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Updated in [June 30th, 2023]

This course provides an overview of the basics of electrical protection systems. Learners will gain an understanding of electrical protection schemes, numerical relays and algorithms, and optical instrument transformers. Through theoretical summaries and examples of real-life engineering applications, learners will gain an understanding of the role of protective relays in protecting power system equipment and the challenges of designing and operating power system protection systems.

[Applications]
After this course, learners can apply their knowledge to design and operate power system protection systems. They can also use the theoretical summary and examples of real-life engineering applications to solve technical problems related to power system protection. Additionally, learners can use the knowledge gained from this course to optimize the reliability level of electrical infrastructure.

[Career Path]
One job position path that is recommended to the learners is that of an Electrical Protection System Engineer. This job involves designing, installing, and maintaining electrical protection systems for power systems. The engineer must be knowledgeable in the principles of electrical protection systems, including the use of protective relays, numerical relays, and optical instrument transformers. They must also be able to analyze and troubleshoot any problems that may arise in the system.

The development trend of this job position is that it is becoming increasingly important due to the increasing reliance on electricity and the need for reliable power systems. With the advances in protection and communication technology, the design and operation of power system protection systems has become ever more challenging. As such, Electrical Protection System Engineers must stay up to date with the latest technologies and trends in order to ensure the reliability of the power system.

[Education Path]
The recommended educational path for learners is to pursue a degree in Electrical Engineering. This degree program typically includes courses in mathematics, physics, and engineering, as well as courses in electrical engineering topics such as circuit analysis, digital systems, and electromagnetism. Students will learn the fundamentals of electricity and magnetism, as well as the principles of electrical engineering, and will be able to apply these principles to design and build electrical systems. In addition, students will gain an understanding of the development trends in the field, such as the use of renewable energy sources, the development of smart grids, and the use of artificial intelligence in electrical engineering. With this degree, students will be well-prepared to enter the field of electrical engineering and to pursue a career in the industry.