Cómo entrenar a tus electrones 3: Aplicaciones interesantes from Coursera

La electrónica ha 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.

Es difícil entender un circuito electrónico, y aún más difícil diseñarlo. Pero no es imposible. Los electrones pueden ser muy dóciles si sabemos dominarlos. "Cómo entrenar a tus electrones 3: Aplicaciones interesantes", el último curso de una serie de tres MOOCs, introduce los dispositivos semiconductores discretos más utilizados en la actualidad en aplicaciones analógicas, los transistores bipolares, y finaliza con aplicaciones interesantes tales como los osciladores. Las videolecciones acompañadas de pequeños cuestionarios te ayudarán a reforzar tu aprendizaje en cuanto a la comprensión del funcionamiento de los semiconductores, los circuitos principales para amplificar, y las técnicas de análisis más utilizadas.

What's inside

Syllabus

El transistor bipolar: Estructura y funcionamiento

En este módulo aprenderás acerca de la estructura física de los BJTs, sus regiones de operación y sus modelos matemáticos. Láminas disponibles aquí: https://drive.google.com/file/d/1Kv1RY0SkBwqFWxSViE3uzeVbqFPd-Kpe/view

El transistor bipolar: Circuitos

En este módulo conocerás las principales configuraciones de amplificadores con BJTs, incluyendo amplificadores elementales y amplificadores de varios transistores. Finalmente conocerás las limitaciones de los BJTs reales. Láminas disponibles aquí: https://drive.google.com/file/d/1Kv1RY0SkBwqFWxSViE3uzeVbqFPd-Kpe/view

Otros dispositivos y aplicaciones

En este módulo aprenderás acerca de los osciladores sintonizados y cómo aplicar el criterio de oscilación de Barkhausen para analizar su operación. Láminas disponibles aquí: https://drive.google.com/file/d/1KqEMWXQGCxTxa4kEmW2uWwcHpK9hCEju/view

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Trata los dispositivos semiconductores discretos más utilizados en la actualidad en aplicaciones analógicas, los transistores bipolares

El curso forma parte de una serie de tres MOOCs, lo que indica su enfoque modular

Se centra en el funcionamiento de los semiconductores, los circuitos principales para amplificar y las técnicas de análisis más utilizadas

Cuenta con láminas de apoyo para cada módulo

Requiere un conocimiento previo en el tema

Reviews summary

Fun electronics course for beginners

This course is a great introduction to electronics for beginners. The professor is knowledgeable and engaging, and the material is presented in a clear and concise manner. Students report that they enjoyed the course and learned a lot.

Learn new things even if you already know about the topic.

"se aprender nuevas cosas así ya se sepa del tema"

Class is fun and enjoyable.

"la clase es amena"

Material is presented in a clear and concise manner.

Professor is knowledgeable and engaging.

"El profesor es muy bueno"

Could be more specific in results.

"falta ser mas especifico en los resultados"

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 Cómo entrenar a tus electrones 3: Aplicaciones interesantes with these activities:

Find a Mentor Who Can Provide Guidance on Electronics Projects

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This will provide you with access to valuable advice and support from an experienced professional.

Browse courses on Electronics

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Identify an experienced professional in the field of electronics who you would like to mentor you.
Reach out to the professional and ask if they would be willing to mentor you.

Re-watch the slides for this module

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This will help you reacquaint yourself with the concepts covered in the video lectures.

Browse courses on Transistors

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Visit the course website and access the slides.
Review the slides and make notes of any concepts you don't fully understand.

Solve Practice Problems on Transistor Circuits

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This will help you improve your problem-solving skills in transistor circuits.

Browse courses on Amplifiers

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Find a collection of practice problems on transistor circuits, such as those found in a textbook or online.
Solve the practice problems and check your answers.

Six other activities

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Show all nine activities

Watch a Few YouTube Videos on the Graphical Method for the Stability Analysis of Feedback Control Systems

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This will help you develop a deeper understanding of the graphical method for stability analysis.

Browse courses on Stability analysis

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Search for YouTube videos on the graphical method for stability analysis of feedback control systems.
Watch a few videos and take notes on the key concepts.

Attend a Workshop on Electronic Circuit Design

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This will provide you with hands-on experience in designing and building electronic circuits.

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Find a workshop on electronic circuit design that is offered in your area.
Register for the workshop and attend all sessions.

Attend a Conference or Meetup on Electronics

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This will allow you to connect with other people who are interested in electronics and learn about the latest trends in the field.

Browse courses on Electronics

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Find a conference or meetup on electronics that is scheduled in your area.
Register for the event and attend the sessions.
Network with other attendees and learn about their work.

Design an Amplifier Circuit

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This will help you apply the concepts you've learned in the course to a practical problem.

Browse courses on Amplifiers

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Choose a specific type of amplifier circuit to design, such as an inverting amplifier or a non-inverting amplifier.
Determine the desired specifications for the amplifier, such as gain, bandwidth, and input/output impedance.
Select appropriate transistors and other components for the circuit.
Design the circuit using circuit analysis techniques.
Simulate the circuit using a circuit simulator to verify its performance.

Contribute to an Open-Source Electronics Project

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This will help you gain experience in working on real-world electronics projects.

Browse courses on Open Source

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Find an open-source electronics project that you are interested in.
Join the project's community and learn about the project's goals and needs.
Identify a way that you can contribute to the project, such as writing code, designing hardware, or testing the project.
Make your contributions to the project.

Mentor a Younger Student who is Learning About Electronics

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This will help you solidify your understanding of the concepts you've learned in the course and help others learn.

Browse courses on Electronics

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Find a younger student who is interested in learning about electronics.
Offer to mentor the student and help them learn about the basics of electronics.
Meet with the student regularly and discuss their progress.

Career center

Learners who complete Cómo entrenar a tus electrones 3: Aplicaciones interesantes will develop knowledge and skills that may be useful to these careers:

Analog Circuit Designer

Analog Circuit Designers develop, test and monitor electronic circuits. As an Analog Circuit Designer, you would design and develop circuits using electronic components to perform specific functions. This course would help you build a foundation in the theory behind analog circuits. Upon successful completion of this course, you will be able to design electronic circuits to meet specific performance requirements.

See salaries and explore the career path for Analog Circuit Designer

RF Engineer

RF Engineers analyze, design, and test radio frequency (RF) components and systems. As an RF Engineer, you would design and develop RF circuits, which are used in a variety of applications such as telecommunications, radar, and satellite communications. This course would help you build a foundation in the theory behind RF circuits. Upon successful completion of this course, you will be able to apply your new skills and knowledge to the design of RF circuits.

See salaries and explore the career path for RF Engineer

Electronic Design Engineer

Electronic Design Engineers design and develop electronic circuits and systems. As an Electronic Design Engineer, you would use your knowledge of electronics to design and develop new products, such as computers, smartphones, and medical devices. This course would help you build a foundation in the theory behind electronic circuits. Upon successful completion of this course, you will be able to design and develop electronic circuits to meet specific performance requirements.

See salaries and explore the career path for Electronic Design Engineer

Electronic Engineering Technician

Electronic Engineering Technicians assist Electronic Engineers in the design, development, and testing of electronic circuits and systems. As an Electronic Engineering Technician, you would use your knowledge of electronics to build and test prototypes, and to troubleshoot and repair electronic equipment. This course would help you build a foundation in the theory behind electronic circuits. Upon successful completion of this course, you will be able to apply your new skills and knowledge to the design, development, and testing of electronic circuits and systems.

See salaries and explore the career path for Electronic Engineering Technician

Applications Engineer

Applications Engineers provide technical support to customers who are using electronic products. As an Applications Engineer, you would help customers to select the right electronic products for their needs, and to integrate those products into their systems. This course would help you build a foundation in the theory behind electronic circuits. Upon successful completion of this course, you will be able to provide technical support to customers who are using electronic products.

See salaries and explore the career path for Applications Engineer

Test Engineer

Test Engineers develop and execute tests to ensure that electronic products meet the required specifications. As a Test Engineer, you would design and develop test plans, and execute those plans to test the functionality of electronic products. This course would help you build a foundation in the theory behind electronic circuits. Upon successful completion of this course, you will be able to design and execute tests to ensure that electronic products meet the required specifications.

See salaries and explore the career path for Test Engineer

Product Manager

Product Managers are responsible for the development and launch of new products. As a Product Manager, you would work with engineers, designers, and marketing professionals to bring new products to market. This course may be useful as it would help you to understand the technical aspects of the products that you are managing.

See salaries and explore the career path for Product Manager

Technical Writer

Technical Writers create documentation for electronic products. As a Technical Writer, you would write user manuals, technical specifications, and other documentation to help customers to use and maintain electronic products. This course may be useful as it would help you to understand the technical aspects of the products that you are documenting.

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Sales Engineer

Sales Engineers sell electronic products to customers. As a Sales Engineer, you would work with customers to identify their needs and to recommend the right electronic products. This course may be useful as it would help you to understand the technical aspects of the products that you are selling.

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Quality Assurance Engineer

Quality Assurance Engineers ensure that electronic products meet the required quality standards. As a Quality Assurance Engineer, you would develop and execute tests to ensure that electronic products meet the required specifications. This course may be useful as it would help you to understand the technical aspects of the products that you are testing.

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Manufacturing Engineer

Manufacturing Engineers develop and implement processes for the manufacture of electronic products. As a Manufacturing Engineer, you would work with engineers, technicians, and other professionals to develop and implement processes for the manufacture of electronic products. This course may be useful as it would help you to understand the technical aspects of the products that you are manufacturing.

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Project Manager

Project Managers are responsible for the planning, execution, and completion of projects. As a Project Manager, you would work with engineers, designers, and other professionals to plan and execute projects. This course may be useful as it would help you to understand the technical aspects of the projects that you are managing.

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Consultant

Consultants provide advice to businesses on a variety of topics, including the design and development of electronic products. As a Consultant, you would work with businesses to help them to design and develop new products. This course may be useful as it would help you to understand the technical aspects of the products that you are consulting on.

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Teacher

Teachers teach students about a variety of subjects, including electronics. As a Teacher, you would work with students to help them to learn about electronics. This course may be useful as it would help you to understand the technical aspects of the subject that you are teaching.

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Researcher

Researchers conduct research on a variety of topics, including electronics. As a Researcher, you would work with other researchers to conduct research on new electronic products and technologies. This course may be useful as it would help you to understand the technical aspects of the research that you are conducting.

See salaries and explore the career path for Researcher