3000
Credits
0
Distribution
-
Instructor
Guerrero Hurtado Mauricio
Credits
3
Distribution
-
Credits
3
Distribution
-
Credits
3
Distribution
-
Optimization theory is presented as an intermediate mathematical level. Static and dynamic cases, including the basics of optimum control are shown, as well as Linear and nonlinear problems, for continuous variables, with few cases of discrete variables; and in general for deterministic cases. Design activities are proposed, aiming to the presentation of optimization problems, types of design, control and applications in various areas of electrical and electronic engineering.
Credits
3
Distribution
-
Optimization theory is presented as an intermediate mathematical level. Static and dynamic cases, including the basics of optimum control are shown, as well as Linear and nonlinear problems, for continuous variables, with few cases of discrete variables; and in general for deterministic cases. Design activities are proposed, aiming to the presentation of optimization problems, types of design, control and applications in various areas of electrical and electronic engineering.
Credits
0
Distribution
-
Credits
0
The Professional Practice is a learning alternative that complements the academic activities. It is based on the experience that students can have when they are immersed in the context of companies and institutions.
Credits
6
Distribution
-
Credits
3
Distribution
-
The course presents the design bases of the principal components in the infrastructure of a power system: substations and transmission lines. The course is focused on the study of the design techniques of high voltage infrastructure. Hence, the students develop several design exercises.
Credits
3
Distribution
-
The course presents advanced mathematical and computing techniques for the analysis of power systems. The power systems matrix form is presented for the steady state analysis, short circuit analysis and transient phenomena analysis. Also, the techniques of optimal power flow, radial power flow and stochastic power flow are studied. The course presents the general scheme of the frequency and voltage control in power systems.
Credits
3
Distribution
-
This course provides the analysis and design tools for energy conversion systems, based on electronic components and applied to control rotor speed, power sources in switch mode, connection of energy sources to the grid, reactive and harmonic compensation, UPS and FACTS devices, among others. The course pretends that the student applies the concept of power quality to obtain a criterion of power systems electronics applications.
Credits
3
Distribution
-
This course provides the analysis and design tools for energy conversion systems, based on electronic components and applied to control rotor speed, power sources in switch mode, connection of energy sources to the grid, reactive and harmonic compensation, UPS and FACTS devices, among others. The course pretends that the student applies the concept of power quality to obtain a criterion of power systems electronics applications.
Credits
0
The course develops a consultancy engineering project related to industrial power systems. The students develop a power quality study in order to identify the principal problems, causes and effects. The diagnostic is complemented with a detailed design to solve the problems. Finally, the students present the design of the expansion of a substation.
Credits
3
Distribution
-
Throughout this course, concepts and necessary methods to analyze different policies in the energy sector are studied. Main aspects of energy sector are discussed in the new market context, taking into account new regulations and sector configuration, and constraints and environmental objectives. Necessary notions of energy, environmental economy and natural resources are reviewed in order to understand the energetic chain and its interrelations. This course presents methodologies and modeling tools to analyze energetic actions which are both economical and environmental sustainable.,English,-
Credits
3
Distribution
-
Credits
3
Distribution
-
Credits
3
Distribution
-
Credits
3
Distribution
-
Credits
3
Distribution
-
It’s necessary to identify the circuital model of the transistors taking into account the frequency response in order to design and understand single or multistage amplifiers. The course presents the characteristics, stability and feedback effects in amplifier circuits. It’s important to acquire the abilities to design an amplification circuit depending on the application.
Credits
3
Distribution
-
It’s necessary to identify the circuital model of the transistors taking into account the frequency response in order to design and understand single or multistage amplifiers. The course presents the characteristics, stability and feedback effects in amplifier circuits. It’s important to acquire the abilities to design an amplification circuit depending on the application.
Credits
0
Distribution
-
Study of both the analog and digital measurement chain, as well as the study of various electronic devices, specialized in signal conditioning circuits design. Knowledge of circuits and specific devices of each block composing the measurement chain, in order to implement a complete system capable of capture signals from a physical system. Sensors study, signal conditioning circuits and analog-to-digital and digital-to-analog conversion process.,English,-
Credits
3
Distribution
-
Credits
0
Distribution
-
In this course, the students design and implement a project from a certain area, under the guidance of a professor that has the role of Project Director. The course members work on the same topic but in different modules. It’s intended that the student work in team and develop abilities in management of projects.
Credits
3
Distribution
-
Credits
3
Distribution
-
Credits
0
Distribution
-
1) Know the current status and trends of technologies based on processors and microcontrollers.2) Solve problems with hardware solutions, properly characterizing the solution and taking into account synthesis constraints3) Identify the constituent elements of a processor-based system.4) Solve problems based on sequential algorithms using basic constituent elements of a processor by means of algorithmic state machines.
Credits
3
Distribution
-
1) Know the current status and trends of technologies based on processors and microcontrollers.2) Solve problems with hardware solutions, properly characterizing the solution and taking into account synthesis constraints3) Identify the constituent elements of a processor-based system.4) Solve problems based on sequential algorithms using basic constituent elements of a processor by means of algorithmic state machines.
Credits
0
Distribution
-
In this course, the students design and implement a control system, under the guidance of an advisor. In addition to learning and applying different concepts in control systems theory, the students are encouraged to counduct team work and develop abilities in project management .
Credits
3
Distribution
-
The quick evolution of the computer engineer, communications and technology of sensors have leaded to the proliferation of new industrial automation systems in production, manufacture, traffic control systems, distributed control systems, and others applications. This activity in this system runs by operative sequences designed by humans. This course focus in forming capable engineers for conceptualize and design devices, machines and systems for industrial automation.
Credits
3
Distribution
-
The quick evolution of the computer engineer, communications and technology of sensors have leaded to the proliferation of new industrial automation systems in production, manufacture, traffic control systems, distributed control systems, and others applications. This activity in this system runs by operative sequences designed by humans. This course focus in forming capable engineers for conceptualize and design devices, machines and systems for industrial automation.
Credits
0
Credits
3
Distribution
-
Credits
0
Distribution
-
Credits
3
Distribution
-
Credits
3
Distribution
-
Credits
3
Distribution
-
The workshop introduces modern tools for the holistic design of telecommunication projects, filling the requirements of this sector. The course allows the student to develop competences in identifying, formulating, analyzing and solving engineering problems.
Credits
3
Distribution
-
The course’s objectives are: i- Capturing the attention of the participants through the proper information relative possible uses of new information and communication technologies, aimed at improving health care assistance and coverage of health care services. ii- Setting the methodological bases to study relevant, useful and efficient telemedicine applications. iii- Analyzing the most interesting experiences worldwide and others being efficiently developed in this area. iv- Understanding implementation possibilities and limitations. It addresses topics such as: Telemedicine general aspects, existing telemedicine technologies , Communications Technologies, representative experiences, evaluation of quality technique, Financial, profitability and sustainability assessment, Protocols and regulations, Legal Aspects, Health Systems and TIC, Hospital information systems and information networks.
Credits
3
Instructor
Salazar Antonio