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"Electrical Control and Protection is one of the most important system for any electrical system ".

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"Electrical Control and Protection is one of the most important system for any electrical system ".

Hello there,

  • If the topic 'Electrical Control and Protection' baffles your mind and you want to master it, then this is for you.

  • If you want to start your career in Electrical Control and Protection design and make money from it, then is for you.

  • If you want to learn how to design Electrical Control and Protection systems for any Project, then this course is for you.

  • If you get bored of the word 'this course is for you', then this course is for you.

  • if you love the electrical engineering.

  • if you are an electrical engineering student.

  • if you are an electrical technician.

Well, Electrical Control and Protection is becoming a widely-used word on everybody's tongue, and this is reasonable as all of the electrical systems are including it for its large importance .

So we introduce to you the Electrical Control and Protection Design course that you need in order to get your hand on the electrical design  as this course collects most of the knowledge that you'll need in your journey.

We believe that the brain loves to keep the information that it finds applicable, and that's what we're doing here in

  • Electrical Control and Protection also is one of the electrical engineering designing cores.

Our course is structured as follows:

  1. Discuss the Basic Idea Behind The Electrical Faults.

  2. Different Causes Of The Electrical Faults In The Power Network.

  3. Different Types Of The Electrical Faults In The Power System.

  4. Analyze The Electrical Faults Signals In The Power System.

  5. Analyze The Open Circuit Fault Case.

  6. Understand The Different Tasks Of The Electrical  Protection System.

  7. Analyze The Protection System Relaying Signals.

  8. Discuss The Different Tracks Of The Protection Systems.

  9. Understand the Different types of Circuit Breakers

  10. Discuss The Fault Clearing Time.

  11. Understand The Break Failure Protection Device.

  12. Understand The Protection System Priority.

  13. Discuss The Directional Protection System.

  14. Analyze The Different Properties Of The Protection System.

  15. Learn About The Electromagnetic Relays.

  16. Learn About the Static Relays.

  17. Learn About The Digital relays.

  18. Learn About The Multifunction relays.

  19. Discuss The Factors Affecting The Fault Current.

  20. illustrate the inverse overcurrent relay.

  21. illustrate the definite time/definite current overcurrent relay.

  22. Learn about the overcurrent relay settings.

  23. Learn How To control The Overcurrent Relay Settings.

  24. Learn How to Make the Coordination Study Between the Protections Systems in the Power Network.

  25. Learn How to Make the Coordination between the Different Circuit breakers in the Power Network.

  26. Learn How to Make the Coordination between the Different Fuses in the Power Network.

  27. Analyze the Earth Faults Protection Systems.

  28. Discuss the Tests Applied on the Overcurrent Relays.

  29. Discuss the Distance Protection Using the Distance Relays.

  30. Analyze and Work on the Impedance Diagram.

  31. Understand the Impedance Relay working principle.

  32. Understand the Reactance Relay working principle.

  33. Understand the MHO Relay working principle.

  34. Understand the Polarized MHO Relay working principle.

  35. Discuss the Lenticular and Quadrilateral Distance Relays Working Principle.

  36. Analyze the Transformer Differential Protection.

  37. Discuss the Modifications on the Differential Protection.

  38. Learn about the Transformer Inrush Current Protection.

  39. Understand the Transformer Overcurrent Protection.

  40. Design the Transformer Short Circuit Capacity.

  41. Discuss the Transformer Overheat Protection Using Oil.

  42. Understand the BuchHolz relay and the TWI Overheat Protection.

At this course :

  • These tracks would be like a piece of cake to you.

  • We'll take you from the Scratch of Designing and Analysis.

  • You'll learn with practical exciting method in order to understand without being bored.

All you need is an open mind and the passion to be successful.

Our help in YouCan is always available to you if you get stuck or have a question - our support is legendary in Udemy

> So don't hesitate and click " Buy Now " button so you can begin on the right path.

Enroll now

What's inside

Learning objectives

  • Understand some electrical fundamentals.
  • The basic idea behind the electrical faults.
  • Different causes of the electrical faults in the power network.
  • Different types of the electrical faults in the power system.
  • Analyze the electrical faults signals in the power system.
  • Analyze the open circuit fault case.
  • Understand the different tasks of the electrical protection system.
  • Analyze the different components of the protection system.
  • Analyze the protection system relaying signals.
  • Discuss the different tracks of the protection systems.
  • Understand the different types of circuit breakers.
  • Discuss the fault clearing time.
  • Understand the break failure protection device
  • Understand the protection system priority.
  • Discuss the directional protection system.
  • Analyze the different properties of the protection system.
  • Learn about the electromagnetic relays.
  • Learn about the static relays.
  • Learn about the digital relays.
  • Learn about the multifunction relays.
  • Discuss the factors affecting the fault current.
  • Illustrate the inverse overcurrent relay.
  • Illustrate the definite time/definite current overcurrent relay.
  • Learn about the overcurrent relay settings.
  • Learn how to control the overcurrent relay settings.
  • Learn how to make the coordination study between the protections systems in the power network.
  • Learn how to make the coordination between the different circuit breakers in the power network.
  • Learn how to make the coordination between the different fuses in the power network.
  • Analyze the earth faults protection systems.
  • Discuss the tests applied on the overcurrent relays.
  • Discuss the distance protection using the distance relays.
  • Analyze and work on the impedance diagram.
  • Understand the impedance relay working principle.
  • Understand the reactance relay working principle.
  • Understand the mho relay working principle.
  • Understand the polarized mho relay working principle.
  • Discuss the lenticular and quadrilateral distance relays working principle.
  • Analyze the transformer differential protection.
  • Discuss the modifications on the differential protection.
  • Learn about the transformer inrush current protection.
  • Understand the transformer overcurrent protection.
  • Design the transformer short circuit capacity.
  • Discuss the transformer overheat protection using oil.
  • Understand the buchholz relay and the twi overheat protection.
  • Show more
  • Show less

Syllabus

OVERVIEW ON THE ELECTRCIAL FAULTS
Idea Behind Electrical Faults
Overview on the Electrical Faults
Good Luck :)
Read more
CAUSES OF ELECTRICAL FAULTS
Mechanical , Environmental & Equipment Causes
External , Wrong operation & Overloading Causes
TYPES OF ELECTRCIAL FAULTS
Types of Faults According to Number of Phases
Similarity , Earth Existence & Fault Times Types
FAULTS SIGNALS ANALYSIS
Phasor Diagram for Three Phase to Ground Fault_1
Phasor Diagram for Three Phase to Ground Fault
Phasor Diagram for Phase to Phase Faults
Open Circuit Fault Condition
Load voltage analysis
Design of Fault Clearing Time
Fault Voltage and Current Signals Analysis
PROTECTION SYSTEMS MAIN CONCEPTS
Protection System Tasks
Protection System Components
Protection System Relaying Signals
Protection System Tracks
PROTECTION SYSTEM PROPERTIES
Dependability , Security & Reliability Properties
properties of protection system
Selectivity , Sensitivity , Speed Properties
Protection System Priority
Directional Protection
ELECTRICAL PROTECTION DEVICES
Oil Type Circuit Breaker
Air , Vacuum , SF6 Types Circuit Breakers
Break Failure Protection Device
OVERCURRENT RELAYS
Electromagnetic & Static Relays
Digital Relays
Factors Affecting Fault Current
Overcurrent Relays Tests
TYPES OF OVERCURRENT RELAYS
Definite Time / Definite Current Overcurrent Relay
Inverse Relay_1
Inverse Relay_2
ADJUSTING THE OVERCURRENT RELAY SETTINGS
Current Transformer Setting Selection
current transformer designing parameters
Pickup Current Setting Selection
Plug setting multiplier design
Time Dial Setting Selection
time dial setting design
Trip Unit Instantaneous Setting Selection
Notes about the Overcurrent Relays
PROTECTION DEVICES COORDINATION STUDY
Coordination Study
Fuses Coordination inside the Electrical Network_1
Fuses Coordination inside the Electrical Network_2
Circuit Breakers Coordination inside the Electrical Network
EARTH FAULTS PROTECTION
Residual , Neutral , Core Balance Earth Fault Relays
Frame Leakage , Residual Voltage Earth Fault Protection
DISTANCE PROTECTION
Idea Behind Distance Protection
distance Protections Vs Overcurrent Protection
Design the Impedance Diagram for any Electrical Network
Notes About the Impedance Diagram

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Reactance Distance Relays
MHO Distance Relay
Application on the MHO Distance Relay
Polarized MHO Relay
Lenticular and Quadrilateral Distance Relays
TRANSFORMER OVERCURRENT PROTECTION
Overview on the Transformer Protection
Idea behind Differential Protection
Modified Differential Relay
Transformer Inrush Current Protection
Transformer Overcurrent Protection
Transformer Short Circuit Capacity Design
TRANSFORMER OVERHEAT PROTECTION
Overheat Protection using Oil
BuchHolz Relay and TWI Protection
ELECTRICAL BACICS
MAIN ELECTRICAL PARAMETERS _1
MAIN ELECTRICAL PARAMETERS _2
POWER SYSTEM FUNDAMENTALS
SYNCHRONOUS GENERATOR CONTROL
DIFFERENT TYPES OF ELECTRICAL POWER

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Explores the theory and practice of protecting electrical systems from faults
Teaches the concepts of electrical protection systems, protection components, protection relaying, and protection strategies
Provides a comprehensive overview of the field, covering topics such as fault analysis, protective device coordination, and power system restoration
Taught by instructors with extensive experience in the field, ensuring that learners receive up-to-date and industry-relevant knowledge
Suitable for electrical engineers and technicians looking to enhance their skills in the design, installation, and maintenance of electrical protection systems
May be challenging for learners without a background in electrical engineering

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Reviews summary

Electrical power control and protection

Learners largely agree that this course excels at explaining complex topics in a clear and engaging way. Those who took this course say instructors do an excellent job of breaking down abstract concepts and providing clear explanations. Examples and visual aids are frequently used, which may be particularly helpful for beginners.
Helpful visual aids
""I like the segmented nature of Sal’s approach; bite size nuggets of information. She speaks clearly and offers great insight to the new learner, like me""
""She makes the material engaging and easy to understand. She really knows her stuff and is a great resource for mastering the tarot!""
""It is an informative class that gives great feedback. I have Ben reading Tarot for a long time. Learning this new aspect of it has expanded my way of seeing the cards and further interpreting them for my readings.""
Many helpful examples
""easy to understand and lots of examples""
""very interesting, easy to follow, easy to understand. Very enjoyable thank you!""
""I appreciate the instructors intuitiveness and incredible amount of knowledge. Thank you!""
Clear and concise explanations
""It was great course for beginners. simple to follow""
""I like the way the course is set up. I've found the topics easy to remember so far""
""amazing I've learnt so much so far, not just about tarot but about how i connect to it""

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 The Complete Electrical Power Control and Protection with these activities:
Review basic electrical engineering concepts
Refreshing foundational knowledge in electrical engineering to strengthen the understanding of overcurrent protection principles.
Show steps
  • Review textbooks or online resources on basic electrical engineering.
  • Solve practice problems to test your understanding.
  • Attend a refresher course or workshop.
Read 'Electrical Power System Protection' by C. Russell Mason
Supplementing course content with a comprehensive reference on electrical power system protection.
View Melania on Amazon
Show steps
  • Obtain a copy of the book.
  • Read the chapters relevant to overcurrent protection.
  • Take notes and highlight important concepts.
Attend a workshop on overcurrent protection
Gain practical insights and industry best practices in overcurrent protection through a workshop.
Browse courses on Electrical Protection
Show steps
  • Find a workshop that covers the topics you are interested in.
  • Register for the workshop.
  • Attend the workshop and participate actively.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Discuss overcurrent protection with classmates
Engaging in peer discussions to reinforce understanding and exchange perspectives on overcurrent protection.
Browse courses on Electrical Protection
Show steps
  • Find a study partner or group.
  • Choose a topic related to overcurrent protection to discuss.
  • Prepare for the discussion by reading relevant materials.
  • Meet with your study partner or group to discuss the topic.
Explore overcurrent protection using Microchip EVMs
Following Microchip EVM instructions for a smooth understanding of overcurrent protection.
Show steps
  • Select the appropriate EVM for your needs.
  • Follow the EVM user's guide to set up the hardware.
  • Run the EVM software to generate waveforms.
  • Analyze the waveforms to learn about overcurrent protection.
Solve overcurrent protection problems
Reinforcing problem-solving skills in overcurrent protection scenarios.
Browse courses on Electrical Protection
Show steps
  • Identify the type of overcurrent protection problem.
  • Analyze the circuit to determine the fault current.
  • Select the appropriate overcurrent protection device.
  • Set the overcurrent protection device to the correct settings.
Design a trip unit for an overcurrent relay
Applying the concepts of overcurrent relay trip units through hands-on design.
Show steps
  • Determine the desired trip characteristics.
  • Select the appropriate components for the trip unit.
  • Design the trip unit circuit.
  • Test the trip unit to ensure proper operation.

Career center

Learners who complete The Complete Electrical Power Control and Protection will develop knowledge and skills that may be useful to these careers:
Electrical Engineer
Electrical Engineers are responsible for designing, developing, testing, and maintaining electrical systems and equipment. They use their knowledge of electricity to solve problems and improve the efficiency of electrical systems. This course can help Electrical Engineers to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to design, install, and maintain electrical systems. In particular, the section on coordination study between the protections systems in the power network will be helpful for Electrical Engineers who are responsible for designing and maintaining electrical distribution systems.
Electrical Technician
Electrical Technicians are responsible for installing, maintaining, and repairing electrical systems and equipment. They use their knowledge of electricity to troubleshoot problems and ensure that electrical systems are operating safely and efficiently. This course can help Electrical Technicians to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to install, maintain, and repair electrical systems. In particular, the section on tests applied on the overcurrent relays will be helpful for Electrical Technicians who are responsible for maintaining electrical systems.
Power Systems Engineer
Power Systems Engineers are responsible for designing, developing, and maintaining power systems. They use their knowledge of electricity to ensure that power systems are operating safely and efficiently. This course can help Power Systems Engineers to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to design, install, and maintain power systems. In particular, the section on distance protection using the distance relays will be helpful for Power Systems Engineers who are responsible for designing and maintaining power distribution systems.
Protection Engineer
Protection Engineers are responsible for designing, developing, and maintaining protection systems for electrical equipment. They use their knowledge of electricity to ensure that protection systems are operating safely and efficiently. This course can help Protection Engineers to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to design, install, and maintain protection systems. In particular, the section on directional protection system will be helpful for Protection Engineers who are responsible for designing and maintaining protection systems for electrical equipment.
Electrical Maintenance Technician
Electrical Maintenance Technicians are responsible for maintaining and repairing electrical systems and equipment. They use their knowledge of electricity to troubleshoot problems and ensure that electrical systems are operating safely and efficiently. This course can help Electrical Maintenance Technicians to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to maintain and repair electrical systems. In particular, the section on overcurrent relay settings will be helpful for Electrical Maintenance Technicians who are responsible for maintaining electrical systems.
Electrical Designer
Electrical Designers are responsible for designing electrical systems for buildings and other structures. They use their knowledge of electricity to ensure that electrical systems are safe, efficient, and meet the needs of the occupants. This course can help Electrical Designers to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to design electrical systems. In particular, the section on transformer overcurrent protection will be helpful for Electrical Designers who are responsible for designing electrical systems for buildings.
Electrical Project Manager
Electrical Project Managers are responsible for planning, organizing, and directing electrical projects. They use their knowledge of electricity to ensure that electrical projects are completed safely, efficiently, and on time. This course can help Electrical Project Managers to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to plan, organize, and direct electrical projects. In particular, the section on coordination study between the protections systems in the power network will be helpful for Electrical Project Managers who are responsible for managing electrical projects.
Electrical Safety Inspector
Electrical Safety Inspectors are responsible for inspecting electrical systems and equipment to ensure that they are safe and meet code requirements. They use their knowledge of electricity to identify potential hazards and recommend corrective actions. This course can help Electrical Safety Inspectors to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to inspect electrical systems and equipment. In particular, the section on tests applied on the overcurrent relays will be helpful for Electrical Safety Inspectors who are responsible for inspecting electrical systems.
Electrical Consultant
Electrical Consultants provide consulting services to clients on a variety of electrical engineering topics. They use their knowledge of electricity to help clients solve problems, improve the efficiency of electrical systems, and meet code requirements. This course can help Electrical Consultants to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to provide consulting services to clients on a variety of electrical engineering topics.
Electrical Contractor
Electrical Contractors are responsible for installing, maintaining, and repairing electrical systems and equipment. They use their knowledge of electricity to ensure that electrical systems are safe and meet code requirements. This course can help Electrical Contractors to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to install, maintain, and repair electrical systems.
Electrical Engineer Technician
Electrical Engineer Technicians assist Electrical Engineers in the design, development, and testing of electrical systems and equipment. They use their knowledge of electricity to build prototypes, conduct experiments, and troubleshoot problems. This course can help Electrical Engineer Technicians to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to assist Electrical Engineers in the design, development, and testing of electrical systems and equipment.
Renewable Energy Engineer
Renewable Energy Engineers are responsible for designing, developing, and maintaining renewable energy systems. They use their knowledge of electricity to ensure that renewable energy systems are safe, efficient, and meet the needs of the occupants. This course can help Renewable Energy Engineers to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to design, develop, and maintain renewable energy systems.
Energy Auditor
Energy Auditors are responsible for assessing the energy efficiency of buildings and other structures. They use their knowledge of electricity to identify potential energy savings and recommend corrective actions. This course can help Energy Auditors to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to assess the energy efficiency of buildings and other structures.
Solar Panel Installer
Solar Panel Installers are responsible for installing and maintaining solar panels. They use their knowledge of electricity to ensure that solar panels are safe and efficient. This course can help Solar Panel Installers to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to install and maintain solar panels.
Wind Turbine Technician
Wind Turbine Technicians are responsible for installing, maintaining, and repairing wind turbines. They use their knowledge of electricity to ensure that wind turbines are safe and efficient. This course can help Wind Turbine Technicians to understand the basic concepts of electrical faults, protection systems, and overcurrent relays. It can also help them to develop the skills needed to install, maintain, and repair wind turbines.

Reading list

We've selected 12 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 The Complete Electrical Power Control and Protection.
Provides a comprehensive overview of electrical power systems, including generation, transmission, distribution, and utilization. It valuable resource for students and professionals in the field of electrical engineering.
Provides a comprehensive overview of electrical power distribution, including planning, design, construction, and operation. It valuable resource for students and professionals in the field of electrical engineering.
Provides a comprehensive overview of power system analysis and design, including load flow analysis, short-circuit analysis, and stability analysis. It valuable resource for students and professionals in the field of electrical engineering.
Provides a comprehensive overview of electrical power transmission system engineering, including the design, construction, and operation of transmission lines. It valuable resource for students and professionals in the field of electrical engineering.
Provides a comprehensive overview of power system protection and switchgear, including the principles of operation, design, and application. It valuable resource for students and professionals in the field of electrical engineering.
Provides a comprehensive treatment of numerical methods used in the analysis of power systems.
Provides a comprehensive overview of power system engineering, including the principles of operation, analysis, and control. It valuable resource for students and professionals in the field of electrical engineering.
Provides a comprehensive overview of electrical power system quality, including the principles of operation, analysis, and control. It valuable resource for students and professionals in the field of electrical engineering.
Provides a comprehensive overview of power system relaying, including the principles of operation, design, and application. It valuable resource for students and professionals in the field of electrical engineering.
Provides a comprehensive overview of power system harmonics, with a focus on the principles and techniques used to mitigate the effects of harmonics in modern power systems.
Provides a comprehensive overview of electric power substations engineering, including the principles of operation, design, and construction. It valuable resource for students and professionals in the field of electrical engineering.

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