DEPARTMENT OF MECHANICAL AND
ELECTRO-MECHANICAL ENGINEERING
2014-2015 TAMKANG UNIVERSITY
1. Requirements for a degree of B.S. in Mechanical and Electro-Mechanical Engineering:
Completion of 146 credits of courses, including 102 credits of required courses and 44 credits of
elective courses.
2. Requirements for a master’s degree: (degree offered in 3 fields)
Minimum number of credits: 26 credits, including 24 credits of elective courses and 2 credits of
seminars. Students are also required to submit a written master’s thesis completed under the
supervision of a faculty member, and pass an oral examination.
3. Requirements for a Ph.D. degree: (degree offered in 2 fields)
Minimum number of credits: 25 credits, including 21 credits of elective courses and 4 credits of
seminars. Students are required to pass a qualifying examination in the first two years, publish at
least two research papers in any journal listed in Science Citation Index, submit a written doctoral
dissertation completed under the supervision of a faculty member, and pass an oral examination.
Undergraduate Courses
E0031 Engineering Graphics (1/1): Graphic instruments and their use; graphic geometry; lettering;
orthographic drawing and sketching; pictorial drawing and sketching; auxiliary views; sectional views
and conventions; dimensions, notes, limits, and precision.
E0034 Engineering Mathematics (3/3): This course covers ordinary differential equations, vectors,
matrices, Laplace transform, Fourier analysis, partial differential equations and complex analysis.
E3300 Introduction to Marine Energy (0/2): Applying a reusable energy perspective to view a range
of subjects (from power resources to consumer products), this course describes the important principles
of marine energy science and technology. By introducing students to the technical concepts behind the
functioning of such items, this course hopes to inspire students to pursue a career in the field of marine
energy.
E0038 Industrial Engineering (0/3): The purpose of this course is to help students understand the
general methodology of IE. The course consists of four parts: planning, design, production and
management.
E0165 Automatic Control (3/0): This course covers the Laplace Transform, mechanical system
modeling, stability of linear control systems, time-domain analysis, root-locus techniques, frequency
domain analysis, and the design of control systems.
E3210 Strength of Materials (I) (3/0): This course addresses the following subjects: material
properties, uniaxial force members, plane stress and plane strain, torsion of circular sections, stresses in
beams, deflections of beams, and energy concepts.
E0231 Materials and Metallurgy Testing Lab. (1/0): Tensile and torsion strength test; impact test;
Rockwell; Brinell and Vickers hardness test; Fatigue test; microstructure of general and standard test;
taking pictures of test specimens.
E0296 Fluid Mechanics Laboratory (0/1): Error estimation; manometers; Pitot tube; Bourden gauge
calibration; static water pressure; forced vortex; Reynolds experiment; hydraulic bench; open channel;
Venna contracta; impact experiment; Venturi tube; orifice meter; head loss measurement.
E0300 Fluid Mechanics (3/0): Dimensional analysis and similitude, internal incompressible viscous
flow, external incompressible viscous flow, introduction to compressible flow, steady one-dimensional
compressible flow.
E0445 Intermediate Dynamics (0/3): Principle of impulse and momentum for three dimensional
motion of a rigid body; Euler’s equations of motion; principles of virtual work; Lagrange’s equations
of motion; dynamic balancing of rotating machinery.
E0629 Microprocessors (0/3): The objective of this course is to introduce the software and hardware
architectures of microprocessors. This course covers 8051 hardware, C language, assembly language,
I/O interface, and memory systems.
E3262 Engineering Applications of Computers (I) (2/0): This course covers methods for solving
single-variable equations, interpolation and polynomial approximation, numerical integration and
differentiation.
E3263 Engineering Applications of Computers (II) (0/2): This course covers methods for solving
numerical integration and differentiation, firs order and higher order ODE, and PDE.
E3080 Electrical Engineering and Electronics Lab (1/0): This course offers a series of experiments
designed to help students learn the basic principles of electronic devices and gain hands-on experience
in their applications.
E0718 Computer Graphics (0/1): The main purpose of this course is to teach students to use AutoCAD and Microstation to draw both two and three dimensional engineering drawings.
E0777 Thermal Engineering Lab (1/0): Steam power plant; heat exchanger; heat conduction unit;
thermal conductivity of liquid and gas unit; natural convection; thermal wind tunnel; CPU cooler unit.
E0782 Heat Transfer (0/3): This course covers the following subjects: basic modes of heat transfer,
conduction, convection, natural convection, forced convection, heat exchangers, radiation, heat transfer
with phase change.
E0815 Mechanism (0/3): Motion in machinery, velocity and acceleration analysis of mechanisms,
transmission of motion, static and dynamic force analysis, balance of inertial forces, dynamic features
of machinery.
E2886 Robotics (2/0): This course provides students with a basic conception of Robotics. Topics
include kinematics and differential kinematics of robots, robot actuators, trajectory planning, robot
perception, robot vision, and robot control. The robot systems concerned in this course include wheeled
mobile robots and legged mobile robots.
E2410 Fundamentals of Mechanical and Electro-Mechanical Engineering (0/1): This is a freshman
course designed to introduce basic concepts about mechanical and electro-mechanical engineering to
beginning engineering students.
E3207 Fundamentals of Precision Machine Elements (2/2): This course provides instruction on the
design and application of standard precision machines. In particular, it emphasizes the correctness,
accuracy and safety of the resultant design. It also emphasizes the production of creative and reliable
designs. It is a fundamental course for modern mechanical system design.
E0828 Mechanical Drawing (1/0): This course covers the following subjects: section view; details
and assembly drawing; the use of threads, fasteners, keys, rivets and springs; gear and cam; drawing of
piping; welding; jigs and fixtures.
E0914 Precision Manufacturing Processes (0/3): This course covers fundamentals and applications
of various manufacturing processes such as the fundamentals of materials, machining processes, basic
metal cutting theory, fundamentals of machine tools, non-traditional machining processes, forming
processes, casting processes, joining processes, micro-nano fabrication processes, and automation and
quality assurance.
E0867 Applied Mechanics (I): (Statics) (0/2): Fundamental principles, statistics of particles,
equivalent systems of forces, equilibrium of rigid bodies, centroids and centers of gravity, analysis of
structures, forces in beams and cables, friction, moment of inertia, method of virtual work.
E0722 Circuit Theory (0/3): This course introduces fundamental principles and analysis methods of
electric circuits. The contents contain DC and AC circuits, transient and frequency responses of
electric circuits, and AC power.
E2235 Computer Program Design (3/0): The purpose of this course is to introduce programming
tools commonly used by scientists and engineers. This course includes the following subjects: (1) an
introduction to programming; (2) input/output; (3) file processing; (4) decisions and the IF statement;
(5) repetition and loops; (6) arrays; (7) functions and subroutines.
E2525 Strength of Materials (II) (0/3): The purpose of this course is to (1) teach students how to
study mechanics, (2) introduce solutions of simple structures made of linear elastic materials, and (3)
introduce failure modes including yielding, fatigue, and buckling.
E0868 Applied Mechanics (II): (Dynamics) (3/0): Kinematics of particles, kinetics of particles,
Newton’s second law, energy and momentum methods, systems of particles, kinematics of rigid bodies,
kinetics of rigid bodies, introduction to mechanical vibration.
E0902 Logic Design (3/0): This course covers the number systems and operations, logic gates,
Boolean algebra, Karnaugh maps, combinational logic analysis, sequential logic and logic devices.
E0961 Electronics (3/0): This course covers semiconductors and diodes, bipolar junction transistors,
field-effect transistors and power electronics, operational amplifiers, integrated circuit electronics,
digital logic circuits, and digital systems.
E1034 Introduction to Computers and Programming (2/2): Information technology, personal
productivity tools, hardware and communications, information systems, technological trends, problemsolving
with Fortran and other computer-aided devices.
E1559 Mechatronics (0/3): This course introduces each part of the control system while integrating
the following sections: (1) electromechanical components; (2) interface circuit; (3) mechanical parts;
and (4) feedback signal processing.
E2067 Control System Design (0/3): This is an advanced level program of automatic control. This
course introduces control designs in frequency domain or state space methods. Topics include:
frequency response of a linear system, control design by frequency response methods, state variable
models, and state feedback control.
E2157 Applications of Industrial Materials (3/0): This course is organized into three parts: (1)
manufacturing, property and applications of the back light modulus; (2) manufacturing, property and
applications of fixable displays; (3) manufacturing, property and applications of optical films; (4)
manufacturing, property and applications of white light LED.
E3119 Energy and the Environment (0/3): This course introduces the fundamental relationship of
energy use and environmental issues, pollution control technologies and waste management strategies,
while reviewing the current status of renewable and non-renewable energy sources. The course
emphasizes the importance of finding the equilibrium between technology and environmental
protection.
M0022 Engineering Economics (3/0): This course introduces concepts and theories related to the
Engineering Economy. The tools introduced can be used in making decisions, while the areas touched
on include the production industry (e.g. IC packing, TFT-LCD, Notebook, machinery and Mechtronics),the bio-tech, and bio-medical industries. Throughout the course, decision making and risk control are
studied and practiced.
E3403 Mechanism Design (3/0): The purposes of this course are to interest the students in mechanism
design, to acquaint the students with techniques for mechanism synthesis, to make students competent
to evaluate various mechanisms and to modify them. Topics include classifications of mechanisms,
introductions to drivers, synthesis techniques, analytic skills, design evaluation, and case studies.
E3404 Advanced Computer Graphics (0/3): This course teaches student how to use the threedimensionalcomputer-aided design software and draft the mechanical elements. The motion and
structural simulations will also be exercised. The students will build the three-dimensional models in
practice. The rapid prototyping and precise machine design will be achieved.
T0994 Key Issues in Career Planning (1/1): The purpose of this course is to help students develop
the ability to think logically, and to enhance their problem-solving skills and techniques of expression.
Logical thinking is developed by reading technical papers; while problem-solving skills are gained by
solving engineering problems. Training in expression is carried out by writing reports.
E1108 Workshop Practice (1/1): The first topic discussed is woodworking, the second metal filing,
the third metal removal processes—especially in turning—and the final, the welding process.
E1903 Analysis of Dynamic Systems (3/0): Topics in this course include: translational and rotational
mechanical systems, electrical systems, analytical solution of linear models, Laplace transform and
transfer function analysis, electromechanical systems, block diagrams, and computer analysis.
E1277 Fundamentals of Mechanical Vibrations (3/0): Dynamics, oscillatory motion, free vibration,energy methods, forced periodic vibration, initial conditions and transient vibration, damping, damped
forced vibration, two degrees of freedom, and nonlinear vibration.
E3229 History of Fluidic Machine (2/0): This course provides an introduction to the development of
machinery throughout human history to inspire and motivate students to pursue further studies in the
field of mechanical engineering.
E1954 Digital Signal Processing (0/3): The course will cover the concepts of continuous-time
sinusoidal signals, discrete-time signals and systems, the frequency spectrum, and filter design.
Students will improve their digital application ability in the control field.
E3209 Applied Physics (3/0): The course focuses on the application and property of the various
classes of physics, Important topics include: electrical, semiconductor physics, superconducting
physics, magnetic physics, dielectric, optical physics, modern physics and nano-physics.
E3299 Introduction to Optomechatronic Engineering (0/3): This course provides fundamental
principles, design guidelines, and system integration techniques of optomechatronic systems. The
content contains principles of photonics, principles of optomechanical design, signal processing and
system interface techniques. The optomechatronic systems concerned in this course include laser
encoders and laser writers.
E2291 Microprocessor Applications Lab (0/1): This course conducts a series of application
experiments on microprocessors. The applications include timers, counters, serial ports, external
memory, and external I/O, ADC, DAC, 8255 interfaces.
E3087 History of Machine Science & Technology (2/0): This course provides an introduction to the
development of machinery throughout human history to inspire and motivate students to pursue further
studies in the field of mechanical engineering.
E3088 Materials Science and Engineering (0/3): This course is organized into four parts: part one:
Fundamentals; part two: Microstructure Development; part three: Property of Materials; and part four:
Materials Synthesis and Design.
E3125 Electronic Packaging (0/2): This course provides a practical introduction to the electronic
packaging issues of the semiconductor industry.
S0434 Engineering Thermodynamics (2/2): Concepts and definitions; properties of a pure substance;
work and heat; the first and the second law of thermodynamics; entropy; power and refrigeration cycles;thermodynamics of mixtures; thermodynamic relations; chemical relations; phase and chemical
equilibrium.
E0158 Introduction to Finite Element Method (0/3): The purpose of this course is to introduce the
numerical method to solve practical physical problems. Course content includes the stiffness method,
truss element, beam element, frame element, the plane stress and plane strain stiffness equation.
E0710 Computer Aided Design (3/0): This class is designed to introduce a person to the fundamentals
of PTC’s Pro/ENGINEER software. Topics include sketch module, part module, assembling module,
drawing module, mechanism module, and much more. Students will learn how to properly set up CAD
projects using Pro/E. The goal of this course is to familiarize engineering students with fundamental
principles of computer aided design and perform basic engineering design using solid modeling and
parametric design using Pro/E software. At the end of this course, students will have created a project
and will better understand CAD office standards.
E0715 Computer Aided Manufacturing (0/3): Computer aided manufacturing (CAM)is very
important for mold development. This course involves the relationship between the structure, property,
and morphology of mold design. The course also provides basic and advanced instruction on tool path
programming. Students can anticipate to apply CAM software and to finish their final project.
E2040 The Processing Machines of Microchip Fabrication (0/3): This course provides a general
understanding of the processing machines of microchip fabrication, involving the system integration ofelectronics, material science, physics, chemistry, and mechanics.
E2238 Applied Design Optimization (3/0): This course details the theory and application of
optimization techniques that arise in mechanical engineering design. In addition to the mathematical
fundamentals of gradient-base techniques, the major focus of the course is the unconstrained and
constrained programming of numerical methods. A well-developed commercial package optimizer is
used in the course and is integrated with the user’s simulation program. Several mechanical structural
design problems are explored throughout the course.
E3298 Surface Engineering of Materials (0/3): This course provides students with basic concepts on
physical and chemical properties in material surface treatment. Topics include the principles and
technology involved in electroplating, evaporation technology, principles of physical vapor deposition
(PVD), principles of chemical vapor deposition (CVD), sputtering plating techniques, the anodized
treatment of principle and technology, deposited surface analysis and measurement.
E3208 Principle of Precision Machine (3/0): This course aims to introduce the fundamentals and
applications of Precision Machine Design. Topics such as Basic Principles of Accuracy, Repeatability
and Resolution, Geometric Errors Analysis, System Design Consideration, Machine Structure of
Precision Machines, Metrology System in Precision Machines, Sensors & Transducers in Precision
Machines will be addressed and discussed.
E2222 Fundamentals of Precision Machining (0/3): This course covers fundamentals and
applications of precision machining. Topics such as Introduction to Mechanical/Optical Metrology
System, Introduction to Precision Machine Tools, Basic Principles of Precision Turning Technology,
Basic Principles of Precision Grinding Technology, Basic Principles of Precision Lapping Technology,
Introduction to Energy Beam Machining will be addressed and discussed.
E3485 Human Factor (3/0): Reducing error and influencing behavior is the key in understanding our
approach to human factors. It gives a simple introduction to generic industry guidance on human
factors, which it defines as: "Human factors refer to environmental, organizational and job factors, and
human and individual characteristics, which influence behavior at work in a way which can affect
health and safety" This definition includes three interrelated aspects that must be considered: the job,
the individual and the organization. In other words, human factors are concerned with what people are
being asked to do (the task and its characteristics), who is doing it (the individual and their competence)and where they are working (the organization and its attributes), all of which are influenced by thewider societal concern, both local and national. Human factors can, and should, be included within a
good safety management system and so can be examined in a similar way to any other risk control
system.
Master’s Program
E0156 Finite Element Methods (3/0): This course covers matrix structure analysis of trusses, beams,
and frames, energy principles, shape functions, stiffness matrices, load vectors, assembly of system
equations, boundary conditions, isoparametric formulation, constraints, axisymmetric problems, plates
and shells, and dynamic problems.
E0424 Advanced Engineering Mathematics (3/0): Topics include: the method of eigen-function
expansion, The Dirac delta function and its relationship to Green’s, Green’s functions for ordinary
differential equations, and partial differential equations, calculus of variations, the Rayleigh Ritz