Characteristic impedance; Standing wave ratio; Impedance matching; Stub matching; Transmission line components; Types of antennas; Phasing of antenna currents; Self input; Impedance radiation resistance; Electromagnetic radiation; Frequency response measurement of materials; Impedance and coefficient of coupling; Receiving antenna characteristics; Effects of ground on antennas; free-space path loss; Extra terrestrial communications. Credit : 3 units ( 3 hrs lec) Prerequisite(s) : EE 136 (Electromagnetics I) and EE 132 (Electrical Circuit Theory II) ECE 138
MICROWAVE COMMUNICATION AND NAVIGATIONAL AIDS
Review of Maxwell's equations. Propagation phenomena of plane waves in dielectric and conducting media. Transmission lines, waveguides and resonators, Study of passive and active microwave devices and circuitry; Microwave waveguides; Waveguide Coupling, matching and attenuation; Cavity resonators; S-matrix; Z-matrix; Microwave communication systems; Antennas and radiation. Instruments and equipment used in navigation, e.g. radar, VOR, ILS, MLS, DME, LORAN, SONAR, etc.
Credit : 3 units (3 hrs lec) Prerequisite(s) : ECE 137 (Transmission Lines and Antennas) ECE 130
COMMUNICATION LABORATORY I Laboratory work on microwave, wire and wireless
communication.
Credit Corequisites
ECE 131
: 1 unit (3 hrs lab) : ECE 122 (Communication Theory II) and ECE 138 (Microwave Communication and Navigational Aids) ELECTRONICS COMMUNICATION LABORATORY II
Laboratory work on digital communication, optical communication and data communication Credit Corequisite *ECE 135
: 1 unit (3 hrs lab) : ECE 123 (Communication Theory III)
DIGITAL & ANALOGUE INTEGRATED CIRCUITS
Technologies of digital integrated circuits; TTL, ECL, IIL, DTL and MOS; analogue integrated circuits device characteristics and models; IC operational amplifiers analysis and design; feedback amplifiers, stability and frequency compensation techniques; non-linear analogue circuits. Credit : 3 units (3 hrs lec) Prerequisite(s) : EE 173 (Electronics Circuit II) ECE 151
FUNDAMENTALS OF ELECTRONIC INSTRUMENTATION
Study of DC bridges, AC bridges, AC detection, DC meters, electronic volt-ohm-milliammeters; digital multimeters; attenuators; filters; triggered sweep and storage oscilloscopes; spectrum wave analyzers; frequency counters; timers; function generators; harmonic analyzing instruments; Laboratory works for instrument familiarization and verification of topics taken up in lectures. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 172 (Electronics Circuit I) ECE 152
INDUSTRIAL ELECTRONICS AND INSTRUMENTATION
Study of electronic components and devices used in high power industrial applications and detectors for the measurement and control of industrial process variables. Electronic, magnetic, hydraulic and mechanical control devices.
Analysis and synthesis of performance characteristics of control systems. Laboratory work on linear control systems; industrial electronics and instrumentation. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : EE 173 (Electronics Circuit II) and ECE 151 (Fundamentals of Electronic Instrumentation) ECE 172
LINEAR CONTROL SYSTEMS
Analysis of linear control systems; control systems components, block diagrams, transfer functions; flow graphs; bode and polar plots; frequency response; state variables; state diagrams; types of controllers, system stability. Credit : 3 units (3 hrs lec) Prerequisite(s) : ES 81 (Mathematical Methods in Engineering I) and EE 173 (Electronics Circuit II) ECE 176
MEDICAL ELECTRONICS
Study of electronics devices and systems used in clinical diagnosis such as x-ray, EKG, etc., therapeutics; patient, monitoring systems; bio-electronics.
ECE 178
Credit : 3 units (3 hrs lec) Prerequisite(s) : 5th Year Standing INTRODUCTION TO NEURAL NETWORKS
Applications
Study of the fundamental theories in Neural Networks; of neural networks; Programming of some applications. Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : 5th Year Standing
ECE 179
INTRODUCTION TO DIGITAL SIGNAL PROCESSING
Detailed study of one-dimensional discrete-time linear systems and signals; Discrete-time Fourier transform; Fast Fourier transform. Discrete convolution; Z-transform; Sampled data systems; Digital filters & design; DSP architecture. Credit : 3 units (3 hrs lec) Prerequisite(s) : 5th Year Standing ECE 191
ECE LAWS, TRIPS AND SEMINARS
Laws affecting the practice of Electronics and Communications Engineering; contracts; specifications and professional ethics. Visits to industrial plants and communication installations; reports on such visits; preparation and
discussion of papers on assigned topics and special problems. Engineering safety and special current topics Credit : 3 units (2 hrs lec, 3 hrs lab) Prerequisite(s) : 5th Year Standing ECE 195
MICROELECTRONICS Study of micro-electronics devices and design of integrated circuits. Credit : 3 units ( 2 hrs lec, 3 hrs lab.) Prerequisite(s) : EE 173 (Electronics Circuit II)
ECE 196
SPECIAL TOPICS Study of current / latest development in the field.
ECE 199/EC 199 RESEARCH AND/OR SPECIAL PROJECT Study of the different methods of research in preparation of making a project proposal. Design, fabrication and testing of electronic hardware and equipment in the field of electronics, instrumentation and controls, communication and computers. Credit : 3 units (1 hr lec, 6 hrs lab) Prerequisite(s) : 5th Year Standing
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