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Yves Perriard
and
Paolo Germano
This course is presented in French, with English subtitles.
Read more
This course is presented in French, with English subtitles.
Read more
This course is presented in French, with English subtitles.
Ce cours traite des systèmes alternatifs triphasés, piliers de l'alimentation électrique industrielle et de certains types de machines électriques. Les charges triphasées associées, symétriques ou dissymétriques, seront étudiées ainsi que les puissances actives, réactives et apparentes qui en découlent. Des méthodes de compensation de la puissance réactive seront développées.
Ce cours traite également des régimes transitoires, induits par les enclenchements, déclenchements ou pannes de circuits sur leur source, qu'elle soit continue ou alternative. L'importance de l'étude des régimes transitoires réside dans le fait qu'ils sont la base du fonctionnement d'appareils que l'on retrouve dans de nombreuses applications modernes comme la distribution d'énergie, les entraînements électriques, la recharge de batteries, les alimentations à découpage ou encore de l'éclairage.
Register for this course and see more details by visiting:
OpenCourser.com/course/8m37wh/electrotechnique
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Know what's good ,
what to watch for , and
possible dealbreakers
Enseigne des compétences en électricité triphasée, essentielles dans l'industrie et la recherche
Présenté par Yves Perriard et Paolo Germano, experts reconnus en systèmes électriques
Fournit des sous-titres en anglais pour faciliter la compréhension des étudiants internationaux
Couvre les régimes transitoires, un aspect crucial pour la compréhension des systèmes électriques
Exige des connaissances préalables en électricité et en mathématiques
Se concentre sur les principes théoriques plutôt que sur des applications pratiques
Save this course
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Reviews summary
Cours d'électrotechnique approfondi
Ce cours aborde les systèmes triphasés, les régimes transitoires et la compensation de puissance réactive. Il est dispensé en français avec des sous-titres en anglais.
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 Electrotechnique II with these
activities:
Solve Transient Circuit Analysis Problems
Show steps
Solving practice problems will strengthen your analytical skills and deepen your understanding of transient circuit behavior.
Show steps
-
Review the concepts of transient circuit analysis.
-
Practice solving problems involving RL, RC, and RLC circuits.
-
Analyze the impact of initial conditions on transient responses.
Explore Transformer Modeling Techniques
Show steps
Exploring transformer modeling techniques will enhance your understanding of advanced concepts in natural language processing covered in this course.
Browse courses on
Transformer Models
Show steps
-
Identify different transformer architectures and their strengths.
-
Gain hands-on experience with transformer-based models using popular libraries.
-
Analyze the performance of transformer models on various NLP tasks.
Attend Industry Conferences
Show steps
Networking at industry conferences will allow you to connect with professionals, gain insights, and expand your knowledge beyond the classroom.
Show steps
-
Identify relevant industry conferences and events.
-
Attend technical sessions and workshops to learn from experts.
-
Network with professionals and exchange ideas.
Three other activities
Expand to see all activities and additional details
Show all six activities
Develop a Presentation on Power Factor Correction Techniques
Show steps
Creating a presentation will not only reinforce your understanding of power factor correction techniques but also develop your communication skills.
Show steps
-
Research and gather information on power factor correction techniques.
-
Design and develop a presentation using visual aids and clear explanations.
-
Practice delivering the presentation to improve your clarity and confidence.
Contribute to Open Source Projects
Show steps
Contributing to open source projects will allow you to apply your skills, learn from others, and give back to the community.
Show steps
-
Identify open source projects related to the topics covered in the course.
-
Read the project documentation and understand the codebase.
-
Make code contributions, such as bug fixes or feature enhancements.
Design a Power System Simulation Model
Show steps
Designing a simulation model will provide hands-on experience in applying the concepts learned in the course to real-world scenarios.
Show steps
-
Identify the system parameters and components to be modeled.
-
Select appropriate software tools and simulation techniques.
-
Develop and validate the simulation model.
-
Analyze the simulation results and draw conclusions.
Solve Transient Circuit Analysis Problems
Show steps
Solving practice problems will strengthen your analytical skills and deepen your understanding of transient circuit behavior.
Show steps
Show steps
Show steps
- Review the concepts of transient circuit analysis.
- Practice solving problems involving RL, RC, and RLC circuits.
- Analyze the impact of initial conditions on transient responses.
Explore Transformer Modeling Techniques
Show steps
Exploring transformer modeling techniques will enhance your understanding of advanced concepts in natural language processing covered in this course.
Browse courses on
Transformer Models
Show steps
Show steps
Show steps
- Identify different transformer architectures and their strengths.
- Gain hands-on experience with transformer-based models using popular libraries.
- Analyze the performance of transformer models on various NLP tasks.
Attend Industry Conferences
Show steps
Networking at industry conferences will allow you to connect with professionals, gain insights, and expand your knowledge beyond the classroom.
Show steps
Show steps
Show steps
- Identify relevant industry conferences and events.
- Attend technical sessions and workshops to learn from experts.
- Network with professionals and exchange ideas.
Three other activities
Expand to see all activities and additional details
Show all six activities
Develop a Presentation on Power Factor Correction Techniques
Show steps
Creating a presentation will not only reinforce your understanding of power factor correction techniques but also develop your communication skills.
Show steps
Show steps
Show steps
- Research and gather information on power factor correction techniques.
- Design and develop a presentation using visual aids and clear explanations.
- Practice delivering the presentation to improve your clarity and confidence.
Contribute to Open Source Projects
Show steps
Contributing to open source projects will allow you to apply your skills, learn from others, and give back to the community.
Show steps
Show steps
Show steps
- Identify open source projects related to the topics covered in the course.
- Read the project documentation and understand the codebase.
- Make code contributions, such as bug fixes or feature enhancements.
Design a Power System Simulation Model
Show steps
Designing a simulation model will provide hands-on experience in applying the concepts learned in the course to real-world scenarios.
Show steps
Show steps
Show steps
- Identify the system parameters and components to be modeled.
- Select appropriate software tools and simulation techniques.
- Develop and validate the simulation model.
- Analyze the simulation results and draw conclusions.
Career center
Learners who complete Electrotechnique II will develop knowledge and skills
that may be useful to these careers:
Power Electronics Design Engineer
Power Electronics Design Engineer
A Power Electronics Design Engineer designs and develops power electronic circuits and systems. They work with a team of engineers and technicians to bring new products to market. They also work with customers to understand their needs and to ensure that the product meets their expectations. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the design and development of power electronic circuits and systems.
Industrial Electrician
Industrial Electrician
An Industrial Electrician installs, maintains, and repairs electrical equipment in industrial settings. They work with a team of electricians and technicians to ensure that the electrical systems are operating safely and efficiently. They also work with engineers to develop and implement solutions to electrical problems. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the operation of electrical systems and for developing and implementing solutions to electrical problems.
Applications Engineer
Applications Engineer
An Applications Engineer provides technical support to customers who are using electrical products and systems. They help customers to select the right products for their needs, and they provide training on how to use and maintain the products. They also work with customers to troubleshoot problems and resolve any issues that may arise. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the operation of electrical products and systems, and for providing effective technical support to customers.
Technical Writer
Technical Writer
A Technical Writer creates technical documentation for electrical products and systems. They work with engineers and technicians to understand the operation of the products and systems, and they write clear and concise documentation that can be easily understood by users. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the operation of electrical products and systems, and for writing clear and concise technical documentation.
Test Engineer
Test Engineer
A Test Engineer plans and conducts tests on electrical products and systems. They use specialized equipment to measure the performance of products and identify any defects. They also work to develop and improve test procedures. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the operation of electrical products and systems, and for developing effective test procedures.
Electrical Contractor
Electrical Contractor
An Electrical Contractor plans, designs, and installs electrical systems in commercial and residential buildings. They work with a team of electricians and technicians to ensure that the electrical systems are installed safely and efficiently. They also work with architects and engineers to develop and implement electrical plans. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the design and installation of electrical systems.
Trainer
Trainer
A Trainer provides training on electrical products and systems. They work with customers to understand their needs, and they develop and deliver training programs that meet those needs. They also work with trainers to ensure that they are up-to-date on the latest electrical technologies. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the operation of electrical products and systems, and for developing and delivering effective training programs.
Power Systems Analyst
Power Systems Analyst
A Power Systems Analyst studies the operation of electrical power systems. They use computer models to simulate the behavior of power systems and to identify potential problems. They also work with engineers and operators to develop and implement solutions to power system problems. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the operation of power systems and for developing and implementing solutions to power system problems.
Research Engineer
Research Engineer
A Research Engineer conducts research on new electrical technologies. They work with a team of engineers and scientists to develop new products and processes. They also work with customers to understand their needs and to ensure that the research is relevant to their needs. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the latest advances in electrical engineering and for conducting research on new technologies.
Project Engineer
Project Engineer
A Project Engineer plans, manages, and executes electrical engineering projects. They work with a team of engineers and technicians to design, build, and test electrical systems. They also work with customers to understand their needs and to ensure that the project is completed on time and within budget. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the design and construction of electrical systems, and for managing electrical engineering projects.
Product Engineer
Product Engineer
A Product Engineer designs, develops, and tests electrical products. They work with a team of engineers and technicians to bring new products to market. They also work with customers to understand their needs and to ensure that the product meets their expectations. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the design and development of electrical products.
Power System Protection Engineer
Power System Protection Engineer
A Power System Protection Engineer designs and develops protection systems for electrical power systems. They work with a team of engineers and technicians to develop and implement protection systems that protect power systems from damage. They also work with operators to ensure that the protection systems are operating properly. **Electrotechnique II** may be useful in this role as it provides a strong foundation in electrical engineering principles. This knowledge is essential for understanding the design and development of protection systems for electrical power systems.
Power Electronics Engineer
Power Electronics Engineer
A Power Electronics Engineer designs, develops, and tests power electronic devices and systems. These devices and systems are used to control and convert electrical power. They are used in a wide variety of applications, including renewable energy systems, electric vehicles, and industrial automation. **Electrotechnique II** may be useful in this role as it covers the theory of power electronics, as well as the design and analysis of power electronic circuits.
Electrical Engineer
Electrical Engineer
An Electrical Engineer designs, builds, and maintains electrical equipment, such as motors, generators, and transformers. They also work on a variety of projects, including the development of new electrical products and the design of electrical systems for homes, businesses, and other buildings. **Electrotechnique II** may be useful in this role as it covers three-phase alternating current systems, which are used in the transmission and distribution of electricity.
Electrical Power Systems Engineer
Electrical Power Systems Engineer
An Electrical Power Systems Engineer designs, plans, and operates electrical power systems. The electrical power grid must balance sources and demands of electricity and be able to rapidly adjust to changing loads. They also work to ensure the reliable and efficient operation of power systems, using their analytical and problem-solving skills to identify and resolve any issues that may arise. **Electrotechnique II** may be useful in this role as it explores methods of compensating for the reactive power. This is important for maintaining the stability and efficiency of electrical power systems.
For more career information including salaries, visit:
OpenCourser.com/course/8m37wh/electrotechnique
Reading list
We've selected 14 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
Electrotechnique II.
Ce manuel fournit une couverture complète de l'analyse et de la conception des systèmes électriques de puissance. Il constitue une ressource précieuse pour les étudiants et les professionnels.
Ce manuel fournit une introduction complète aux machines électriques, couvrant les principes fondamentaux, les types de machines et les applications. Il constitue une ressource précieuse pour les étudiants et les professionnels.
Ce manuel fournit une introduction complète aux machines électriques et aux entraînements. Il couvre les concepts fondamentaux, les types de machines et les applications.
Save
Ce manuel fournit une introduction complète à l'électromagnétisme. Il couvre les concepts fondamentaux, les lois et les applications.
Ce manuel fournit une introduction aux machines électriques, couvrant les concepts fondamentaux, les types de machines et les applications. Il constitue une bonne introduction au sujet pour les étudiants et les professionnels.
Ce manuel fournit une introduction complète à la physique pour les scientifiques et les ingénieurs. Il couvre les concepts fondamentaux, les lois et les applications.
Ce livre fournit une introduction complète aux régimes transitoires dans les circuits électriques de puissance. Il couvre les concepts fondamentaux, les méthodes d'analyse et les applications.
Ce manuel fournit une introduction au calcul. Il couvre les concepts fondamentaux, les méthodes et les applications.
Ce manuel fournit une introduction aux mathématiques pour les ingénieurs. Il couvre les concepts fondamentaux, les méthodes et les applications.
Ce manuel fournit une introduction à l'algèbre linéaire. Il couvre les concepts fondamentaux, les méthodes et les applications.
Ce manuel fournit une introduction aux systèmes électriques de puissance, couvrant les concepts fondamentaux, les méthodes d'analyse et les applications. Il constitue une bonne introduction au sujet pour les étudiants et les professionnels.
Save
Ce manuel fournit une introduction à la physique moderne, couvrant les concepts fondamentaux, les lois et les applications.
Ce livre fournit une introduction aux techniques numériques utilisées dans l'électromagnétisme. Il couvre les concepts de base, les méthodes et les applications.
Ce manuel fournit une introduction aux équations différentielles. Il couvre les concepts fondamentaux, les méthodes et les applications.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/8m37wh/electrotechnique
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Effort
3 to 4 hours per week for 10 weeks
Level
Advanced
Via
edX
Institution
École Polytechnique Fédérale de Lausanne
Instructors
Yves Perriard
Paolo Germano
Language
Français
Transcripts
English
Français
Good to know
Enseigne des compétences en électricité triphasée, essentielles dans l'industrie et la recherche
Présenté par Yves Perriard et Paolo Germano, experts reconnus en systèmes électriques
Fournit des sous-titres en anglais pour faciliter la compréhension des étudiants internationaux
Couvre les régimes transitoires, un aspect crucial pour la compréhension des systèmes électriques
Exige des connaissances préalables en électricité et en mathématiques
Se concentre sur les principes théoriques plutôt que sur des applications pratiques
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