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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.

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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. Este es el primer curso de una serie de tres , que nos introduce al mundo de los circuitos eléctricos empezando con los conceptos de corriente, voltaje y potencia, siguiendo con la presentación de SPICE como una valiosa herramienta para simular y analizar circuitos. Además, aprenderemos las leyes fundamentales que nos serán muy importantes para introducirnos después al analizar de circuitos eléctricos.

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What's inside

Syllabus

Electricidad
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.
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SPICE y algunos componentes circuitales comunes
Leyes Circuitales
Resistencia equivalente y divisores de voltaje y corriente

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Examines core concepts of electricity, essential for understanding circuit operation
Introduces SPICE, a powerful circuit analysis tool
Provides foundational knowledge in circuit analysis
Introduces fundamental concepts of current, voltage, and power
Content is tailored towards beginners entering the field of electrical circuits

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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: Fundamentos de los circuitos eléctricos with these activities:
Review Electricidad and Circuits
Strengthen your understanding of the fundamental concepts of electricity and circuits, which will enhance your comprehension of course materials.
Show steps
  • Read chapters 1 and 2 of the textbook, focusing on the concepts of electric charge, voltage, current, and resistance.
  • Watch videos or online lectures on basic electricity and circuits to reinforce your understanding.
  • Solve practice problems related to Ohm's law and circuit analysis to test your knowledge.
Participate in Circuit Analysis Discussion Forums
Engage with peers, share insights, and clarify concepts through discussions on circuit analysis topics, fostering a collaborative learning experience.
Show steps
  • Identify online forums or discussion groups dedicated to circuit analysis.
  • Join the discussions and actively participate by asking questions, sharing knowledge, and responding to others.
  • Engage with peers who have different perspectives and experiences to broaden your understanding.
Attend a Circuit Analysis Workshop
Immerse yourself in a structured learning environment and interact with experts to enhance your circuit analysis skills.
Show steps
  • Identify and register for a circuit analysis workshop offered by universities or industry organizations.
  • Attend the workshop and actively participate in lectures, hands-on exercises, and discussions.
  • Engage with the workshop instructors and other participants to exchange ideas and learn from their experiences.
Four other activities
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Practice Circuit Analysis Problems
Develop your problem-solving skills by working through various circuit analysis exercises.
Show steps
  • Find online resources or textbooks with practice problems on circuit analysis.
  • Start with simpler problems to build confidence and gradually progress to more complex ones.
  • Check your answers against provided solutions or consult with the course instructor for guidance.
Design a Simple Circuit
Apply your knowledge by designing a simple circuit and simulating its behavior using SPICE, enhancing your understanding of circuit functionality and characteristics.
Browse courses on Circuit Design
Show steps
  • Choose a simple circuit design, such as a voltage divider or an amplifier.
  • Use SPICE software to create a simulation model of your circuit.
  • Run simulations to analyze the circuit's behavior under different conditions.
  • Compare your simulation results with theoretical calculations and make adjustments as necessary.
Explore Advanced Circuit Analysis Techniques
Expand your understanding of circuit analysis techniques beyond the basics by exploring advanced methods, enhancing your problem-solving abilities.
Browse courses on Laplace Transform
Show steps
  • Identify a specific advanced circuit analysis technique, such as the Laplace transform or Fourier transform.
  • Find online tutorials or courses that provide an introduction to the technique.
  • Follow the tutorials, practice applying the technique to circuit analysis problems.
Build a Circuit Analysis Tool
Solidify your understanding of circuit analysis by developing a software tool that automates calculations and provides insights, empowering you as a circuit designer.
Browse courses on MATLAB
Show steps
  • Choose a programming language and development environment suitable for circuit analysis.
  • Design the architecture and functionality of your tool, including input, output, and analysis algorithms.
  • Implement the tool and test it thoroughly on a variety of circuit analysis problems.
  • Optionally, share your tool with the community or publish it as open-source for wider use.

Career center

Learners who complete Circuitos con SPICE: Fundamentos de los circuitos eléctricos will develop knowledge and skills that may be useful to these careers:
Power Systems Engineer
Power Systems Engineers design, develop, and maintain power systems, including power plants, transmission lines, and distribution networks. They work in a variety of industries, including utilities, manufacturing, and government. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Power Systems Engineers to understand how power systems work. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Power Systems Engineers design and troubleshoot power systems more efficiently.
Computer Hardware Engineer
Computer Hardware Engineers design, develop, and test computer hardware, including processors, memory, and storage devices. They work in a variety of industries, including computer manufacturing, electronics, and telecommunications. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Computer Hardware Engineers to understand how computer hardware works. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Computer Hardware Engineers design and troubleshoot hardware more efficiently.
Control Systems Engineer
Control Systems Engineers design, develop, and maintain control systems, including feedback control systems, process control systems, and automation systems. They work in a variety of industries, including manufacturing, aerospace, and defense. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Control Systems Engineers to understand how control systems work. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Control Systems Engineers design and troubleshoot control systems more efficiently.
Electrical Engineer
Electrical Engineers design, develop, test, and supervise the installation of electrical systems and components. They work in a variety of industries, including manufacturing, construction, and utilities. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Electrical Engineers to understand how electrical systems work. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Electrical Engineers design and troubleshoot circuits more efficiently.
Robotics Engineer
Robotics Engineers design, develop, and test robots and robotic systems. They work in a variety of industries, including manufacturing, healthcare, and defense. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Robotics Engineers to understand how robots and robotic systems work. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Robotics Engineers design and troubleshoot robots and robotic systems more efficiently.
Telecommunications Engineer
Telecommunications Engineers design, develop, and maintain telecommunications systems, including telephone networks, cable networks, and satellite systems. They work in a variety of industries, including telecommunications, manufacturing, and government. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Telecommunications Engineers to understand how telecommunications systems work. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Telecommunications Engineers design and troubleshoot telecommunications systems more efficiently.
Electronic Engineer
Electronic Engineers design, develop, test, and manufacture electronic devices and systems. They work in a variety of industries, including consumer electronics, medical devices, and telecommunications. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Electronic Engineers to understand how electronic devices and systems work. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Electronic Engineers design and troubleshoot circuits more efficiently.
Test Engineer
Test Engineers develop and conduct tests to ensure that products meet specifications. They work in a variety of industries, including manufacturing, electronics, and healthcare. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Test Engineers to understand how products work and how to test them. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Test Engineers develop and conduct tests more efficiently.
Research Scientist
Research Scientists conduct research to advance scientific knowledge and develop new technologies. They work in a variety of fields, including physics, chemistry, and biology. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Research Scientists to understand how to design and conduct experiments. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Research Scientists develop new technologies more efficiently.
Professor
Professors teach and conduct research at colleges and universities. They work in a variety of fields, including engineering, science, and business. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Professors to understand how to teach electrical engineering and conduct research in the field. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Professors develop new teaching materials and conduct research more efficiently.
Technical Writer
Technical Writers create and edit technical documentation, such as manuals, reports, and presentations. They work in a variety of industries, including manufacturing, software development, and healthcare. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Technical Writers to understand how to write about technical topics. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Technical Writers create more accurate and informative documentation.
Patent Attorney
Patent Attorneys help inventors obtain patents for their inventions. They work in a variety of industries, including law, engineering, and science. This course provides a strong foundation in the fundamentals of electrical circuits, which is essential for Patent Attorneys to understand how to evaluate and protect inventions. The course also covers SPICE, a valuable tool for simulating and analyzing electrical circuits, which can help Patent Attorneys create more effective patent applications.
Financial Analyst
Financial Analysts evaluate investments and make recommendations to clients. They work in a variety of industries, including finance, banking, and insurance. This course may be useful for Financial Analysts to understand how to evaluate companies that develop and manufacture electrical products.
Sales Engineer
Sales Engineers sell technical products and services. They work in a variety of industries, including manufacturing, software development, and healthcare. This course may be useful for Sales Engineers to understand how to sell electrical products and services.
Management Consultant
Management Consultants help businesses improve their performance. They work in a variety of industries, including manufacturing, healthcare, and government. This course may be useful for Management Consultants to understand how to evaluate companies that develop and manufacture electrical products.

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: Fundamentos de los circuitos eléctricos.
Este libro proporciona una introducción completa a los principios de la electricidad y el magnetismo. Es un buen recurso para aprender sobre los fundamentos teóricos de los circuitos eléctricos.
Este libro de texto clásico cubre una amplia gama de temas de circuitos eléctricos y es una buena referencia para estudiantes y profesionales.
Este libro de texto proporciona una introducción accesible a los conceptos básicos de circuitos eléctricos.
Este libro de texto proporciona una introducción completa a la ingeniería eléctrica y es una buena referencia para estudiantes y profesionales.
Este libro proporciona una introducción al análisis y diseño de circuitos microelectrónicos. Es un buen recurso para aprender sobre los conceptos y técnicas utilizados en el diseño de circuitos integrados.
Este libro proporciona una introducción a PSpice y cómo usarlo para simular circuitos eléctricos. Es un buen recurso para aprender sobre las capacidades de PSpice y cómo utilizarlo para el análisis de circuitos.
Este libro proporciona una introducción a los dispositivos y circuitos electrónicos. Es un buen recurso para aprender sobre los fundamentos de los dispositivos electrónicos y cómo se utilizan para construir circuitos.
Este libro es una guía de estudio para circuitos eléctricos y proporciona una buena revisión de los conceptos básicos. Es un buen recurso para repasar los conceptos cubiertos en el curso.
Este libro es un texto introductorio sobre circuitos eléctricos y proporciona una buena base para el estudio de circuitos más complejos.

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