MASTER OF ENGINEERING MAJOR IN ELECTRONICS ENGINEERING

MASTER OF ENGINEERING MAJOR IN ELECTRONICS ENGINEERING
Curriculum Year : 2014
First Year, 1st Semester
Subj No. Subj Code Description Units Pre-requisites Co-requisites
8705 MEP105 COMPUTER FUNDAMENTALS 3
8706 MEP106 TECHNICAL COMMUNICATION 3
8701 MEP101 STATISTICAL METHODS 3
8757 MEP118 MATHEMATICS FOR ENGINEERING 3
Total Units : 12
First Year, 2nd Semester
Subj No. Subj Code Description Units Pre-requisites Co-requisites
8730 MEP105R MATHEMATICAL THEORIES, TOOLS & APPLICATIONS 3
8746 MEP107R ADVANCED METHODS OF RESEARCH 3
8709 MEP109 OPTIMIZATION TECHNIQUES 3
8799 MEP342 COMPUTER NETWORK 3
Total Units : 12
First Year, Summer
Subj No. Subj Code Description Units Pre-requisites Co-requisites
700338 MEP290 DESIGN & CONTROL OF RENEWABLE ENERGY 3
700339 MEP291 INTRUMENTATION AND AUTOMATION CONTROL 3
Total Units : 6
Second Year, 1st Semester
Subj No. Subj Code Description Units Pre-requisites Co-requisites
8795 MEP338 EMBEDDED SYSTEMS 3
700334 MEP286 MICROELECTRONICS 3
700320 MEP272 INDUSTRY PROJECT PAPER I 3
Total Units : 9
Second Year, 2nd Semester
Subj No. Subj Code Description Units Pre-requisites Co-requisites
7153 MR600 VINCENTIAN HERITAGE 3
700321 MEP273 INDUSTRY PROJECT PAPER II 3
Total Units : 6

Professional Course Subjects


MEP342 - COMPUTER NETWORK Credits: 3

Course Title: COMPUTER NETWORK
Course Code MEP342
Credit Units 3 Unit/s
Prerequisite
Course Description This course covers computer network design, administration and management, and security. The students are expected to conduct qualitative and quantitative study of the issues in design, analysis, and operation of computer communication and telecommunication networks. N

MR600 - VINCENTIAN HERITAGE Credits: 3

Course Title: VINCENTIAN HERITAGE
Course Code MR600
Credit Units 3 Unit/s
Prerequisite
Course Description This course deals with the life, spirituality, mission and the legacy of St. Vincent de Paul, Patron Saint of Adamson University, and the “family” of collaborators and groups that were either founded by him or draw their inspiration from him: groups who, out of a sense of shared humanity, compassion and love for God, are working for and with suffering human beings who are mostly poor, abandoned, marginalized, oppressed, and powerless. Students find out who St. Vincent de Paul was, what his legacy was, why he is still relevant today, and what they can learn from his heritage that will create an impact in the world especially among the socially disadvantaged sectors.

General Education subjects


MEP107R - ADVANCED METHODS OF RESEARCH Credits: 3

Course Title: ADVANCED METHODS OF RESEARCH
Course Code MEP107R
Credit Units 3 Unit/s
Prerequisite
Course Description Review of descriptive statistics and basic research methodology, experimental method and research design including one way ANOVA, factorial designs, repeated measures, ANACOVA and analysis of main effects, simple effects and interaction comparisons. It also includes problems in multivariate regression analysis, multivariate analysis of nominal and ordinal data, structural equation models and methods for analyzing longtitudinal data, students learn how to choose appropriate methodology for variety of research problems.

MEP290 - DESIGN & CONTROL OF RENEWABLE ENERGY Credits: 3

Course Title: DESIGN & CONTROL OF RENEWABLE ENERGY
Course Code MEP290
Credit Units 3 Unit/s
Prerequisite
Course Description Introduction to Wind Energy Conversion Systems (WECS), assessment of wind energy potential, wind turbine aerodynamics, types of WECS, wind turbines modeling and control strategies, isolated and grid connected WECS systems, hybrid energy systems, energy storage, solar energy systems, photovoltaic cells, module and array concepts, PV system engineering, stand-alone systems, grid connected systems, concentrator systems, PV sizing and maximum power tracking, solar water pumping, micro-hydro electromechanical system and control, introduction to tidal power, wave energy converters, ocean thermal systems and hybrid energy system sizing using HOMER and Hybrid2.

MEP338 - EMBEDDED SYSTEMS Credits: 3

Course Title: EMBEDDED SYSTEMS
Course Code MEP338
Credit Units 3 Unit/s
Prerequisite
Course Description Independently design and develop a hardware platform encompassing a microcontroller and peripherals. Firmware is developed using high-level and low-level languages. A significant final project is designed, documented, and presented. All aspects of the design and development of an embedded system, including hardware and embedded software development. The course utilizes and applies the skills and knowledge gained throughout prior undergraduate curriculum. Individual (rather than team) lab assignments ensure engineering theory is applied to real world designs

MEP272 - INDUSTRY PROJECT PAPER I Credits: 3

Course Title: INDUSTRY PROJECT PAPER I
Course Code MEP272
Credit Units 3 Unit/s
Prerequisite
Course Description This course is a means for the student to show his/her ability to integrate all knowledge and skills acquired by designing or improving integrated system during immersion. The course provides mastery of problem identification, formulation and problem solution by devising method of problem solving which integrate all knowledge and skill acquired during the program. This course is an internship program in industry for 2 (two) months, followed by report writing and presentation seminar. The course provides real world working environment perspective and real experience of working in industry for the student. The course outcome is a final project proposal which will be implemented in the following semester.

MEP273 - INDUSTRY PROJECT PAPER II Credits: 3

Course Title: INDUSTRY PROJECT PAPER II
Course Code MEP273
Credit Units 3 Unit/s
Prerequisite
Course Description This course is a means for the student to complete the analysis of the data gathered during immersion in Industry Project Paper I. This course studies the method for communicating the result of design and research professionally. The course provides ability to conduct a research and to communicate research result in writing as well as in presentation format.

MEP291 - INTRUMENTATION AND AUTOMATION CONTROL Credits: 3

Course Title: INTRUMENTATION AND AUTOMATION CONTROL
Course Code MEP291
Credit Units 3 Unit/s
Prerequisite
Course Description This course deals with control system theory and instrumentation. Topics include 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. Sensors, transducers, detectors, signal processing and conditioning devices are also discussed.

MEP105R - MATHEMATICAL THEORIES, TOOLS & APPLICATIONS Credits: 3

Course Title: MATHEMATICAL THEORIES, TOOLS & APPLICATIONS
Course Code MEP105R
Credit Units 3 Unit/s
Prerequisite
Course Description Linear algebra: linear independence, linear spaces, subspaces, basis, dimension, rank, matrix factorisations, eigenvalue problems, singular value decomposition; principal component analysis. Riccati, Bessel, Legendre equations; Lyapunov equations; phase portraits; Partial differential equations; Vector calculus: gradient, divergence, and curl, line and surface integrals. Random processes; theory of distributions; normal, binomial, exponential, and Poisson distributions; estimation, confidence intervals, and hypothesis testing

MEP118 - MATHEMATICS FOR ENGINEERING Credits: 3

Course Title: MATHEMATICS FOR ENGINEERING
Course Code MEP118
Credit Units 3 Unit/s
Prerequisite
Course Description The course includes topics on engineering functions, trigonometric functions, discrete mathematics, sequences and series vectors, matrix algebra, complex numbers, techniques of differentiation, techniques of integration, application of integration, numerical integration, Taylor polynomials, Taylor series, Maclaurin series

MEP286 - MICROELECTRONICS Credits: 3

Course Title: MICROELECTRONICS
Course Code MEP286
Credit Units 3 Unit/s
Prerequisite
Course Description This course covers integrated circuit design techniques and methodologies. Topics include overview of MOS and sub-micron technology, scaling and signal integrity, IC design techniques, CMOS cell design: device-level design constraints, gate design, pass transistor circuits, sequential circuits, Layout considerations, design rules and mask level design,Circuit optimization techniques, ASIC and full-custom design and timing issues. It also includes design of system and sub-systems using any IC design software: Arithmetic and logic processing elements, I/Os, buffers, data path design and layout. Chip floor planning. Basic analog building blocks. Design tradeoffs-cost, power and performance, testability and yield.

MEP109 - OPTIMIZATION TECHNIQUES Credits: 3

Course Title: OPTIMIZATION TECHNIQUES
Course Code MEP109
Credit Units 3 Unit/s
Prerequisite
Course Description This course will provide graduate students with the systematic training in the use of continuous optimization (i.e. mathematical programming) techniques in research and applications. The materials to be covered are structured to build on the students’ knowledge on both unconstrained and constrained nonlinear optimization and emphasis will be placed on learning practical solution techniques. The progression of the topics is designed to add depth and breadth to the concept and applications of optimization techniques, one-dimensional Minimization Method, Constrained minimization Method, Dynamic programming, and integer programming

MEP101 - STATISTICAL METHODS Credits: 3

Course Title: STATISTICAL METHODS
Course Code MEP101
Credit Units 3 Unit/s
Prerequisite
Course Description The course deals with the application of statistical techniques and concepts to maximize the amount and quality of information resulting from experiments. After a brief introductory summary of fundamental concepts in probability and statistics, topics considered will include probability distributions, sampling distributions, estimation and confidence intervals for parameters of statistical distributions, hypothesis testing, design and analysis of variance for single and multiple-factor experiments, regression analysis, estimation and confidence intervals for parameters of non-statistical models , and statistical quality control.

MEP106 - TECHNICAL COMMUNICATION Credits: 3

Course Title: TECHNICAL COMMUNICATION
Course Code MEP106
Credit Units 3 Unit/s
Prerequisite
Course Description The course focuses on logical structure of technical reports, strategies, ways to use teamwork, laboratory notebooks and report format to help with the writing process, editing for style and usage, and editing for grammar and punctuation.

Online Enrollment Procedures


Contact Information

Office of the University Registrar
Adamson University
900 San Marcelino Street, Ermita, Manila 1000.

Tel. Nos. 8525-7013
524-2011 (extension 129, 100, 133)
Fax No.: 8522-5526

Email: registrar@adamson.edu.ph