Electrical Engineering Curriculum Ladderized

First year
(Building Wiring Installation NC-II)

FIRST SEMESTER

SECOND SEMESTER

Summer: OJT for BWI-NC II –  3 Units (Upon Completion of  the first year, the student will be given a Training Certificate in BWI- NCII)

SECOND YEAR
FIRST SEMESTER

SECOND SEMESTER

THIRD YEAR
FIRST SEMESTER

SECOND SEMESTER

FOURTH YEAR

FIRST SEMESTER

SECOND SEMESTER

Summer

FIFTH YEAR

FIRST SEMESTER

SECOND SEMESTER

Note:

1. Subjects taken in violation of pre-requisite requirements will not be credited.
2. Students will not be allowed to enroll in the 4th year if they have not passed all 1st and 2nd year subjects.

COURSE DESCRIPTION

1. TECHNICAL COURSES

• MATHEMATICS
  • Math 111: College Algebra (3)
    Algebraic expressions and equations solution sets of algebraic equations in one variable linear quadratic polynomial of degree n, fractional, radical equations quadratic in form exponential and logarithmic equations decomposition of fractions into partial fractions solution sets of systems of linear equations involving up to three variables.
  • Math 123: Advanced  Algebra (2)
    Matrices and determinants arithmetic and geometric series solution sets of different types of inequalities and systems involving quadratics solution of linear equations using determinants and matrices.
  • Math 112: Plane & Spherical Trigonometry (4)
    Trigonometric functions identities and equations solutions of triangles law of sines law of cosines inverse trigonometric functions spherical trigonometry
  • Math 125: Analytic Geometry (3)
    Equations of lines and conic sections curve tracing in both rectangular and polar coordinates in two – dimensional space
  • Math 124: Solid  Mensuration (2)
    Concept of lines and planes. Cavliens and Volume theorems formulas for areas of plane figures volumes for solids volumes and surfaces areas for spheres pyramids and cones zone sector and segment of a sphere theorems of Pappus
  • Math 216: Differential Calculus (4)
    Basic concepts of calculus such as limits continuity and differentiability of functions differentiation of algebraic and transcendental functions involving one or more variables application of differential calculus to problems on optimization rates of change related rates tangents and normal ad approximations partial differentiation and transcendental curve tracing.
  • Math 228: Integral  Calculus (4)
    Anti-derivatives; integration methods; definite integrals; multiple integrals; applications; infinite series.
  • Math 318: Differential  Equations (3)
    Ordinary differential equations of the first order, linear differential equation with constant coefficients; simultaneous linear differential equations; applications.
  • Math 217: Probability and Statistics (3)
    Basic principles of statistics, charts, graphs, presentation and analysis of data averages, median, mode, deviations, probability distribution, normal curves and applications; regression analysis and correlation; application in engineering problems.
  • Math 3210: Advanced Engineering Mathematics (3)
    A study of selected topics in mathematics and their applications in advanced courses in engineering and other allied sciences. It covers the study of Complex numbers, Laplace and Inverse Laplace Transforms. Power series, Fourier series, Matrices and Determinants, Vector Analysis ad Numerical Methods.
• NATURAL/PHYSICAL SCIENCES
  • Chem 111: General  Chemistry (4)
    Basic concepts of matter and energy; structure of atoms; chemical formulas and equations; periodic table; chemical bonds; chemical behavior; and basic stoichiometry; solutions and gas laws calculations; basic electrochemistry; and thermo chemistry.
  • Phys 121: Physics 1 (4)
    Vectors; Kinematics; Dynamics; work, Energy & power, impulse & Momentum; Rotation; Dynamics of Rotation; elasticity; and Oscillations
  • Phys212: Physics  2 (4)
    Fluids; thermal expansion, thermal stress; heat transfer; calorimetry; wave; electrostatic; electricity; magnetism; optics; image formation by pale and curved mirrors; and image formation by thin lenses.
• BASIC ENGINEERING SCIENCES
  • Draw 111 & Draw 122: Engineering Drawing (2)
    This course covers an introduction to graphic language, which includes practices and techniques of graphical communication, study and application of drafting instruments, lettering scale and units of measure, descriptive geometry, orthographic projections, auxiliary views, dimensioning, sectional views, pictorial drawings, requirements of engineering working drawings, assembly and exploded detailed drawings. Computer application is integrated in Draw 122.
  • CS 211: Computer  Fundamentals (3)
    Basic information technology concepts; fundamentals of algorithm development; high-level language and programming applications; computer solutions of engineering problems.
  • CAD: Computer-Aided Drafting (1)
    This course introduces the concepts of electronic/computer-aided drafting (CAD) and described CAD software in developing electronic drawings (E-Drawings). This also covers an introduction to the CAD software environment, terminologies, and the general operating procedures and various techniques in entering executing basic CAD commands.
  • Mech 311: Statics of  Rigid Bodies (3)
    This is a course covering topics in the statics of rigid bodies including force systems, structure analyses, friction, centroids and centers of gravity and moments of inertia.
  • Mech 322: Dynamics of  Rigid Bodies (2)
    This is a course covering topics in dynamics of rigid bodies including kinetics and kinematics of a particle, kinetics and kinematics of rigid bodies, work energy method and impulse and momentum.
  • Mech 323 : Mechanics of Deformable Bodies (3)
    This course covers topics in strength materials which includes axial stress and strain, stresses for torsion and bending, combines stresses, beam deflections, indeterminate beams and elastic instability.
  • Econ 311: Engineering Economy (3)
    This course deals with the concepts of time value of money and equivalence; basic economy study methods; decisions under certainty; decisions recognizing risk,  decisions admitting uncertainty.
  • CE 14: Engineering Management (3)
    Study of the field of Engineering Management decision.
    Making planning technical activities organizing technical activities, staffing then engineering organization, communicating, motivating, leading, controlling, managing production and service operations, managing the marketing functions, managing the finance functions
  • CE 321 Environmental Engineering and  Safety Management (3)
    Environmental Science Knowledge in ecology and Human Population Control, Variety of Resources and Outline Plans for Attaining Sustainable society. The Enigma of Pollution and the Legal, technical and Personal Solutions for it. Study of Environmental Impact Assessment and Environmental Crisis. Safety Engineering. Principles and practice of Safety and Accident prevention in the Engineering Workplace and Products.
• ALLIED COURSES
  • ME 313: Basic Mechanical Engineering -Thermodynamics (3)
    A course dealing with the thermodynamic properties of pure substances, ideal and real gases and the study and application of the laws of thermodynamics in the analysis of processes and cycles. It includes introduction to vector and gas cycles.
  • EE 414: Logic Circuits and  Switching Theory (4)
    Review of number systems, coding and Boolean Algebra inputs and outputs, gates and gating networks combinational circuits standard form minimization, sequential circuits, state and machine equivalence, asynchronous sequential .circuit’s race conditions, algorithmic state machines design of digital sub-systems.
  • EE 313: Electromagnetics (3)
    Electric and Magnetic field resistive, dielectric and magnetic materials coupled circuits, magnetic circuits and fields, time varying electromagnetic fields and Maxwell’s equations.
  • EE 421: Microprocessor Systems (4)
    The course covers concepts involving microprocessor / micro controller systems architecture/organization including microprocessor/micro controller programming, interfacing techniques, memory systems and bus standards.
    In the laboratory the students will be involved with experiments using micro controllers and the use of micro processor/ micro controller development systems and other tools. Experiment topics include assembly language programming topics, interfacing with input and putout devices, data transfer between micro controller-based circuits and the PC via the serial port and parallel port.
  • EE 321: Principles of Communications (4)
    Bandwidth, filters, linear modulation, angle modulation, phase locked loop, pulse modulation, multiplexing techniques, noise analysis, radio transmitters and receivers. Introduction to Data Communication.
  • EE 412 : Control System Analysis (3)
    This course deals with time and frequency response of feedback control systems. The topics covered include time response of first order and second order systems, modeling, transfer functions, pole-zero map. Stability analysis, root locus, bode plots, compensators, PID controllers, and introduction to state-space techniques.
  • EE 312: Electronics 1 (Electronic  Devices and Circuits) (4)
    Introduction to quantum mechanics of solid electronics; diode and transistor characteristics and models (BJT and FET); diode circuit analysis and applications; transistor biasing; small signal analysis; large signal analysis; transistor amplifiers; Boolean logic; transistor switch.
  • EE 323: Electronics 2 (Electronic Circuit Analysis and Design) (4)
    High frequency transistor models analysis of transistor circuits, multi-stage amplifier, feedback, differential amplifiers and operational amplifiers, integrated circuit families (RTL, DTL, TTL, ECL, MOS)
  • EE 423 :Industrial  Electronics (4)
    Theory and operating characteristics of electronic devices and control circuits for industrial processes, industrial control applications; electronics instrumentation; transducers; data acquisition system; power supply and voltage regulator.
  • EE 324: Fluid  Mechanics (3)
    It covers properties of fluid, pressure intensity, static pressure, relative equilibrium of liquids, kinematics of flow and fluids dynamics, flow through orfices, nozzles, venrturi meters, weirs and flow meters
  • EE 211: Engineering  Materials (3)
    The course deals with the properties of engineering materials including mechanical acoustical, electrical, magnetic, chemical, optical and thermal properties, laboratory experiments using equipment, tension, compression, bending shear, torsion and impact tests.
• PROFESSIONAL COURSES
  • EE 425: EE Laws, Contracts , and Ethics (2)
    This course deals with the study of various law, codes, ethics and standards in the practice of electrical engineering profession.
  • EE512: Electrical  Transmission and  Distribution System (4)
    Design of primary and secondary distribution networks. Load characteristics. Voltage regulation. Metering techniques and systems. Protection of distribution systems.
  • EE 514: Electrical System Design (3)
    This course deals with the study of electrical systems, installation, and cost estimate commercial and industrial establishment applying the provisions of Philippine Electric Code (PEC) and relevant laws and standards.
  • EE 511: Instrumentation  and  Control (3)
    Control and testing Electromechanical, analog and digital measuring and testing instruments R.L and C measurements calibration: graphic and waveform analyzing instruments; and detectors for the measurements of process variables; analysis of performance characteristics of control systems, electronics, magnetic, hydraulic and mechanical control.
  • EE 311: Electrical  Circuits I (4)
    Covers the basic concepts and fundamental laws of electrical theory ; analysis and applications of series, parallel and series – parallel resistive circuits; mesh and nodal analysis; circuits analysis techniques and network theorems; analysis of resistive circuits containing operational amplifiers; characteristics of inductors and capacitors; analysis of RL, RC, and RLC circuits with DC excitation; basic computer – aided circuit analysis and design.
  • EE 321: Electrical  Circuits II (4)
    Covers the sinusoidal function and the sinusoidal forced response of RLC circuits, steady state frequency domain analysis of RLC circuits driven by a sinusoidal voltage/current source; application of mesh/nodal analysis and network theorems in AC circuits; steady state analysis and applications of bridge circuits, resonant circuits. Transient Analysis with AC sources; computer – aided AC circuit analysis.
  • EE 413: Electrical  Circuits III (4)
    Covers study of polyphase system, balanced and unbalanced systematical components two port network and magnetically coupled circuits.
  • EE 424: AC Apparatus  and Devices (3)
    Covers theory principle of operation and applications of single-phase transformers; parallel ;operation of transformers, autotransformers, three-phase transformers, instrument transformers, circuit breakers, power relays and other selected equipment and devices currently use in the filed to be a specific requirement of an electrical system.
  • EE 521: Electrical  Equipment Operation & Maintenance (3)
    Covers the principle of operation, functions, characteristics and applications of different electrical equipment and devices, also covers the design installation and troubleshooting, automation and control of different kinds of industrial motors. Also covers the operating characteristics of induction motors using variable frequency drives pirating characteristics of DC motors using thyristor drives.
  • EE 411: DC Machinery (3)
    Covers the basic principles of electromechanically energy conversion generalized machine model, and the operating characteristics of DC machines and synchronous machines.
  • EE 422: AC Machinery  (4)
    Covers theory principle of operation engineering aspects and applications of three phase alternators, three-phase induction motors synchronous motors and single-phase motors. Covers experiments to demonstrate  the operating characteristics of alternators , induction motors synchronous motors, and other types of motors, also covers the simulation of the principle of operation and the characteristics of electrical machines based on industrial applications
  • EE 522: Power  Plant  Engineering (3)
    Includes Load Graphics, types of power plants, power plant operation and protection, interconnections, economics of electric service and arrangement of equipment for modern plants.
  • EE 523: Power System Analysis and  Design (4)
    Basic structure of power systems, recent trends and innovations in power systems, complex power, per-unit quantities, transmission  line parameters, network modeling and calculations, load flow studies, short circuit calculations, use of computer software for simulation.
  • EE 432: Electrical  Engineering Safety (1)
    Deals with the industrial accident prevention and safety organization, accident analysis, selection and application of remedy/corrective actions industrial health and environmental concerns, first-aid and CPR.
  • EE 525: Information Technology (3)
    A discussion to the Information Technology that focuses on software development data communications computer networking databases internet and web technologies
  • EE 513: Illumination Engineering Design (3)
    This course deals with the study , design, applications, maintenance, cost estimate of electrical system design and use of energy efficient lightning systems in residential, commercial and industrial establishments