BSC IN MECHATRONICS ENGINEERING
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MAT1024 Initial Mathematics
Credits: 7 Prerequisite: No prerequisite
Hours of lecture per week: 4.5 Level : Anahuac
Term: Aug-Dec
This course covers the study of fundamental algebraic and trigonometric concepts to solve
theoretical problems, and the importance of mathematics in engineering as a means for
solving practical problems.
IMAT 1202 Univariable Calculus
Credits: 10 Prerequisite: No prerequisite
Hours of lecture per week: 7.5 Level : Professional
Term: Aug-Dec
The course covers the study of general functions, elementary transcendental functions,
limits and continuity, differentiation, applications of the derivative, curve sketching, and
integration theory, with an emphasis on optimization applications. The most important
principles and theorems of integral calculus used to solve problems of Geometry, Physics
and Engineering will be studied.
BSC IN MECHATRONICS ENGINEERING
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IMEC 1201 Computer-Assisted Design
Credits: 3 Prerequisite: No prerequisite
Hours of lecture per week: 3 Level: Professional
Term: Aug-Dec
CAD-CAM-CAE software will be used in order to create two and three-dimensional
drawings which will stimulate the creativity and develop spatial abilities of the student.
QUI 1202 Chemistry of Materials
Credits: 7 Prerequisite: No prerequisite
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
This course will deal with definitions, laws and basic principles for the interpretation and
description of different chemical processes. The formation of atomic-molecular structures
and the physiochemical properties of elements and compounds will be studied. The
application of chemical methods in solving problems associated with organic and
inorganic chemistry will also be considered be studied.
BSC IN MECHATRONICS ENGINEERING
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MAT 1203 Higher/Advanced Mathematics
Credits: 7 Prerequisite: No prerequisite
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Formal logic, properties and theories of numbers, sets and systems, lineal and polynomial
equations with one variable and the resolution of algebraic problems will be studied and
applied. Mathematics will be seen as a language of communication and expression for
technical-scientific ideas. The importance of the use of math as a tool at the service of
mankind in order to resolve social problems will be analyzed.
SIS 2202 Algorithms and Programming
Credits: 6 Prerequisite: No prerequisite
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
Principles of general programming and strategies to create logic instruction sequences
and algorithms using C++ as a programming language are studied.
BSC IN MECHATRONICS ENGINEERING
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MAT 2232 Linear Algebra
Credits: 9 Prerequisite: No prerequisite
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
In this course, students will learn to solve problems and equation systems by representing
them in matrices and determinants.
FIS 2203 Static
Credits: 9 Prerequisite: No prerequisite
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
The course covers basic topics in static vector mechanics, such as equilibrium of particles
and rigid bodies; analysis of structures and static friction. Elements of vector analysis are
introduced.
MAT 2230 Multivariable Calculus
Credits: 9 Prerequisite: IMAT1202, MAT1024
Hours of lecture per week: 6 Level: Professional
Term: Jan-Jun
Students will practice optimization problems with several variables using calculus
techniques and partial differential equations. The physical meaning of the principal
operations involving differential operators and complex problems by computer is also
included in the course.
BSC IN MECHATRONICS ENGINEERING
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MAT 2219 Probability
Credits: 7 Prerequisite: No prerequisite
Hours of lecture per week: 6 Level: Professional
Term: Jan-Jun
In this course, students will learn the importance of statistic methods in the study of
random variables, basic techniques of descriptive statistics and probabilistic models as
fundamental topics which focus in the perfection of products, systems, manufacturing
processes and technological development. Theoretical terms of probability and statistics
as a tool for quality procedures and technological evolution will also be considered.
FIS 2201 Electrical Circuits
Credits: 9 Prerequisite: Univariable Calculus
Hours of lecture per week: 6 Level: Professional
Term: Aug-Dec
Principles of direct current electricity and their applications to series, parallel, and series-
parallel circuitry including Ohm's Law, Kirchhoff's Laws, mesh and nodal analysis, will
provide students with basic knowledge of the subject in order to understand more
advanced courses.
BSC IN MECHATRONICS ENGINEERING
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MAT 2231 Differential Equations
Credits: 7 Prerequisite: Univariable Calculus
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
In this course basic principles and problems applied to the physics and engineering areas
will be studied by using first and second-order linear differential equations.
FIS 2202 Dynamic
Credits: 9 Prerequisite: Static
Hours of lecture per week: 6 Level: Professional
Term: Aug-Dec
The course covers topics in mechanics, such as motion, Newton's laws, energy
conservation laws, work, energy, systems of particles, and rotational motion. Students will
carry out laboratory experiments which will lead to the logical interpretation of results.
SIS 2215 Object Oriented Language
Credits: 6 Prerequisite: Algorithms and Programming
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
The student will learn to code computer programs using object-oriented techniques.
BSC IN MECHATRONICS ENGINEERING
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QUI 2226 Thermodynamics
Credits: 9 Prerequisite: No prerequisite
Hours of lecture per week: 6 Level: Professional
Term: Jan-Jun
This curse covers the basic thermodynamic principles and concepts to solve engineering
problems and their importance in the industrial area.
IMEC 2201 Materials Engineering
Credits: 6 Prerequisite: Chemistry of Materials
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
This course will undertake the study of metallic, polymeric, ceramic and compound
materials behavior, beginning with their atomic structure and ending with the industrial
processes which give them their final properties as products.
ADM 2219 Management and Leadership
Credits: 6 Prerequisite: No prerequisite
Hours of lecture per week: 3 Level: Professional
Term: Jan-Jun
This course covers several management and leadership strategies within an enterprise,
and control management systems.
BSC IN MECHATRONICS ENGINEERING
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IMEC 2202 Measurement and Instrumentation
Credits: 6 Prerequisite: Electrical circuits, Univariable calculus
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
The course aims to familiarize students with instrumentation and processing techniques
employed to measure and process diverse physical, electrical and chemical phenomena,
with an emphasis on electronic and automated devices.
IELC 2202 Fundamentals of Semiconductors
Credits: 6 Prerequisite: Electrical circuits, Univariable calculus
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
It consists on the study of the operation principles of semiconductors devices like diodes
and transistors, as well as the circuits designed for practical applications that use these
devices.
IMEC 2207 Mechanics of materials
Credits: 6 Prerequisite: Static
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
Concepts such as forces, centers of gravity, friction, moments of inertia, kinematics and
kinetics of the particles are revised so the student will get solid introduction in the area of
knowledge of the mechanics.
BSC IN MECHATRONICS ENGINEERING
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MAT 2217 Numerical Methods
Credits: 7 Prerequisite: Algorithms and Programming
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
This course is based on primary numerical methods for several engineering problems
solutions. Topics include critical and practical applications on algebraic and transcendental
equations, systems of equations, linear curve fitting, numerical differentiation and
integration, and ordinary differential equations.
IMEC 2208 Manufacturing Processes
Credits: 6 Prerequisite: Chemistry of Materials, Materials Engineering
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Basic manufacturing processes with an emphasis on metal formation and machining;
current trends in manufacturing processes including polymer, ceramic and composite
material processing; introduction to numerical control and computer integrated
manufacturing.
BSC IN MECHATRONICS ENGINEERING
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IELC 2204 Digital Circuits
Credits: 6 Prerequisite: Fundamentals of Semiconductors
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Students will use tools that provide them with basic theory of information transmission,
signals representation in terms of impulses, foundations of digital modulation and digital
techniques of design in the evaluation and treatment of digital signal processing systems.
IELC 2201 Analog electronics
Credits: 6 Prerequisite: Fundamentals of Semiconductors
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
The student will design power amplifiers using analogical circuits and electrical filters by
means of the application of the properties of transistorized circuits, the principles of direct
connection of the op amps, and networks with feedback.
IMEC 2205 Mechanisms Design
Credits: 6 Prerequisite: Dynamic
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Kinematic analysis of flat movements, kinematics of levies, forces in mechanisms.
BSC IN MECHATRONICS ENGINEERING
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IMEC 2203 Dynamics of mechatronic systems
Credits: 6 Prerequisite: Differential Equations
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Students learn how to use modeling techniques of linear and non-variable
electromechanical systems and apply them to design and parameter setting for
electromechanical, thermal and hydraulic systems.
IELC 2203 Automation
Credits: 6 Prerequisite: Digital circuits
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
Design of systems for manufacture; maintenance, logistic and automatization of the
operations in the industrial processes by means of the application of different techniques
such as programming.
BSC IN MECHATRONICS ENGINEERING
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IMEC 2210 Control theory
Credits: 9 Prerequisite: Dynamics of mechatronic systems
Hours of lecture per week: 6 Level: Professional
Term: Jan-Jun
Linear and nonlinear systems, representation of loopback systems, roots method,
loopback in the dominion of the frequency, systems feedback and reply.
IELC 2205 Power electronics
Credits: 6 Prerequisite: Fundamentals of Semiconductors
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
Mathematical modeling of electronic circuits considering concepts of the electronic power
circuit, its nature, characteristics, basic principles and classification of its constitutive
elements.
IELC 2209 Embedded systems
Credits: 6 Prerequisite: Fundamentals of Semiconductors
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
Open source technology used in the design of embedded systems in order to lower the
cost of technology development, seeking to make applications accessible to most of
society for the common benefit. Design reliable embedded systems and low power
consumption for optimal performance in selected application.
BSC IN MECHATRONICS ENGINEERING
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IMEC 2206 Computer-aided manufacturing
Credits: 6 Prerequisite: Manufacturing processes
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
The student will use properly design software in manufacturing, to produce the
manufacturing of items with a high degree of dimensional requirements and geometry
and select correct tools so getting the machines that are intended to be programmed in
the CAD design. In this way prove that what is drawn on the computer, it really turns out
to be a solution in the machine.
INT 2292 Mechatronic engineering practicum I
Credits: 9 Prerequisite: 200 credits
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Implementation of undertaking projects based on several aspects, such as proposals and
stability, structure, analysis of a system methodology, development, information research
and publication features for results including their presentation and validation.
BSC IN MECHATRONICS ENGINEERING
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IELC 2206 Electrical machines
Credits: 6 Prerequisite: Fundamentals of Semiconductors
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Operative foundations of the rotational electric machines, model of magnetic circuit,
electric generators, electric motors and transformers.
IELC 2210 Mens systems
Credits: 6 Prerequisite: Fundamentals of Semiconductors
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Understand the fundamentals of microsystems, microsensors and microactuators forming
a microsystem used in aerospace, biomedicine, bioengineering and Microrobotics to
choose the applications that drive the productive sector of our country.
MAT 2237 Integral transforms
Credits: 6 Prerequisite: Multivariable calculus
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Solve ordinary differential equations and systems of differential equations using Laplace
transform and its properties. Apply transformations and analyze its properties for linear
systems. Characterize the relationship of input and output linear systems of differential
equations invariant over time through transfer functions.
BSC IN MECHATRONICS ENGINEERING
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Acquire operational skills in the management of the series and Fourier transforms for
analysis of signals associated with analog or digital systems, and modulation theories work
quietly focused on efficient use of communication systems that result in social benefit.
Acquire skill to solve using the Z transform, discrete state equations that appear in the
analysis of the variables involved in automatic control systems, those who will be at the
service of industry and which would be for a social benefit. Treat the mathematical basis
for studying the stability of linear control systems.
IMEC 2204 Mechanical component design
Credits: 6 Prerequisite: Mechanics of materials
Hours of lecture per week: 4.5 Level: Professional
Term: Aug-Dec
Recognize and use the strength of materials for the application of design criteria for
mechanical components, in search of more reliable and user-friendly products from the
proper selection of materials.
INT 2293 Mechatronic engineering practicum II
Credits: 9 Prerequisite: Mechatronic engineering practicum I
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
Implementation of undertaking projects based on several aspects, such as proposals and
stability, structure, analysis of a system methodology, development, information research
and publication features for results including their presentation and validation.
BSC IN MECHATRONICS ENGINEERING
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IMEC 2209 Industrial robotics
Credits: 6 Prerequisite: Control theory
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
The robot like a mechanism, hard movements and homogenous transformations, direct
and inverse kinematics, dynamic model, control of manipulators, industrial applications.
CMP 2218 Digital signal processes
Credits: 6 Prerequisite: Integral transforms
Hours of lecture per week: 4.5 Level: Professional
Term: Jan-Jun
The student will use the tools of the basic information transmission theory, representation
of signals in pulse terms, fundamentals of digital modulation and digital design techniques
in the assessment of digital signal processing systems.
HUM 2208 Engineering ethics
Credits: 6 Prerequisite: HUM 2202
Hours of lecture per week: 3 Level: Professional
Term: Jan-Jun
Difference between good and bad deeds in order to apply this awareness to their
professional actions. Define the reasons why it is essential to the experience of a code of
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ethics in engineering. Select the best ethical decision in the current problems facing an
engineer in his profession.
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