Electrical engineering is a good skill to learn if you want to become a principal electrical engineer, electrical engineering project manager, or staff electrical engineer. Here are the top courses to learn electrical engineering:
Advertising disclosure
1. Basic Electrical Engineering Electrical Engineering
We find electrical equipment everywhere, our homes, offices, industries. By choosing this course, you will come to know about the Basics of Electrical Engineering, Currents and Voltages across various Electrical elements and their behavior in both Alternating Current and Direct Current circuits, etc. And also the analysis of AC wave forms. You will be able to learn easily by watching our animated videos...
2. Basic Electrical Engineering
The course on Basic Electrical Engineering is offered almost in all universities at the first-year level for all Engineering branches. Topics such as DC Circuits, Single-phase and three-phase AC Circuits, Magnetic Circuits, Single-phase and three-phase transformers, AC and DC Machines, Power converters, wires cables, MCB, MCCB, SFU, etc. are generally included in the course. This course focuses on different concepts presented in the topics mentioned above along with numerical questions. Moreover, all lectures are explained with simple clear and language using colored diagrams. After taking this course, the learners should be able to,1) Explain different theorems used to solve Electrical Engineering circuits. 2) Solve Electrical Engineering circuits to find out current in a specific branch of an electrical circuit.3) Explain the working of elementary AC generator which generates AC voltage.4) Explain different terms used to define AC quantities.5) Solve single-phase AC circuits consisting of resistance, inductance, and capacitance.6) Explain the concept of MMF, reluctance, magnetic field intensity, permeability, magnetic fringing etc.7) Solve series and parallel magnetic circuits.8) Explain construction and working of single phase, three phase and auto-transformer.9) Compute efficiency and regulation of transformer.10) Explain construction and working of DC motors, single phase and three phase Induction Motors.11) Plot the characteristics of Electrical motors.12) Classify Electrical motors.13) Explain working of diode rectifier, inverters and DC-DC converters. 14) Explain working of switch fuse unit, MCB, MCCB, ELCB.15) Explain concept of earthing. This course serves as a foundation to learn advanced courses in basic electrical engineering...
3. AutoCAD Electrical for Automation & Electrical Engineers
If you are interested in Electrical designing this course is for you. Through this tutorial you are not just learning AutoCAD Electrical commands but designing AC VFD, DC Drive, VFD-By pass, Soft Starter, PLC, Automatic Changeover schemes etc. All major automation companies like Allen Bradley, ABB, Siemens, Schneider, Honeywell, Omron use the same circuits which is included in this tutorial. If you apply for a job in Automation Industry with good knowledge on these circuits definitely you are on TOP...
4. Ultimate Electrical Machines for Electrical Engineering
Ultimate Electrical Machines Course Bundle for Complete BeginnersThe only course bundle out there with everything you need to know about DC machines, induction machines, transformers, magnetic circuits, synchronous machines, and generatorsThroughout the course you will get: Magnetic circuits course: It will help you in learning all about magnetic circuits concepts from scratch with many solved examples. Transformers course: You will learn about electrical transformers' construction, their importance, the three-phase transformers, the main components of the electrical transformers, and much more. DC machines course: In this course, you will learn about different types of DC electrical machines, such as separately excited, shunt, and series DC motors and generators. Synchronous machines course: You will understand the principle of operation of the salient and non-salient synchronous machines. Induction machines course: In this course, you will understand how induction generators and motors work. In addition to methods of starting and speed control of induction machines. Electrical machines MATLAB course: You will learn how to simulate the electrical machines in the MATLAB Simulink program without any previous knowledge. ETAP course: You will learn how to simulate electrical systems in the ETAP program in addition to doing different analyses such as voltage drop, short circuit, and much more. LogixPro PLC simulator course: In this course, you will learn the basics of PLC programming using fun and awesome step-by-step simulations in the LogixPro program. All of these topics are in a step by step lessons with many solved examples. Bonus Gift:You will also get the slides for the Ultimate Electrical Machines Course Bundle for those who are interested in them or having them as a revision for themselves You will find in these files:45 Pages of Magnetic Circuits Slides161 Pages of Electrical Transformers Slides106 Pages of DC Machines Slides62 Pages of Induction Machines Slides57 Pages of Synchronous Machines SlidesTake this bundle if you've been looking for ONE COURSE BUNDLE with in-depth insight into the basics of electrical machines, ETAP, and PLC...
5. Electric Circuits for Electrical Engineering and Electronics
This course is designed to provide a complete overview of electric circuit analysis used in electrical engineering and electronics engineering. Electric circuit analysis is the most fundamental concept for electrical engineering, electronics engineering, and computer engineering. It is for that reason that electric circuit analysis is usually the first course taught in electrical, electronics, and computer engineering programs at universities, as basically anything related to electrical, electronics, or computer engineering stems from electric circuit analysis. In this course you will learn everything about electric circuits and electronics, from the basics such as what an electric circuit is and the fundamentals of electrical quantities like voltage, current, and power, all the way to complex techniques for analyzing electric and electronics circuits. The course is roughly divided into the following sections:1. Fundamentals of Electric Circuits and Electronics: in sections 2 and 3 of the course, we will discuss what an electric circuit is at the most basic level, followed by explanations of electrical quantities and sources of electricity. This is the foundation for electrical engineering and electronics engineering.2. Basic DC Electric Circuit Analysis: in sections 4, 5, and 6 we will discuss the analysis of direct current (DC) circuits, starting from basic analysis techniques such as Kirchhoff's voltage law and Kirchhoff's current law (KVL and KCL), voltage division, current division, nodal analysis, and loop analysis. We will also be discussing how complex resistive circuits can be simplified into equivalent circuits for easier analysis of electric circuits and electronics.3. Advanced DC Electric Circuit Analysis: in section 7, we will discuss advanced analysis techniques for electric circuits and electronics such as the superposition theorem, Thevenin's theorem, and Norton's theorem.4. Energy-Storing Devices in Electric Circuits and Electronics: in sections 8, and 9, we will discuss passive components in circuits that are able to store energy: capacitors and inductors. We will cover the fundamentals of capacitors and inductors, how they store energy, and how to simplify complex circuits containing combinations of capacitors and inductors into simpler circuits for easier analysis of electric circuits and electronics.5. Transients in Electric Circuits and Electronics: in section 10, we will discuss the analysis of first-order electric circuits during transients. This is where things start getting a bit more advanced, but we will solve several examples to illustrate how circuits behave during transients, as opposed to the stead-state circuits previously discussed. In each section, several examples are solved to illustrate how to analyze practical circuits. By learning all the fundamentals about electric circuit analysis and electronics, you will be able to continue studying other topics in electrical engineering, electronics engineering, and computer engineering, such as analog electronics, digital electronics, circuit design, electric machines, power systems, and more. Remember that Udemy offers a 30-day money-back guarantee. I am also always available for questions while you go through the course to ensure everything is clear. See you in the course!...
6. AutoCAD Electrical for Electrical and Automation Engineers
AutoCAD Electrical has always been a great tool for engineers and designers to deliver professional work. It is the most popular software of choice for designing and developing professional electrical drawings, PLC diagrams, control and power circuits, and mechanical drawing in any industry. In this comprehensive course, you will learn all about the AutoCAD Electrical toolset and toolbar options which helps you design PLC modules, panels, control cabinets, wiring diagrams, and more. We will learn how to create accurate and standards schematics and electrical drawings step by step. Forough Jahangard is a professional Electrical engineer with years of experience both in the industry and academic setting. She will be showing you how to design ladder diagrams, wiring, develop custom symbols and add annotations to your drawing. You will learn how to create title blocks and run reports professionally. PLC symbols and creating automatic ladder diagrams is one of the most useful features in AutoCAD electrical that you will get the chance to master in this course. The content of this course is being constantly updated and the other needed sections will be added. The summary of each section content is listed below: Introduction to the InterfaceAutoCAD Electrical Interfaceusing templates to create new drawingsCovering the Interface of AutoCAD electrical and how to useMethods to zoom in or zoom out on the screenProject ManagerHow to create projects and new drawings and how to work with themWire and wire numbersThe wire is the needed tool to get started with drawingInserting wire and modifying it such as stretching, trimmingInserting wire at anglesHow to work with wire numbers and how to edit wire numbersHow to use wire markerHow to use cable markerHow to work with Signal source and destination that is an essential tool to apply wire cross-referencingWire numbering in three-phaseWorking with Fan-in and Fan-out tool, the helpful tool to converge multiple wires into one lineHow to use Wire gap and tee marker is presentedChecking wire or tracing the wire is the other helpful part that provides the method to reduce the mistakes of your drawingYou will learn how to use the PLC file editor databaseHow to use Excel Spreadsheet to PLC I/O Utility and how to automate the creation of plc drawingsHow to export information from the created drawing to the spreadsheetHow to edit the data of the PLC spreadsheetLaddersThis is an essential tool that is commonly used during drafting. Creating laddersAdding RungsModifying ladders and scootingDrawing Shapes and how to use the status barHow to draw new shapes such as circles, rectangles, and so on, learning this part can be helpful for creating new symbols in the next sectionsWorking with the status bar is another useful option to facilitate the procedure of drawingComponentsThe most useful part in creating circuits, How to insert components and use catalog browserEditing components including moving. scooting, copying, aligning, and deleting themHow to use multiple insert tools to insert componentsThe parent and child component need to be learned, and how to create a parent-child relationship is provided in this sectionWorking with attributes of components and editing themHow to create multiple buses for components and also wires is explainedPanelCreating footprints and editing themAdding balloon and working with itDescribing din rail and how to insert itConnectorDescribing connector as a component and how to insert and edit itInserting break in connectors and how to split themUsing parent and child connectorsConnectors using point to pointCircuitsSaving circuits by using WblockHow to save your circuit to the Icon menuInserting the saved circuitsBuilding and configuring a circuit using circuit builder tool to create and insert your circuit with the right attributes automaticallyTerminalsThis is one of the most widely used peripherals in the electricity industry which is available in AutoCAD electricalInserting terminals and using the schematic list to insert themCopying terminal block propertiesEditing JumpersPLCAnother useful equipment that is widely used to control industrial process and AutoCAD electrical provides this module to use it in your drawingsYou will learn how to insert PLC and PLC full unit modulesHow to insert PLC module as a parent and childTagging plc based on PLC input outputSymbolsthe useful feature in AutoCAD electrical when a symbol is not available in the icon menu and you need to create a new symbol to use in your drawingYou will learn how to create new symbols and add new symbols to the icon menuTitle BlocksYou will learn How to edit or update your title block automatically instead of editing it manuallyReport- How to prepare a report of your circuit including information on the components- Using missing catalog data tool to display the catalog data which is missed- How to use an Electrical audit tool to detect the problems of incomplete components or wires- Using dwg audit tool to detect the errors related to wire connectionsAre you ready to start the journey to learn a new skill?...
7. Mechanical Engineering and Electrical Engineering Explained
Want to know how things work? How electricity is generated and transmitted to your home? How engines are cooled? Or how hydroelectric power stations work? Well, this is the right course for you! This course contains over 10 hours of engineering related video tutorials. You will learn: How Two and Four Stroke Engines WorkHow Boilers Work How Electrical Transformers WorkHow Valves Work (Ball, Gate, Globe etc.)How Primary Clarifiers WorkHow Power Generation Machinery Works (Renewable and Non-Renewable Energy)How HVAC machinery works. How Oil and Gas machinery works. And a lot more! If you are working in the following industries, you will get a big benefit from this course: HVACOil and GasChemical EngineeringPower EngineeringMechanical EngineeringAutomotive EngineeringPower GenerationWhy this course?Because saVRee and saVRee lite have trained over 20,000 students on Udemy with an average paid course rating of 4.5/5.0. Interactive 3D models are used extensively to show you machinery components and how they can be put together to form machines that complete useful work. 3D models are also used to show you how various power stations work. The course is packed with 2D images, 2D animations, Downloadable Infographics, Downloadable Quiz Booklets and 3D animations. Don't waste more time reading this course description, check-out the curriculum, then sign-up for this course! All purchases come with a 30 day no risk money back guarantee! Hope to see you on the course!...
8. Etap for Electrical Engineers
Welcome to the course on Etap for Electrical Engineers -(Original). The only course available on Udemy which covers almost all functionality of the Etap software. The course is updated on a monthly basis and Q/A answered frequently. There are many copy cats, but this course is the original. Etap is a powerful software which is designed to perform simulations, analysis and design of Power systems. Etap has very vast capabilities such as Load flow analysis, Arc flash, Protection co-ordination studies, cable pulling, cable ampacity study and much more. Because Etap has integrated all the functionality required for Electrical studies, it is preferred over other software packages. This course is specifically designed to cover all the functionality of Etap software. Industries nowadays are in pursuit of candidates having skills in Power system simulation packages. Having the knowledge to simulate power systems in Etap can help students to procure positions in the power sector. This course also covers all the fundamentals of conducting analysis in power systems, thus it will be easy for beginners to follow the course. Each lesson is tailor made to be detailed and precise with practical examples. Engineers in the industry can update and refresh their knowledge , and learn to simulate in Etap package. With this course, you will learn to simulate power systems in no time!...
9. Introduction to Electrical Engineering
The goal of this course is for you (an absolute beginner) to learn all the fundamentals of Electrical Engineering in the most simple, effective and fast way. Instead of giving you every information at the beginning and bore you with all the details, I will add information as you start to question and start to need it. This is proven to be the best way to learn languages and I believe it's the best way to learn anything. So please ask questions and learned actively! This course starts with explaining what all the sub-fields in Electrical Engineering (e. g. Signal Processing, Control System, Power System, Telecommunication, Photonics, Microelectronics) are and what Electrical Engineers do. Then you will learn the characteristics of the most basic and common components used in Electrical Engineering (i. e. resistors, capacitors, inductors, power supplies, voltmeters and ammeters). Before you can understand Ohm's Law and DC Circuit Analysis (e. g. Kirchoff's Voltage Law and Kirchoff's Current Law), I will demonstrate what electrical voltage, current, charge and power means with examples. The second section of the course covers active circuit elements (i. e. operational amplifiers, diodes and transistors). You will learn their characteristics and typical applications. Then we will revisit the passive components and see how they behave in AC circuits. In this part, you will learn why complex numbers exist in AC circuits, how to perform complex number algorithms, and what phase shift is. The last part of this section focuses on power generation, losses and distribution. Here we will introduce fuses and transformers. Lastly, we will look at practical circuits and follow a few guidelines to help you start building your own circuits...
10. Electrical Power Engineering Principles
Stephen Brooks is a Chartered Electrical engineer who has worked in the electrical power utility industry for over 30 years as a design engineer, commissioning engineer and construction project manager. This module has been written to teach non-engineers the basics of electrical power engineering, and will also act as a useful revision tool for electrical graduate engineers or those engineers new to the industry. The course uses detailed illustrations & simple explanations to convey the topics involved. Future modules will develop these basic engineering ideas further and use them to show how an electrical power utility system is designed, constructed, tested and operated...
11. Electrical Engineering Simulations with Etap
This course offers Coursovie Training Certificate in addition to Udemy Certificate. Coursovie Certificate is FREE and requires registration on Coursovie Website. ETAP is the most powerful software in the area of Electrical Power systems. Using this software you can design and analyse your power system from the source of power all the way to the loads connected to it. ETAP offers a suite of fully integrated electrical engineering software solutions including arc flash, load flow, short circuit, transient stability, relay coordination, cable ampacity, optimal power flow, and more. Having the ability to work with this software will play a key-role for fresh out of school Electrical engineers, as well as those who need to expand their knowledge of power calculations in being awarded internships into top electrical power based companies. This course is structured into 9 chapters with multiple practical examples after the theory is elaborated. We have created a great course that enables the researchers, engineers, and students to learn ETAP in less than a Week!...
12. Electrical Engineering: Power Electronics Masterclass
This course is designed to provide a complete overview of one of the main areas of electrical engineering and power engineering: power electronics. The three main types of power electronics devices (i. e., rectifiers, dc-to-dc converters, and inverters) are discussed in detail in the lectures. For each device, the ideal circuit is discussed along with different circuit topologies to provide a wide range of practical uses. By learning how rectifiers, dc-to-dc converters, and inverters are designed, you will learn the fundamentals for designing your own power electronics devices, such as battery chargers, switched-mode power supplies, solar inverters, and variable frequency drives, among others. Throughout the course, practical numerical problems are solved to aid your understanding of power electronics. Additionally, the course includes 5 quizzes with a total of 15 questions. Three articles are also provided so you can learn by reading as well as videos. Remember that Udemy offers a 30-day money-back guarantee. I am also always available for questions while you go through the course to ensure everything is clear. See you in the course!...
13. Introduction to Batteries (Electrical Engineering)
Batteries are a fundamental part of our society. Batteries are used to: Start your car. Power your watch. Power your laptop. Power your smartphone. Power emergency lighting. Start emergency generators. And much much more! But how do batteries function? Why are there so many different types? And why have they found widespread application in everything from wrist watches to power stations? After completing this course, you will be able answer all of these questions and many more. You will learn: How batteries work (chemical reactions etc.). Battery terminology (Ah, specific gravity, voltaic cell etc.). Battery construction (plates, containers, jars etc.)Different battery designs and types (lead acid, nickel-cadmium, mercury etc.). Battery hazards (shorting, gas generation etc.). Battery operations (series, parallel, primary, secondary etc.). And a lot lot more! The course is designed to take you from zero to hero concerning electric battery knowledge. Even if you already have some background electrical engineering knowledge, this course will serve as an efficient refresher. Whatever your level of understanding, or engineering background (electrical engineering, automobile engineering, power engineering, oil and gas, chemical engineering, mechanical engineering etc.), we can guarantee you will have never taken an engineering course like this one (unless you have taken one of our other courses...). Why this course?Because saVRee and saVRee lite have trained over 5,000 students on Udemy with an average paid course rating of 4.7/5.0! Interactive 3D models are used to show you the insides of several batteries and all their main parts. The course is packed with 2D images and high quality written content. Written content has been read aloud so that you can 'learn on the go' without needing to watch the screen constantly. Don't waste more time reading this course description, check-out the free preview videos and the curriculum, then make an informed decision. All purchases come with a 30 day -no questions asked- money back guarantee. Hope to see you on the course!...
14. Electricity for Electronics, Electrical Engineering A-Z 2023
Start understanding and Solving basic Electric Circuits easily and confidently! If you are looking for a course that will help with your understanding of Electric Circuits and basic Electrical Engineering concepts, this course is for you. Electric Circuit are the fundamental building blocks of all Electrical and Electronic Systems, and you definitely need a solid understanding of these concepts to advance in anything Electrical in nature. This full course is the best way to jump right in and start understanding/solving Electric Circuits confidently, like never before. What makes me qualified to teach you Electric Circuits?I graduated from one of the top-5 Electrical Engineering programs in the US, and I have 10+ years of teaching Electrical Engineering courses as a University Professor, and I have put together this Electric Circuits class. I am a best-selling instructor of top-rated courses that get great reviews such as: An incredible learning experience. The instructor is very clear and easily understood. - Walter SimmonsTeaching by an expert teacher. - Abdulkadir CabuğaExcellent! I couldn't ask for a better tutorial on whiteboard animations. The course is very thorough, and provides enough practice activities to apply the skills. - ShamuelMy Promise to You: I'll be here for you every step of the way. If you have any questions about the course content or anything related to Electric Circuits, you can always post a question in the course or send me a direct message. This course will cover everything you need to know about Electric Circuits: The SI Units and Electric QuantitiesElectric Circuits and Circuit Analysis Passive Sign ConventionPower And EnergyIndependent and Dependent SourcesOhm's LawKirchoff's Current & Voltage LawsPower CalculationsNodes, Branches, Loops and MeshesSeries and Parallel ConnectionsSolving Circuits with Dependent SourcesSolving Linear Equations for Electric CircuitsSo much more! BONUS: As a bonus, you'll receive supplemental video lessons about solving Simultaneous Algebraic Equations, Matrices, etc. By the end of this course, your confidence in dealing with Electric Circuits will soar. You'll have a thorough understanding of how to solve basic Electric Circuits. Go ahead and click the enroll button, and I'll see you in lesson 1! Cheers, Kashif...
15. ETAP for Electrical Engineers For Beginners
Want To Become an Expert In ETAP Software and Power System? This course will help you to achieve your goals to become ETAP and Power System Expert. This course includes 5.5 hours on demand videos, assignments, quizzes, certificate of completion, LIFETIME access and a 30 days money back satisfaction guaranty by Udemy. ETAP is a powerful software which is designed to perform simulations, analysis and design of Power systems. ETAP has very vast capabilities such as Load flow analysis, Arc flash, Underground raceway system, stability of power system, cable ampacity study and much more. Because ETAP has integrated all the functionality required for Electrical studies, it is preferred over other software packages. This course is specifically designed to cover all the functionality of ETAP software. Industries nowadays are in pursuit of candidates having skills in Power system simulation packages. Having the knowledge to simulate power systems in ETAP can help students to procure positions in the power sector. This course also covers all the fundamentals of conducting analysis in power systems, thus it will be easy for beginners to follow the course. Each lesson is tailor made to be detailed and precise with practical examples. Engineers in the industry can update and refresh their knowledge , and learn to simulate in ETAP package. With this course, you will learn to simulate power systems in no time! INSTRUCTOR SUPPORTI understand that students will have questions related to the course and its necessary also for a healthy learning process hence I encourage students to ask their questions related to the course in the Q & A section of the course. Finally, if you are still thinking weather you should enroll or not then I encourage you to watch some of the preview videos and test the waters before you actually enroll in the course and even after enrolling if you feel that this course failed to meet your expectations then you can always ask for a refund within 30 days of purchase...
16. Electrical Power Engineering Chapter 1: Fundamentals
Fundamentals section of electrical power engineering courses which you will learn basic concepts like current, voltage, power, energy, impedance concepts with complex numbers math and also difference between single phase and three system. In addition with basic concepts, you will get information about electrical components that we use in electrical power sector like transformers, circuit breakers, fuses, cables etc. Lastly, you will have a general idea about how electricity comes to our homes from power plants and what are some fundamental principles in generation, transmission and distribution system of electrical power...
17. Electrical Engineering - Understanding Alternating Current
Hi there, my name is John Kelly. I am Lecturer in Electrical Engineering. Are you looking to gain an understanding of alternating current? Perhaps you are looking to pursue a career in Electrical Engineering, or your studying to become an Electrician. Whether your pursuing a career or strengthening your knowledge, this course is for you. This course is for beginners. You do not need any previous knowledge of Alternating Current. We will start right at the beginning and work our way through step by step. There are exercise files available to download so that you can practice your newly acquired skills as you progress through the course. By the end of the course you will be confident working with values such as reactance and impedance. You will be able to recognise how power is used in AC circuits, the effects of power factor, and power factor correction. So join me on this course and together we will explore the fundamental knowledge that is vital in understanding how Electricity, and Electrical systems behave. This course will be useful if you are studying for an Electrical Science exam, or to be an Electrician, an Engineer, or wish to go on to study at a higher level...
18. Ultimate Electrical Power System Engineering Masterclass
Hi and welcome everyone to our course Ultimate Electrical Power System Engineering MasterclassIn this course, you are going to learn everything about power system analysis starting from the power system basics and fundamentals of single phase and three phase electric systems moving to designing and modelling different power system components such as: generators, transformers, and transmission lines, ending with a complete power system studies such as load flow studies and power system faults analysis. Thus, this course will be your complete guide in one of the main areas of power engineering: ( power system analysis )The course is structured as follows: Firstly, an overview on the power system structure is illustrated through the following topics: Generation, transmission, distribution, and consumption of electric powerHow to draw a single line diagram (SLD) of any power systemThen, the next topic will be about a review on basic electrical engineering concepts to be a quick refresh for you. The following topics will be covered: Different types of powers in power systemComplex power, power triangle, and power factor definitionspower factor correction Complex power flow in any power systemThen, a complete study of three phase systems is introduced since 99% of practical electric networks are actually three phase systems. Thus, three phase circuits are explained in depth through the following topics: Why we need three phase systems?Three phase supply and load Different 3-ph connections (star-star), (star-delta), (delta-star), (delta-delta) Difference between (3-wire) and (4-wire) 3-ph systemsThe relations between line and phase currents and voltagesPower analysis in 3-ph systemsPower factor improvement in 3-ph circuitsThen, you are going to learn the modelling and characteristics of generators in power systems starting from the operation and construction of alternators moving to measuring the performance indices of synchronous generators. The following topics will be covered: Construction and operation of alternatorsSalient pole vs. Cylindrical rotor generatorsGenerator model in power systemsGenerator phasor diagram and characteristicsGenerator performance parametersPower angle curve of synchronous generatorsThe next topic is about transformers and their use in power systems. We are going to discuss how the transformers work and their importance in power systems through the following outlines: Construction and operation of transformersTransformer equivalent circuitTests performed on transformersTransformer efficiency and regulationThree-phase transformer types and connectionsPer phase model of three phase transformerAfter that, we are going to a complete modelling of different types of transmission lines with assessing the transmission line performance in electric networks through the following topics: Overhead lines vs. Under ground cables (UGC)Transmission line modelling and performanceShort, medium, and long line modelsLossless transmission linesSurge impedance loading (SIL)Now, after modelling and analyzing different power system components, lets move to the per unit system and learn the concept and importance of per unit in power system analysis through the following outlines: Concept of per unitPer unit calculationsHow to draw per unit reactance diagramChange of baseNumerical examples on practical power systemsThen, we are going to a complete power flow analysis where we are going to know the electrical parameters for any power system under any operating conditions. The following topics are discussedConcept and importance of power flow studyDefinitions in power flow analysisTypes of power system busesFormation of YbusApproximate methodIterative methods for load flow analysisGauss-Seidal methodPower flows and losses analysisDC power flow methodNumerical examples on practical power systemsThen, a complete fault analysis is performed on power systems to find the fault current, bus voltages and line current during the fault. All these outlines are discussedDefinition, causes, types, and consequences of electric faultsComplete symmetrical fault analysis using thevenin and ZbusSymmetrical components and sequence networksComplete unsymmetrical fault analysis using thevenin and ZbusFinally, after the complete analysis of power system, practical projects are performed on MATLAB related to power systems as follows: Project 1 - Stand alone synchronous GeneratorProject 2 - Synchronous Generator connected to the gridProject 3 - Simulation of 3-ph transformersProject 4 - Transmission line designProject 5 - Power flow study in MATLABProject 6 - Fault analysis in MATLABSo, if you are Looking for a COMPREHENSIVE course about Electrical power system analysis engineering for power system modelling, design and analysis ? If your answer is YES, then you're definitely in the right place...
19. Advanced Diploma in Electrical Design Engineering
The goal is to design safe and dependable processing facilities in a cost effective manner. The fact is that there are very few formal training programs that focus on design and engineering of Electrical systems of such big plants The heavy electrical industry has under its purview power generation, transmission, distribution and utilization equipment. These include turbo generators, boilers, turbines, transformers, switchgears and other allied items. These electrical equipment (transformers, switchgears, etc.) are used by almost all the sectors. Some of the major areas where these are used include power generation projects, petrochemical, refineries, chemical plants, integrated steel plants, non-ferrous metal units, etc. Overview:-Introduction of Electrical EngineeringIntroduction of EPC IndustryCoordination with Other DepartmentLoad List:-Preparation of Load ScheduleDetermination of Power Supply CapacityStandby Capacity considerationRating of Generators in Relation toPrime Movers Importance of max and min tempRating of Motors in Relation to their Driven MachinesElectrical Equipment Selection, Sizing:-MotorTransformerEmergency GeneratorNeutral Grounding Resistor (NGR)Power capacitor banks (PCB)AC UPSBattery & Battery ChargerCT/PTBus ductIllumination Design:-IntroductionType of Lighting FixturesSelection of Lighting FixturesPreparation of Fixtures ScheduleIndoor Illumination CalculationOutdoor Illumination CalculationCalculation on SoftwareLighting Layout DesignLighting Installation DetailSmall Power selectionLighting Board ScheduleCable Selection, Sizing & Layout:-Power and Control cable IntroductionCable Selection and SizingCable sizing for Low voltage systemCable sizing for High voltage systemVoltage Drop ConsiderationLet through Energy considerationEarth fault Loop Impedance considerationCable ScheduleCable interconnection ScheduleSelection and Sizing of cable TrayCable tray scheduleCable Drum scheduleConduit SelectionConduit SizingCable Routing LayoutCable TaggingInstallation detailsDevelopment of Single Line Diagram (SLD):-Key SLDDetail SLDLighting system SLDSmall power SLDMetering and Control diagramEarthing & Lightening Protection Design:-Requirement of Earthing in Industrial PlantsEarthing Design calculationsType of Earthing and DetailsEarthing Installation DetailsEarthing Layout DesignLightening Protection RequirementLightening Protection CalculationLightening Installation DetailsLightening Layout DesignTesting / System Studies:-Overview & Load Flow AnalysisShort Circuit Analysis (Fault Level Calculations)Motor Starting StudyRelay- Coordination...
20. Electrical Engineering: Introduction to Signals and Systems
One of the most fundamental courses for electrical engineering students, specially communication and control engineering majors, is of course signals and systems. This course is all about basics of what signals and systems are, and how they are characterized and how can one deal with them systematically. After the general introduction to basics and definitions of signals and systems in chapter 1 and 2, gradually starts to build up the powerful tools of manipulating signals mathematically, tools like Fourier series and transform, and Laplace and Z-transform. There is also a very interesting chapter about sampling and modulation, chapter 5, which talks about how can one basically take samples from a continuous signal and prepare it for transmission, via modulation...
Jobs that use Electrical Engineering
Updated December 8, 2023