Electrical Control Design for real industrial applications from Udemy

Hello guys in Our Course you will learn All steps to Make a Full Electrical Control Design for any Project, in our Course we will discuss all Basic components in details after that we'll make a Full Electrical Control Design for about 15 applications

This course is designed to teach students how to design an Electrical Control circuit to perform a specific desired function. Taking this course will give students a much better understanding for the most complicated Electrical control systems which they will face in the Industrial sector in the real life. so our course aims to teach students the fundamentals of Electrical Control design. Starting from Basic Components ( Contactor - C.B - Relays - Timers - Elec switches - Fuses - Protection devices - Sensors - Encoders ), then we'll discuss the basic concepts for the Design like " latching - Interlocking - controlling from different places ..etc.", after that we'll make designing for many Electrical control circuits manually and using EKTS software for simulation.
This course is structured in such a way that each section is dedicated to a specific topic in regards to Electrical Control Design. The lectures contained in each section describe in detail the different tools and techniques used to design Electrical Control circuits.
There are assignments and Exercises throughout this course that students can use them to exam themselves, also we have a separated section for Lab, so you can get the most benefit from this course. Plan of Our Course will be like that :1- section (1) : ( Introduction )    - introduction for Electrical Control systems    - basics of Electrical Power system 2- section (2) : ( Basic Components for Electrical Control system )   - Contactor and all types of Circuit Breakers ( MCB - MCCB - ACB ) in details - How to calculate C.B rating and cable Sizing
- Electric switches (Push buttons - Selector switch …etc.) and Fuses in details - Electrical Relays (mechanical relay - SSR - Latch relay) - All Types of Faults in the Electrical control system - Protection Devices (Over-under Voltage relay & phase sequence-failure relay & Total protection device) - Overload relay in details
- All types of Timers ( On-delay timer - 24 hours timer - Star/Delta timer - pneumatic timer ) 3- section (3) : ( Lab for all Basic components ) we'll see all these components in the practical life and the way of wiring for them 4- section (4) : ( Fast Revision for Electrical machines ) - DC machines in details, principle of operation, internal construction and their applications    - AC machines in details, principle of operation, internal construction and their applications    - How can you read the data on the nameplate of the motor5- section (5) : ( Designing of Electrical Control circuits )   - Start/Stop for 3ph I.M - Start/Stop for 2 3ph I.M ( Latching - Interlocking Concepts )
   - Star/Delta circuit manually and Automatically in details - Start/Stop from different places concept - Forward/Reverse Concept - Star/Delta & Forward/Reverse control circuit - 3Three 3ph I.M as sequence one after another
- Advanced 4 applications - Solutions of the First assignment6- section (6) : ( Electrical sensors and Encoders )    - what's the difference between sensor and actuator       - Limit switches and reed switch in details
  - wiring of all sensors in the practical life - Proximity sensors ( Inductive & Capacitive ) in details - photoelectric sensors ( through beam - retro reflective - diffused ) in details - Level sensors ( float switch - Optical - Capacitive - Conductive - Tuning fork switch ) in details - Rotary Encoders ( incremental & absolute ) in details
- wiring of Encoder in the practical life 7- section (7) : ( Methods of starting for 3ph I.M ) - why do we need for the methods of starting .    - How can you calculate the starting current for the motor using the nameplate data
- DOL direct on line, Star/Delta , Soft starter, VFD variable frequency drive and Auto-transformer - Soft Starter device in details - VFD in details - wiring for the soft starter and VFD in the practical life 8- section (8) : ( ATS circuits ) - Basic components for the Automatic Transfer switch circuit - what's the difference between O.T.T and C.T.T circuits
- ATS circuit in details for the new Generator - ATS circuit in details for the old Generator Our help in " Power Tech Academy " is always available to you if you get stuck or have a question . our support is legendary in Udemy
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What's inside

Syllabus

Protection Devices

you'll learn what's the meaning of control system, all types for electrical control, Basics of Electrical power system

Introduction for Control systems

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Read about what's good

what should give you pause

and possible dealbreakers

Covers electrical control design, which is essential for professionals working with industrial automation and electrical systems

Includes a lab component where learners can see the components in real life and learn about wiring, which is valuable for hands-on learners

Explores sensors and encoders, which are critical components in modern industrial control systems and automation

Discusses motor starting methods, including soft starters and VFDs, which are essential for energy efficiency and motor protection

Examines automatic transfer switch (ATS) circuits, which are crucial for ensuring uninterrupted power supply in critical applications

Uses EKTS software for simulation, which may be outdated or less common than other industry-standard simulation tools

Reviews summary

Fundamentals of industrial electrical control design

Based on the detailed syllabus and course description, learners can expect a course focused on the fundamentals of Electrical Control Design with a strong emphasis on real industrial applications. The curriculum promises detailed coverage of essential components like contactors, relays, and sensors, alongside crucial concepts such as latching and interlocking. The course includes laboratory sections to show practical wiring and uses EKTS software for circuit simulation. While appearing comprehensive for foundational knowledge, potential learners should note the course likely assumes some basic electrical understanding and might serve best as an introduction or refresher rather than an exhaustive deep dive into highly advanced topics, given its broad scope. Instructor support is stated to be available.

Teaches using simulation software

"Using simulation software like EKTS will help me practice circuit design."

"It's good that they include a tool for building and testing circuits."

"I hope the EKTS part is easy to follow."

Covers breadth over advanced depth

"It looks like a great overview of many topics."

"I might need additional resources for very advanced VFD programming."

"I'm expecting foundational knowledge across these areas."

Covers wide range of components

"The course seems to cover all the important components in detail."

"I want to learn about contactors, relays, and protection devices."

"Understanding sensors and encoders is key for my job."

Designed for real industrial use

"I signed up because it focuses on real industrial applications."

"The promise of seeing wiring in labs sounds really practical."

"I need to apply these designs in the industrial sector."

Requires some electrical background

"I should probably have some basic electrical knowledge first."

"The first section covers power system basics."

"It seems helpful if you know circuit fundamentals already."

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 Electrical Control Design for real industrial applications with these activities:

Review Electrical Power System Basics

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Reinforce your understanding of electrical power system fundamentals to better grasp the control circuit concepts.

Browse courses on Electrical Power Systems

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Review basic electrical concepts like voltage, current, and power.
Study single-phase and three-phase power systems.
Familiarize yourself with common electrical components and their symbols.

Review 'Electrical Motor Controls'

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Deepen your understanding of motor control principles and practices.

View Electrical Motor Controls for Integrated Systems on Amazon

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Read the chapters on motor starters and protection devices.
Study the different types of motor control circuits.
Review the safety considerations for motor control systems.

Simulate Basic Control Circuits

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Practice designing and simulating basic control circuits to solidify your understanding of latching, interlocking, and other fundamental concepts.

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Use EKTS or similar software to simulate start/stop circuits.
Simulate forward/reverse motor control circuits.
Experiment with different interlocking schemes.

Four other activities

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Follow Online Tutorials on VFD Wiring

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Enhance your practical skills by following online tutorials on wiring Variable Frequency Drives (VFDs).

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Search for reputable online tutorials on VFD wiring.
Follow the tutorials step-by-step, paying attention to safety precautions.
Practice wiring a VFD using a simulation or a real VFD if available.

Review 'Programmable Logic Controllers'

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Expand your knowledge of industrial control systems by learning about Programmable Logic Controllers (PLCs).

View Loose Leaf for Programmable Logic Controllers on Amazon

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Read the chapters on PLC hardware and architecture.
Study the basics of PLC programming languages.
Explore PLC applications in industrial automation.

Design a Control System for a Simple Application

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Apply your knowledge to design a complete control system for a real-world application, such as a conveyor belt or a pump system.

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Choose a simple industrial application.
Define the control requirements and specifications.
Select appropriate components and design the control circuit.
Simulate and test the design.

Create a Control Circuit Design Portfolio

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Document your control circuit designs and create a portfolio to showcase your skills and knowledge.

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Select your best control circuit designs from the course.
Create detailed schematics and explanations for each design.
Organize the designs into a professional portfolio.

Career center

Learners who complete Electrical Control Design for real industrial applications will develop knowledge and skills that may be useful to these careers:

Electrical Design Engineer

An electrical design engineer creates electrical systems and products. This course is directly applicable, as it focuses on teaching how to design electrical control circuits for specific functions. The detailed coverage of basic components, such as circuit breakers, relays, and timers, provides the knowledge necessary for selecting the right components for electrical designs. Hands-on experience through the lab sections and exercises in this course enables the electrical design engineer to test and refine designs. By learning about the principles of latching and interlocking, the engineer can optimize circuit plans for any project.

See salaries and explore the career path for Electrical Design Engineer

Electrical Technician

An electrical technician installs and maintains electrical systems. This course helps build a foundation in understanding electrical control circuits, which are essential for diagnosing and repairing electrical systems in industrial settings. The course covers basic components like contactors, circuit breakers, relays, and timers, while also teaching practical skills in wiring and troubleshooting, which an electrical technician uses daily. Learning about protection devices, sensors, and encoders helps one to recognize faults and maintain safety protocols, which are vital for success as an electrical technician.

See salaries and explore the career path for Electrical Technician

Panel Builder

A panel builder assembles electrical control panels. This course directly applies with its focus on electrical control design and practical wiring techniques. Through this course one can gain a deep understanding of the components used in control panels, such as contactors, relays, and timers. The course also covers the wiring of electrical sensors and encoders, which are integral to many control panel designs. The hands-on lab sessions and simulations give the panel builder the practical experience needed to assemble panels efficiently and accurately. The study of Automatic Transfer Switch circuits improves insight.

See salaries and explore the career path for Panel Builder

Field Service Engineer

A field service engineer provides on-site technical support and maintenance for electrical and electronic equipment. This course helps build a foundation in understanding the full electrical control design, which is crucial for effective troubleshooting and repair. Coverage of basic components, such as contactors, circuit breakers, and relays, is essential for diagnosing issues in the field. The practical lab sessions and simulations give you hands-on experience that is invaluable for servicing equipment efficiently. Learning about electrical sensors, encoders, and motor starters, prepares you for a variety of service calls. The study of Automatic Transfer Switch circuits improves one's insight.

See salaries and explore the career path for Field Service Engineer

Maintenance Electrician

A maintenance electrician maintains and repairs electrical equipment and systems. This course helps build a foundation in understanding the inner workings of electrical control systems, making you adept at diagnosing and resolving electrical issues. The course's practical lab sessions allow for hands-on experience with wiring and troubleshooting common electrical components, such as circuit breakers and relays. The sections on protection devices and fault types help the maintenance electrician to quickly identify and address electrical problems, ensuring minimal downtime. By studying the material in this course, the maintenance electrician will be prepared for a variety of tasks.

See salaries and explore the career path for Maintenance Electrician

Control Systems Engineer

A control systems engineer designs and implements control systems for various industrial processes. This course helps build a foundation in understanding the fundamentals of electrical control design, including latching, interlocking, and control from different locations, all of which are important concepts for control systems engineering. The course also provides hands-on experience with software simulation, which is valuable for testing and optimizing control system designs. One who wishes to be a control systems engineer should take this course to better understand electrical sensors and encoders, enabling them to design more effective and responsive systems. An advanced degree may be required for this position.

See salaries and explore the career path for Control Systems Engineer

Instrumentation Engineer

An instrumentation engineer designs, installs, and maintains instruments and control systems in industrial facilities. This course helps the instrumentation engineer to understand the intricacies of electrical control systems, beginning with the basic components such as contactors and circuit breakers. The course's coverage of electrical sensors and encoders is particularly relevant, as these are key elements in instrumentation systems. Furthermore, the practical lab component of the course helps to give direct experience with wiring sensors, enabling one to better integrate them into control systems.

See salaries and explore the career path for Instrumentation Engineer

Electrical Inspector

An electrical inspector examines electrical installations and systems to ensure compliance with safety codes and regulations. This course helps build a foundation in understanding electrical control systems, which directly enhances the inspector's ability to assess the safety and functionality of electrical installations. The detailed coverage of basic components, protection devices, and fault types helps the electrical inspector to identify potential hazards and ensure that systems are up to code. The knowledge gained about cable sizing, electrical timers, and motor starters will make one more aware of the intricacies of a safe electrical design.

See salaries and explore the career path for Electrical Inspector

Automation Engineer

An automation engineer designs and implements automated systems in manufacturing and other industries. This course helps build a foundation in the basic components of electrical control systems like contractors, circuit breakers and timers, key to understanding the design of automated machinery. The course also covers electrical sensors and encoders, which are essential components in automated systems. By learning the methods of starting for three phase induction motors, an automation engineer will be better equipped to control the speed and torque of motors in automated equipment. The study of Automatic Transfer Switch circuits may be valuable to those who design systems that require safety cutoffs.

See salaries and explore the career path for Automation Engineer

PLC Programmer

A Programmable Logic Controller programmer creates and implements software for industrial automation systems. This course provides a solid understanding of electrical control design, which is vital for creating effective PLC programs. The course covers the electrical sensors and encoders that PLCs use, which are essential components that a PLC programmer must understand. By learning about the methods of starting for three phase induction motors, a PLC programmer can better write code to control the speed and torque of motors. The study of Automatic Transfer Switch circuits improves one's insight.

See salaries and explore the career path for PLC Programmer

Renewable Energy Technician

A renewable energy technician installs and maintains renewable energy systems like solar and wind. This course may be useful in that it covers aspects of electrical control design which are relevant to these systems. Understanding components like circuit breakers, relays, and protection devices from the course is crucial for ensuring the safe and efficient operation of renewable energy installations. The course's practical exercises with wiring and troubleshooting give hands-on skills that can be applied to maintaining renewable energy equipment.

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HVAC Technician

An Heating Ventilation and Air Conditioning technician installs, maintains, and repairs heating, ventilation, and air conditioning systems. This course may be useful because HVAC systems rely on electrical control circuits. The course covers electrical components such as contactors, relays, and timers, all used in HVAC control systems. Hands-on experience with wiring and troubleshooting, gained through the lab work, is directly applicable to HVAC system maintenance and repair. The course also touches on electrical sensors, which are increasingly used for intelligent HVAC controls.

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Robotics Technician

A robotics technician builds, maintains, and repairs robotic systems. This course may be useful due to the electrical control design principles discussed. The course covers the electrical sensors and encoders that are critical components in robotic systems. Learning about motor control circuits will aid the robotics technician in the maintenance of the robots. The study of protection devices helps one ensure the safety of the robots. Basic understanding of circuits is a must for the robotics field today.

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Mechatronics Engineer

A mechatronics engineer designs and develops integrated mechanical and electronic systems. While a mechatronics engineer needs a broad range of skills, this course may be useful due to its focus on electrical control design. The course covers basic components, sensors, and encoders, all of which are integral to mechatronic systems. The hands-on practical wiring and simulation techniques covered are useful for designing and testing integrated systems. One may find the knowledge of motor starting helpful when working with automated systems.

See salaries and explore the career path for Mechatronics Engineer

Aerospace Engineer

An aerospace engineer designs and tests aircraft and spacecraft. This course may be useful because aerospace systems use electrical control systems. Understanding electrical components like contactors, relays, and timers, which are covered in the course, is relevant to designing and maintaining these systems. Studying electrical sensors and encoders enhances one's ability to design accurate controls. While aerospace engineering is deeply specialized, having a strong foundation in electrical controls can be beneficial.

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Electrical Control Design for real industrial applications

What's inside

Syllabus

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Reviews summary

Fundamentals of industrial electrical control design

Activities

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