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BS MECHATRONICS ENGNEERING (BS MecE) LEGEND: 1st SEMESTER (BLUE) COURSE NO. Engl 7 MEC 311 MEC 311L MEC 312 MEC 312L 2nd SEMESTER (GREEN) COURSE TITLE COURSE DESCRIPTION Technical Writing This is a writing course designed to guide the future practitioners in the field of science and technology in preparing clearly-written papers or reports by applying the principles of clarify, accuracy and facility of expression with the aid of their respective technical language. It further aims to develop their ability to present ideas convincingly to their colleagues as well as to the laymen. Electronics 1 Electronics 1 Laboratory Circuits 1 Circuits 1 Laboratory Covers the analysis of electrical (I.e., series and parallel circuits) with the use of various network theorems in preparation for diode applications and transistor circuit analysis. Various diode approximations are considered including design and analysis of rectifier circuits which are vital in the design of power supplies. The topic on diode leads to the study of transistor, circuits leading to the design and analysis of amplifier circuits (both AC & DC analysis) Experiments covering the characteristics and operations and applications of the diode. It also covers familiarization with the transistor, its various parameters vital to transistor circuit design, transistor testing, transistor biasing and several classes operation. A comprehensive course on direct current circuits and networks for Electronics and Communications Engineering students. Study on direct current, voltage, resistance and power relation; network laws and theorems and their application to steady state direct current, electric circuits and network analysis; inductance and steady magnetic field and energy; capacitance and steady electric field and energy; transient voltage and current in RL, RC and RLC direct current circuits. A laboratory course on direct current theory, direct current electrical circuits and networks for electronics and communications engineering students. Laboratory experiments and investigations are performed on topics and subject matters taken in ECE 312. MEC 313L Mech 311S Litt 1 The course deals with workshop theory and organization; simple workshop measuring instruments, hand tools, fitting bench work, bench drill and bench Machine Shop Theory and grinder; sheet metal working; principles of welding processes, welding metallurgy, Practices joining processes; foundry and metal casting. Statics of Rigid Bodies Literature of the Philippines Study of basic principles and fundamental analysis of various forces of mechanics with corresponding application, significance and importance in the various problems in mechanical design and related problems of engineering. Statics including determination of stresses in mechanical structure and machines, cranes, and trusses by analytical and graphical methods; Centroids and moment of inertia of plane areas and solids. The course presents the development of Philippine Literature in English. As such, it introduces literary materials classified according to various genres, thereby exposing students to a variety of Filipino literary pieces. It also describes the different eras in Philippine history which have influenced Philippine literature. A study of the fundamental concepts of the mechanics of heat; the first and second laws of Thermodynamics; characteristic equations of ideal gases, its processes and cycles; internal combustion engines; two-phase system; steam, its properties, processes and cycles. ME 313A Thermodynamics MEC 320 This is a 3-unit course designed to introduce the advanced methods of Advanced Math w/ Numerical mathematics, their applications and importance to applied engineering problems. Methods MEC 321 MEC 321L Electronics 2 Electronics 2 Laboratory Covers the design, dc and ac analysis and operation of single-stage amplifiers using bipolar junction transistors; the physical construction, dc and ac analysis and operation of both the Junction Field Effect Transistor and Metal Oxide Semiconductor Field Effect Transistor, analysis of multistage amplifiers integrating bipolar junction transistor and field effect transistor stages. The fundamentals, characteristics, properties, and analysis of ideal operational amplifier which include several other circuit sources and level shifters, are discussed. Experiments covering the characteristic and operation of various amplifier application circuits. Parameters such as voltage gain, phase relationship between input and output signals are to be obtained. MEC 322 A comprehensive course on alternating current theory, alternating current circuits and networks for Electronics and Communications Engineering Students. It includes the study of effective or root mean square value of alternating currents and voltages, average power, magnitudes and phase relations of voltage, current and power in resistance, inductance and capacitance, sinusoidal single phase alternating current circuits; reactance, impedance and apparent power, reactive power and power factor, alternating current circuit laws and network theorems; vector phasor and complex algebra applied in circuit analysis; resonance phenomena and resonant circuits; Fourier analysis and non-sinusoidal alternating current and voltage functions and circuits. Circuits 2 MEC 322L Circuits 2 Laboratory MEC 323L Machine Shop Practice 2 Theory MEC 324 Machine Elements 1 MEC 324L Machine Laboratory MEC 325 Programmable Controllers 1 MEC 325L ME 321 A laboratory course on alternating current theory, alternating current circuits and networks for electrical and electronics and communications engineering students. Laboratory experiments and investigations are performed on topics and subject matters taken in ECE 322. Elements The course deals with the classification, operation and uses of machines; lathes, & shapers, planers, drilling and boring, milling, and grinding machines; measuring instruments; machine tools and its accessories; practical exercises and projects. An analytic and graphical study of fundamental principles of mechanical movement; velocity and acceleration analysis applied on common mechanisms such as bar linkages, quick return mechanisms, slider crank mechanisms, etc. An analytical and graphical study of fundamental principles of mechanical 1 movement; velocity and acceleration analyses applied on common mechanisms such as bar linkages, quick return mechanisms, slider crank mechanisms, etc. The course deals with the theories and principles operation involved in Logic instrumentation, process measurement, process control systems, automatic controllers and their application in the field of mechatronics engineering. The course deals with the theories and principles operation involved in Programmable Logic instrumentation, process measurement, process control systems, automatic Controllers 1 Laboratory controllers and their application in the field of mechatronics engineering. Strength of Materials A study of basic factors and approach in mechanical and engineering structure design; stresses and strain in bodies subjected to compression tension, shear, bending and torsion; theory flexure, deflection of beams; combined stresses; repeated and impact loading; fatigue and theory failure. MECH 311D MEC 410 MEC 411 MEC 411L Dynamics of Rigid Bodies Material Science Switching Theory Switching Theory Laboratory MEC 412 Electrical Machinery:AC/DC MEC 412L Electrical Machinery:AC/DC Laboratory Study of the basic principles and fundamental analysis of various forces of mechanics with corresponding application, significance and importance in the various problems in mechanical design and related problems of engineering. Kinematics including rectilinear and curvilinear motion of particle, relative motion, mechanical vibration having harmonic motion. Kinetics including study of forces, mass, acceleration, inertia force, impulse and momentum, work, energy and power. A study of basic factors and approach in mechanical and engineering structure design; stresses and strain in bodies subjected to compression tension, shear, bending and torsion; theory flexure, deflection of beams; combined stresses; repeated and impact loading; fatigue and theory failure. Review on number systems and coding; Boolean algebra; combinational circuit minimization; sequential circuit analysis and synthesis; sequential circuit state minimization; race conditions; use of integrated circuit building blocks; algorithmic states machines. The course aims to demonstrate the operations of the different logic gates; develop truth tables of logic functions. It also aims to familiarize the students with the operation of flip-flops, design and development of counters and finally require the students to design and implement a project in application of the basic logic theories. It deals with the study of DC generators and AC generators in particular on the various DC-AC principles, characteristics, losses, efficiencies as well as operation. Also, covers transformers, types of induction motors, synchronous motors operation in parallel as well as synchronous connection. Laboratory involves characteristics, test, lost and efficiencies, connection and operations. A comprehensive laboratory course on electrical machines, both direct and alternating for Mechatronics Engineering students. Laboratory investigations and experiments are performed on topics and subject matters taken in MEC 412. MEC 413 Control System Engineering MEC 414 Machine Elements 2 MEC 414L Machine Elements 2 Laboratory MEC 415 MEC 415L MEC 416 A course on the principles of linear feedback control system analysis and design for electrical engineering students, review of solutions of differential equations, laplace transforms and other mathematical tools in control systems analysis and design, Routh's stability criterion; control systems block diagram, transform functions and flow graphs; servo characteristics, root locus, specialized pole-zero topics, frequency response, Nyquist stability criterion, feedback control system performance and frequency response. The course deals with the basic displacement diagram, design of different kinds of cams and its followers, bodies in rolling and sliding contact, flexible connectors, gears and gear train. The course deals with the basic displacement diagrams, design of different kinds of cams and its followers, bodies in rolling and sliding contact, flexible connectors, gears and gear trains. Fluids and Hydraulics System A study of the operating principles, characteristics, installation testing, operation, design selection and maintenance of the different types of pumps; the study of hydraulic turbines and accessories of hydro-electric power plants. Included also are other fluid machines such as blowers and fans. A study of the operating principles, characteristics, installation testing, operation, design selection and maintenance of the different types of pumps; the study of Fluids and Hydraulics System hydraulic turbines and accessories of hydroelectric power plants. Included also Laboratory are other fluid machines such as blowers and fans. Refrigeration Conditioning and MEC 416L Refrigeration and Conditioning Laboratory MEC 421 Programmable Controllers 2 The course deals with the study of the thermodynamic principles and components Air of mechanical refrigeration systems; refrigeration cycles and equipment, psychrometry, cooling load calculation; ice making and cold storage systems. The course deals with psychrometric properties of air; factor affecting human comfort; heat load calculation; air conditioning processes and systems; air Air distribution and basic duct design, heating and ventilation, complete design of an air conditioning /cold storage system and its components. Logic This course covers the fundamentals of digital logic and an introduction to programmable logic controllers (PLCs) in a complex mechatronics system with a focus on the automation system using FST and PICOSOFT software. Parts of a PLC, principles of operation, PLC sizes, PLC hardware and components. Data manipulating instruction are also discussed. PLC programming languages are also discussed particularly Ladder Diagram, Statement Listing (STL) and Sequential Flow Chart (SFC). MEC 421L MEC 422 MEC 423 MEC 423L MEC 424 The laboratory subject intends to supplement the topics covered in MEC 421. The Programmable Logic controller used is a component part of FESTO Didactic Learning System for Automation and Communications. The subject aims to learn how to program programmable logic controller for creating programs in the programming languages 'ladder diagram' (LD), 'function block diagram' (FBD), 'instruction list' (IL), 'structured text' (ST) and 'sequential function chart' (SFC). A Programmable Logic basic knowledge of electro-pneumatics and sensor technology are used to know Controllers 2 Laboratory the functionality of a given exercises. This exercises deals with the following main topics: Components of a programmable logic controller PLC programming to IEC 1131 Basic logic operations Logic control systems Sequence control systems. Practical hands-on introduces to uses, hardware, configuration and uploading/downloading programs. All topics are illustrated through practical exercises of FESTO workbook using PLC for practical application. Methods of Research Industrial Electronics and The course is designed to acquaint ME students on the nature, importance and methodologies of applied research and also incorporate applications relevant to their field of endeavor to prepare them to a more advance research work application. Covers the study of the design of filtered, or unfiltered, regulated and unregulated DC power supplies, both single and polyphase. It also includes the study of the Power principle of operations of control devices such as silicon controlled rectifiers, triacs, diacs, unijunction transistors and other control devices including photo devices. Covers the actual study, analysis, and operations of both filtered and unfiltered, regulated and unregulated DC power supplies, both single and polyphase. It also Industrial and Power includes the study of the principle of operations of control devices such as silicon Electronics Laboratory controlled rectifiers, triacs, diacs, unijunction transistors and other control devices including photo devices. Machine Elements 3 A study of simple and combined stress analysis; their importance, and applications to the design of common machine members such as screw fasteners, thin-shell cylinders, springs columns, power screws, shafts, keys, and couplings. It involves also the study of theories of failures, endurance limit and factors of safety. MEC 424L ME 426B MEC 426 MEC 426L Engg 510 MEC 510 Machine Elements 3 Laboratory Safety Management Safety Engineering A study of simple and combined stress analysis; their importance, and applications to the design of common machine members such as screw fasteners, thin-shell cylinders, springs columns, power screws, shafts, keys, and couplings. It involves also the study of theories of failures, endurance limit and factors of safety. A course, which introduces the principle of safety, the importance of safety consciousness, safety organizations, management responsibility and and administration of safety programs. The course is also concern with the principles if accident prevention and its application to conservation of life and property in industrial setting. This is a 2 units lecture course designed to provide students with fundamentals of Computer Aided Design (CAD) applications particularly AUTO CAD. The course Computer Aided Design for focuses on basic CAD commands with emphasis given on the proper application MEC of basic and advance drafting techniques with the use of Auto CAD software. This is a 2 units laboratory course designed to provide students with fundamentals of Computer Aided Design (CAD) applications particularly AUTO Computer Aided Design for CAD. The course focuses on basic CAD commands with emphasis given on the MEC Laboratory proper application of basic and advance drafting techniques with the use of Auto CAD software. Engineering Economy Work Ethics and Laws Orients the students on the basic principles of economy studies, interest and money along with their time relationships, the determination of project feasibilities; Evaluation of marketable securities and their uses; breakeven point analysis and its applications; a through introduction to the selection procedures used in different projects. The course covers the study of the key elements of ethics, ethical practice, concepts and dilemmas specific to helping relationship and professionalism with emphasis on working with young people in local and global context. The course includes case analyses and study of codes of ethics. MEC 511 MEC 511L MEC 512 To educate the students of Bs. Mechatronics about Artificial Intelligence (AI), technologies needed for implementing AI, and the logic used in various AI Advance Computer System & applications like Computer Vision, Robotics, Expert Systems, and Natural Information Technology Language Processing etc. To educate the students of Bs. Mechatronics about Artificial Intelligence (AI), Advance Computer System & technologies needed for implementing AI, and the logic used in various AI Information Technology applications like Computer Vision, Robotics, Expert Systems, and Natural Laboratory Language Processing etc. Programmable Controllers 3 The course covers the study of the advanced programmable logic controller. The discussion includes the study of control engineering, the basic components of Logic PLC, programming languages (Ladder diagram and STL), PLC Timers and Counters, Registers, Multitasking (FEC and FPC), Operation of a Safety PLC and sequence Control. The course is aimed at planning, assembly, programming, commissioning operations, maintenance and trouble-shooting of production systems. It comes at various levels of complexity with innovative technology, systematic use of industrial components and in close cooperation with industry leaders in automation. MEC 512L MEC 513 Programmable Logic Controllers 3 Laboratory The course will cover areas in basic design of FEC control systems, including pneumatics, mechanics and electrics, input and output module tasks, the two programming languages: LDR and STL, basic command set for FEC, creating, loading and testing simple programs, using the status display, signal storage, PLC timer and archiving and dearchiving PLC programs Mirco & Programming A lecture course on the architecture, organization and programming of a microprocessor and design of a microprocessor-based system for electrical engineering students. Study of the architecture of microprocessors; interfacing procedures, standards and hardware requirements; microprocessor structure and Assembly programming; hardware requirements; programming of 8080, 8085 and 6800 microprocessors; input/output techniques, keyboards and displays; requirement criteria standards and procedures in the design of a microprocessor-based system. MEC 513L MEC 514 MEC 514L MEC 515 Engg 500 A laboratory course on Microprocessor Software and Hardware for electrical Mirco & Assembly engineering students. Laboratory experiments are performed on topics and Programming Laboratory subject matters taken in EE 524. Microcontroller Systems Microcontroller Laboratory The primary goal of this course is to give the students fundamental skills needed to understand, use and design microcontroller-based systems. This includes the discussion of structure and operation of microcontroller, the programming languages (low level and high level languages), the design and programming of microcontroller -based system. This subject intends to supplement the topics covered in the lecture (MEC 514). Practical hands on are given to the student by programming the different Systems exercises using Keil Software. The designing for hardware and software application will be developed through design projects. This subject intends to supplement the topics covered in the lecture (MEC 514). Practical hands on are given to the student by programming the different Principles of Communication exercises using Keil Software. The designing for hardware and software Systems application will be developed through design projects. Environmental Engineering The course teaches on the application of the skills learned by mechanical engineers in waste water treatment processes. It provides techniques, limitations, specifications and other design considerations so as to propose or modify a treatment scheme. It covers subject matters such as the chemistry of water, its composition, and composition of saline water, common water pollutants, sources and effects; includes wastewater treatment such as physical treatment methods, chemical treatment methods, biological treatment methods, laundry waste treatment and nitrogen and phosphorous removal. It includes design consideration on equipments for wastewater treatment as applied to specific industry. MEC 521 Modeling Systems MEC 521L The main objectives are to provide students with a conceptual understanding of the principles of CAD systems, the implementation of these principles, and its Modeling of Mechatronics connections to CAM and CAE systems. The generic aspect of CAD software Systems Laboratory systems will be discussed. A large portion of the students' time will be spent independently in the computer labs learning the details of design and analysis related to the product realization process. MEC 522 MEC 522L MEC 523 of The main objectives are to provide students with a conceptual understanding of the principles of CAD systems, the implementation of these principles, and its Mechatronics connections to CAM and CAE systems. The generic aspect of CAD software systems will be discussed. A large portion of the students' time will be spent independently in the computer labs learning the details of design and analysis related to the product realization process. Robotics Robotics Automation System Design The subject aims to develop the working knowledge of the student on the mathematical aspects of robot manipulator analysis and control. It focus on the types of robots, types of joints used in robots, degree of freedom and constraints, types of planar and spatial mechanisms, transformations from one system to the other, forward and inverse kinematics, Jacobian, Velocity and Force Analysis, Dynamics of robots, Path planning and trajectory analysis, Mechanism design (serial and parallel) used in robots, Linear control of manipulators, Sensors and actuators used in robotics, MEMS. The subject aims to develop the working knowledge of the student on the mathematical aspects of robot manipulator analysis and control. It focus on the types of robots, types of joints used in robots, degree of freedom and constraints, types of planar and spatial mechanisms, transformations from one system to the other, forward and inverse kinematics, Jacobian, Velocity and Force Analysis, Dynamics of robots, Path planning and trajectory analysis, Mechanism design (serial and parallel) used in robots, Linear control of manipulators, Sensors and actuators used in robotics, MEMS. The course covers manufacturing automation with particular reference to CNC and PLC. After this course, the students would be able to understand the automation requirements of a modern manufacturing set-up. MEC 523L MEC 524 MEC 524L MEC 525 ENGG 520 Automation System Design Project Study Project Study The course covers manufacturing automation with particular reference to CNC and PLC. After this course, the students would be able to understand the automation requirements of a modern manufacturing set-up. This course focuses on the synergetic integration of the knowledge of mechanical engineering, electronics, and computer engineering to achieve a functional multiaxis position control system. In this course, students practically develop a position control system like CNC XY-table, Robot, or AGV in the lab. Theory class is used for background knowledge required to design the system, numerical calculations and the development of a design document. This course focuses on the synergetic integration of the knowledge of mechanical engineering, electronics, and computer engineering to achieve a functional multiaxis position control system. In this course, students practically develop a position control system like CNC XY-table, Robot, or AGV in the lab. Theory class is used for background knowledge required to design the system, numerical calculations and the development of a design document. A study of industrial plants and factories through plant visitations; study of the manufacturing processes with emphasis on the layout of machineries and OJT, Field Trips and Seminars mechanism. Engineering Management Covers the study of the industrial enterprise with its major operating functions, its organizational set-up/structures,its procedures and specific methods of operations, analysis of risks and forecasts, basic method of financing and budjeting, the exploitation of its own research and development, the study of its physical facilities, its production planning methods, its productivity improvement plans, its product flow/material flow analysis, its quality control procedures, its policies that affect labor and management relations, the study of wage allocations and its personal functions.