Ultimate Power Electronics and Electrical Protection Bundle

🌟 Ultimate Power Electronics and Electrical Protection Bundle 🌟

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Headline:

The Largest and Most Comprehensive Bundle on Power Electronics and Electrical Protection for Electrical Engineers! 🧲✨

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Course Overview:

Dive into a deep ocean of knowledge with our 51-hour comprehensive course that covers everything from the basics to advanced topics in power electronics and electrical protection. This is the perfect course for electrical engineers who want to master power electronic circuits and understand the critical aspects of electrical protection systems.

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What You'll Learn in Power Electronics:

Unlock the world of power electronics where you will:

• 🔧 Understand Applications: Learn about the applications of power electronics and what defines a power electronic circuit.
• ⚡ Explore Switches: Get familiar with various switches such as diodes, thyristors, GTOs, BJTs, IGBTs, MOSFETs, and more.
• 🏗️ Rectifiers Mastery: Explore different types of AC/DC converters, including half-wave and full-wave rectifiers for single-phase circuits, and various three-phase rectifier configurations.
• 🔺 AC Choppers: Discover the operations of AC choppers under different load conditions, including R, L, RL parallel, and capacitive loads, and understand the integral cycle control concept.
• 🔻 DC Choppers: Learn about step-down and step-up DC choppers with various loads like R, RL, and RE, as well as buck, boost, and buck-boost regulator circuits.
• 🏠 Inverters: Dive into single-phase and three-phase inverters and explore pulse width modulation techniques for single, multiple, and sinusoidal waveforms.

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Electrical Protection Systems:

Gain a comprehensive understanding of electrical protection systems:

• 🚨 Protection Components: Learn about the components of an electrical protection system, including zones of protection, trip circuits, primary and backup protection, and fault clearing times.
• ⚙️ Relay Types: Understand the different types of relays, such as directional power relays, overcurrent relays, distance relays, and more.
• 🔧 Circuit Breakers: Delve into the operation and selection of low-voltage, medium voltage circuit breakers, and the principle behind earth leakage circuit breakers (RCBs).
• 💼 Fuses: Learn about the types of low voltage and high voltage fuses and their applications.

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Special Bonus:

In addition to the comprehensive course content, you will receive a bonus gift – more than 250 pages of slides covering rectifiers and the basics of power electronics, 45 pages on AC choppers, 78 pages on DC choppers, 90 pages on inverters, and 153 pages on electrical protection. These slides serve as an excellent reference or revision tool for your learning journey.

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Interactive Learning with Logixpro:

Enhance your learning experience with Logixpro – an interactive program that simulates real-world applications using PLCs. Engage with moving belts, garage doors, and a mixer with different liquids to understand ladder programming and PLC operations in a practical, hands-on way.

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Why This Bundle?

If you're on the lookout for an all-encompassing course that covers power electronics, electrical protection, ETAP, and PLC basics, this is the perfect bundle for YOU! Don't miss out on this opportunity to elevate your expertise in the field of electrical engineering. 🎓

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Take Action:

Ready to take your electrical engineering skills to the next level? Enroll in the Ultimate Power Electronics and Electrical Protection Bundle today and unlock a world of knowledge and practical application! 🚀

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Course Review: Power Electronics

Overall Rating: 4.59/5 - Based on recent reviews

Pros:

• Expertise of Instructor: The instructor is highly knowledgeable in the field of electrical engineering, as noted by many students. Their ability to explain both fundamental principles and practical aspects of power electronics is commended.

• Comprehensive Coverage: The course content is reported to be thorough, covering a wide range of components such as diodes, thyristors, and transistors, and balancing function with mathematical explanations. The inclusion of visuals like current and voltage curves is particularly appreciated.

• Interesting and Relevant: Students find the subject matter interesting and relevant to their work in electrical engineering, noting its application in real-world scenarios.

• Lucid Explanation: The dissection of subjects is described as very lucid and to the point, which makes it easier for students from different backgrounds, such as mechanical engineering, to understand power electronic topics.

• Cultural Diversity: The course is accessible to a global audience, with some learners appreciating the inclusion of diverse accents and perspectives.

Cons:

• Language Barrier: A few reviews mention the instructor's accent may pose challenges for non-native English speakers. It is suggested that subtitles could enhance understanding.

• Pace and Clarity: Some students suggest that explanations could be slower and more examples provided to aid comprehension. There are also complaints about the inclusion of click noises during lectures, which are described as irritating.

• Textbook Dependence: The course relies heavily on textbook material and formulas, which might not cater to all learning styles or provide in-depth knowledge for advanced learners.

• Practical Application: There are complaints about the lack of practical examples and hands-on application of concepts, especially regarding the design solutions and practical usage of power electronic devices.

• Lecture Material: Some students find the lectures less engaging without the slides being displayed within the videos. Others express a desire for more interactive support from the platform.

• Pace and Detail: While some content is praised for its thoroughness, other parts are criticized for either moving too slowly or not explaining the underlying principles behind equations, leading to confusion.

• Supplementary Material: A few learners indicate that complementary resources, such as YouTube videos on thyristors, might offer a clearer explanation than the course material at times.

Additional Notes:

• Accessibility: The course is beneficial for those seeking an introduction to power electronics or looking to reinforce their understanding of the subject.

• Expectations: It's important for potential students to have realistic expectations about the depth and breadth of practical examples and in-depth explanations provided by the course.

• Room for Improvement: The course could be improved with clearer audio (potentially including subtitles), a faster pace in certain sections, more practical examples, and a more balanced approach between academic theory and practical application.

In conclusion, the course is generally well-received for its expertise and comprehensive coverage of power electronics topics. However, it could be enhanced by addressing the identified issues related to language, pace, content delivery, and practical application. With these improvements, the course has the potential to provide an even more impactful learning experience.