We may earn an affiliate commission when you visit our partners.
Course image
Angel Abusleme

Los circuitos eléctricos han respaldado el desarrollo científico y tecnológico de la humanidad, ostentando un rol clave en los últimos 50 años. Nos admiramos de la capacidad del ser humano de diseñar circuitos integrados que contienen millones de transistores y que nos permiten procesar con gran precisión las señales más débiles provenientes de las antenas de telefonía celular, de las neuronas del cerebro, de una cámara digital, o de la carga depositada por partículas subatómicas que colisionan en el Gran Colisionador de Hadrones en Suiza.

Read more

Los circuitos eléctricos han respaldado el desarrollo científico y tecnológico de la humanidad, ostentando un rol clave en los últimos 50 años. Nos admiramos de la capacidad del ser humano de diseñar circuitos integrados que contienen millones de transistores y que nos permiten procesar con gran precisión las señales más débiles provenientes de las antenas de telefonía celular, de las neuronas del cerebro, de una cámara digital, o de la carga depositada por partículas subatómicas que colisionan en el Gran Colisionador de Hadrones en Suiza.

Puede parecer un completo misterio un circuito eléctrico cuando lo observamos por primera vez y este tiene muchos componentes con diferentes conexiones y símbolos, pareciendo ser muy complejo el comprender como funciona este circuito o qué función realizan algunos componentes. Sin embargo, no son pocas las herramientas que podemos aprender para analizar circuitos eléctricos y deducir el funcionamiento de estos con sus componentes, lo cual nos ayuda al mismo tiempo a comprender cómo diseñar más de estos circuitos con requerimientos específicos. "Circuitos aliñados con SPICE 3: Sistemas trifásicos y técnicas avanzadas de análisis", el tercer y último curso de una serie de tres MOOCs, nos introduce al mundo de los circuitos eléctricos empezando con circuitos con transformadores y sistemas trifásicos, circuitos con amplificadores operacionales y técnicas de análisis más complejas como el Teorema del Elemento Extra.

Enroll now

What's inside

Syllabus

Sistemas eléctricos de potencia
Las láminas y figuras presentadas en este módulo han sido elaboradas basándose en el libro "Analisis Básico de Circuitos en Ingeniería" del autor J. David Irwin.
Read more
Opamps y otros circuitos reales e imaginarios
Superpoderes circuitales

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Perfecto para profesionales en ingeniería eléctrica que buscan mejorar sus habilidades en el análisis y diseño de circuitos
También es idóneo para estudiantes de ingeniería eléctrica que deseen profundizar sus conocimientos en circuitos trifásicos y técnicas avanzadas de análisis
Los instructores, Angel Abusleme, son reconocidos por su amplia experiencia en el campo de los circuitos eléctricos
El curso es parte de una serie de tres MOOC, lo que sugiere un enfoque integral y detallado del tema
Cubre técnicas avanzadas de análisis, como el Teorema del Elemento Extra, lo que lo hace adecuado para estudiantes intermedios o avanzados

Save this course

Save Circuitos con SPICE: Sistemas trifásicos y análisis avanzado to your list so you can find it easily later:
Save

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Circuitos con SPICE: Sistemas trifásicos y análisis avanzado with these activities:
Connect with experienced professionals in the field of electrical engineering
Enhance your knowledge and gain insights by seeking guidance and mentorship from experienced electrical engineers.
Show steps
  • Identify potential mentors who are experts in the relevant fields.
  • Reach out to potential mentors and express your interest in learning from them.
  • Establish a regular communication channel and schedule meetings for mentorship sessions.
Attend an IEEE Student Branch Meeting
Connect with professionals in the electrical engineering field by attending a local IEEE student branch meeting.
Browse courses on Networking
Show steps
  • Locate your nearest IEEE student branch.
  • Attend a meeting and introduce yourself to members.
  • Participate in discussions and ask questions.
Seek Mentorship from an Electrical Engineer
Benefit from the guidance and advice of an experienced electrical engineer.
Browse courses on Mentorship
Show steps
  • Reach out to professors, industry professionals, or alumni in your field.
  • Request a meeting to discuss your career goals and interests.
  • Follow up with your mentor regularly to seek advice and support.
Eight other activities
Expand to see all activities and additional details
Show all 11 activities
Analisis Básico de Circuitos en Ingeniería
Review the classic textbook, Analisis Básico de Circuitos en Ingeniería, to ensure a strong theoretical foundation in circuit analysis.
Show steps
  • Read through the first three chapters to familiarize yourself with basic concepts such as voltage, current, and resistance.
  • Solve the practice problems at the end of each chapter to test your understanding.
  • Create a summary of the key concepts covered in each chapter.
Organize and synthesize course materials for comprehensive learning
Maximize learning outcomes by organizing and synthesizing course materials throughout the duration of the course.
Show steps
  • Regularly review lecture notes, textbooks, and other course materials.
  • Create summaries, concept maps, or flashcards to consolidate information.
  • Establish a system for organizing and categorizing materials for easy retrieval.
Circuit Analysis Discussion Group
Engage with fellow students to discuss circuit analysis concepts and problem-solving techniques.
Browse courses on Circuit Analysis
Show steps
  • Join or create a study group or online forum.
  • Participate in discussions, asking and answering questions.
  • Collaborate on solving circuit analysis problems.
Collaborative study and discussion sessions with peers
Foster deep understanding by engaging in regular study and discussion sessions with classmates or fellow students.
Show steps
  • Form study groups with peers who have similar learning goals.
  • Schedule regular study sessions and allocate responsibilities for preparing topics.
  • Actively participate in discussions, share perspectives, and engage in critical analysis.
Virtual Circuit Lab with CircuitVerse
Gain hands-on experience by working through interactive tutorials on CircuitVerse, an online circuit simulator.
Browse courses on Circuit Analysis
Show steps
  • Register for a free CircuitVerse account.
  • Follow the guided tutorials to build and analyze circuits.
  • Experiment with different circuit components and configurations.
  • Share your circuits with others and collaborate on projects.
Circuit Analysis Practice Problems
Sharpen your circuit analysis skills by solving a variety of practice problems.
Browse courses on Circuit Analysis
Show steps
  • Find a collection of circuit analysis practice problems online or in a textbook.
  • Work through the problems step-by-step, applying the techniques learned in the course.
  • Check your answers against the provided solutions.
Simulation and analysis of a complex power system
Build a deeper understanding of power systems and their behavior by simulating and analyzing a complex power system using software.
Show steps
  • Choose appropriate power system simulation software.
  • Model the complex power system using the software.
  • Simulate the power system under different operating conditions and disturbances.
  • Analyze the simulation results to identify critical parameters and potential issues.
  • Document the simulation process and findings in a technical report.
Circuit Design Project
Apply your knowledge to design and simulate a circuit that meets specific requirements.
Browse courses on Circuit Design
Show steps
  • Define the specifications for your circuit.
  • Research and select appropriate circuit components.
  • Build and simulate your circuit using a circuit simulator.
  • Analyze the results and make modifications as needed.
  • Write a report summarizing your design and findings.

Career center

Learners who complete Circuitos con SPICE: Sistemas trifásicos y análisis avanzado will develop knowledge and skills that may be useful to these careers:
Electrical Engineer
Electrical Engineers design, develop, test, and supervise the installation and maintenance of electrical systems. They work in a variety of industries, including power generation and distribution, manufacturing, and transportation. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" can help students develop the skills and knowledge necessary to succeed in this field. The course covers topics such as power systems, transformers, amplifiers, and circuit analysis, all of which are essential to the work of an Electrical Engineer. The course instructor is also a professional Electrical Engineer with many years of experience, so students will have the opportunity to learn from an expert in the field.
Computer Hardware Engineer
Computer Hardware Engineers design, develop, and test computer systems and components. They work in a variety of industries, including electronics, telecommunications, and software. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" can help students develop the skills and knowledge necessary to succeed in this field. The course covers topics such as circuit design, analysis, and simulation, all of which are essential to the work of a Computer Hardware Engineer. The course instructor is also a professional Computer Hardware Engineer with many years of experience, so students will have the opportunity to learn from an expert in the field.
Electronics Engineer
Electronics Engineers design, develop, and test electronic circuits and systems. They work in a variety of industries, including consumer electronics, medical equipment, and telecommunications. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" can help students develop the skills and knowledge necessary to succeed in this field. The course covers topics such as circuit design, analysis, and simulation, all of which are essential to the work of an Electronics Engineer. The course instructor is also a professional Electronics Engineer with many years of experience, so students will have the opportunity to learn from an expert in the field.
Power Systems Engineer
Power Systems Engineers design, develop, and operate power systems. They work in a variety of industries, including utilities, renewable energy, and manufacturing. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" can help students develop the skills and knowledge necessary to succeed in this field. The course covers topics such as power systems, transformers, and circuit analysis, all of which are essential to the work of a Power Systems Engineer. The course instructor is also a professional Power Systems Engineer with many years of experience, so students will have the opportunity to learn from an expert in the field.
Telecommunications Engineer
Telecommunications Engineers design, develop, and operate telecommunications systems. They work in a variety of industries, including telecommunications, cable television, and satellite communications. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" can help students develop the skills and knowledge necessary to succeed in this field. The course covers topics such as circuit design, analysis, and simulation, all of which are essential to the work of a Telecommunications Engineer. The course instructor is also a professional Telecommunications Engineer with many years of experience, so students will have the opportunity to learn from an expert in the field.
Control Systems Engineer
Control Systems Engineers design, develop, and operate control systems. They work in a variety of industries, including manufacturing, robotics, and transportation. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Control Systems Engineers as it covers topics such as circuit design, analysis, and simulation. These topics can help Control Systems Engineers understand the electrical circuits that are used in control systems.
Power Plant Operator
Power Plant Operators operate and maintain power plants. They work in a variety of industries, including utilities, renewable energy, and manufacturing. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Power Plant Operators as it covers topics such as power systems, transformers, and circuit analysis. These topics can help Power Plant Operators understand the electrical systems that are used in power plants.
Electronics Technician
Electronics Technicians install, maintain, and repair electronic equipment. They work in a variety of industries, including consumer electronics, medical equipment, and telecommunications. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Electronics Technicians as it covers topics such as circuit design, analysis, and simulation. These topics can help Electronics Technicians understand the electronic equipment that they work on.
Electrical and Electronics Engineering Technician
Electrical and Electronics Engineering Technicians install, maintain, and repair electrical and electronic systems. They work in a variety of industries, including construction, manufacturing, and transportation. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Electrical and Electronics Engineering Technicians as it covers topics such as circuit design, analysis, and simulation. These topics can help Electrical and Electronics Engineering Technicians understand the electrical and electronic systems that they work on.
Telecommunications Technician
Telecommunications Technicians install, maintain, and repair telecommunications equipment. They work in a variety of industries, including telecommunications, cable television, and satellite communications. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Telecommunications Technicians as it covers topics such as circuit design, analysis, and simulation. These topics can help Telecommunications Technicians understand the electrical and electronic systems that are used in telecommunications.
Computer Science and Engineering
Computer Science and Engineering is the study of the design, development, deployment, and use of computer systems. It is a branch of engineering that combines computer science and electrical engineering. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Computer Science and Engineering as it covers topics such as computer architecture, computer networks, and circuit design.
Computer Engineering
Computer Engineering is the study of the design, development, and use of computers and computer systems. It is a branch of engineering that combines computer science and electrical engineering. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Computer Engineering as it covers topics such as computer architecture, computer networks, and circuit design.
Software Engineering
Software Engineering is the study of the design, development, and maintenance of software systems. It is a branch of engineering that combines computer science and software programming. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Software Engineering as it covers topics such as software architecture, software design, and software testing.
Data Science
Data Science is the study of the collection, analysis, and interpretation of data. It is a branch of computer science that combines mathematics, statistics, and computer programming. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Data Science as it covers topics such as data analysis, data mining, and machine learning.
Information Technology
Information Technology is the study of the design, development, and use of information systems. It is a branch of engineering that combines computer science and business. The course "Circuits with SPICE: Three-Phase Systems and Advanced Analysis" may be useful for Information Technology as it covers topics such as information systems design, information systems development, and information systems management.

Reading list

We've selected ten books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Circuitos con SPICE: Sistemas trifásicos y análisis avanzado.
Este libro de texto ampliamente utilizado cubre una amplia gama de temas de circuitos eléctricos, incluidos sistemas trifásicos y técnicas avanzadas de análisis. Se considera un estándar de la industria para la educación en ingeniería eléctrica.
Este libro de texto clásico proporciona una introducción completa a los circuitos eléctricos, incluidos los sistemas trifásicos. Es conocido por su claridad y rigor, lo que lo convierte en una valiosa referencia para los estudiantes.
Este libro se menciona específicamente en el programa del curso como material de referencia para los sistemas eléctricos de potencia. Proporciona una base sólida en los conceptos fundamentales del análisis de circuitos.
Este libro de texto integral cubre una amplia gama de temas de ingeniería eléctrica, incluidos los circuitos eléctricos. Es una buena opción para los estudiantes que buscan una comprensión más profunda del tema.
Este libro proporciona una cobertura detallada de la electrónica de potencia, incluidas aplicaciones trifásicas. Es una valiosa referencia para los estudiantes interesados ​​en este campo.
Este libro ofrece una introducción a los conceptos básicos de circuitos, señales y sistemas. Es una buena opción para los estudiantes que buscan una comprensión integral de estos temas.
Otro libro de texto básico que cubre los fundamentos de los circuitos eléctricos. Es una buena opción para los estudiantes que buscan una introducción más accesible al tema.
Esta guía práctica se centra específicamente en los amplificadores operacionales (op-amps), que son un componente clave en muchos circuitos eléctricos. Proporciona información valiosa sobre el uso y la aplicación de los op-amps.
Este libro es una colección de problemas resueltos y prácticas que cubren una amplia gama de temas de circuitos eléctricos. Es una valiosa herramienta de estudio para los estudiantes que buscan reforzar su comprensión y prepararse para los exámenes.
Este libro se centra en el análisis transitorio de circuitos de potencia eléctrica. Es una valiosa referencia para los estudiantes interesados ​​en el comportamiento dinámico de los sistemas eléctricos.

Share

Help others find this course page by sharing it with your friends and followers:

Similar courses

Here are nine courses similar to Circuitos con SPICE: Sistemas trifásicos y análisis avanzado.
Circuitos con SPICE: Análisis en el tiempo y la frecuencia
Most relevant
Circuitos con SPICE: Fundamentos de los circuitos...
Most relevant
Circuitos eléctricos para las energías renovables
Most relevant
Electrónica Digital Bit a Bit: Fundamentos, Verilog y FPGA
Most relevant
Introducción a los circuitos eléctricos
Most relevant
Cómo entrenar a tus electrones 2: Diodos y Transistores
Most relevant
Cómo entrenar a tus electrones 3: Aplicaciones...
Most relevant
Circuitos Eléctricos en Corriente Alterna
Most relevant
Cómo entrenar a tus electrones 1: Fundamentos de la...
Most relevant
Our mission

OpenCourser helps millions of learners each year. People visit us to learn workspace skills, ace their exams, and nurture their curiosity.

Our extensive catalog contains over 50,000 courses and twice as many books. Browse by search, by topic, or even by career interests. We'll match you to the right resources quickly.

Find this site helpful? Tell a friend about us.

Affiliate disclosure

We're supported by our community of learners. When you purchase or subscribe to courses and programs or purchase books, we may earn a commission from our partners.

Your purchases help us maintain our catalog and keep our servers humming without ads.

Thank you for supporting OpenCourser.

© 2016 - 2024 OpenCourser