Courses

Learn the parts and wiring techniques used in a motor control installation, become a Controls Electrician. What you'll learn: Learn the fundamental parts of industrial control boards and how they work.Learn how to install, wire and commission a basic motor control installation from scratch.Learn how to fault find, repair and maintain a basic motor control systems.Learn how electrical control components work and how to wire them up. This course is an introduction to electrical controls with an emphasison motor controls in the real world. In this course, we focus on industrial and commercial installations,we will start with the absolute basics of electrical circuits. We look at the fundamentals ofresistive circuits, and introduce Ohms Law, a mathematical formula that all electricians learn. The course looks at the different types of voltages and where they come from in the real world, focussing on transformer formations from the power supply authority,and AC and DC Voltages. As this is a course on the fundamentals of electrical controls, we will go through the basics of control circuits such as, normally open and normally closed, and look at how controlsare made up of series and parallel circuits. Taking a more practical approach to the subject, we dive inside control panels and look at each electrical component thatwe will be using later in the course, inour ownmotor control installation. We look inside the parts in detail and see how they work, discuss ratings, and learn how to size them up, with a particular focus on contactors and overloads. We alsosimplify an explanation of how an asynchronous motor works. Before we get to wiring up our own control circuit, we look at the different types of control voltages in the real world and follow themfrom end device at the customers installation all the way backto the supply transformer at the power company, so we can see how a full installation might look, and get an insight into different systems that we might find in industry. Afterlearningthebasics, we look at how we would install a motor control installation from scratch, including the motor itself. We get to see all the parts that we have learned about, working together in a mock real world installation, we learn how to size up the components and then go through the wiring of the circuit step by step. Part of installing a control board is commissioning it, so we go throughthe operation of the circuit after we have installed it to make sure it works. Installations are often amended and modified in the real world, so we'll look at a few ways in which we could modify our mock installation, change our wiring around and re-commission the installation. At the end of the course, we're going to challenge ourselves, and learn how to fault find a circuit as we would if we were called to a breakdown as an electrical controls technician. We'll go through a few faults that we might come up against in the industry and look at how we might repair them. We also briefly touch on preventativemaintenance techniques and discuss why they are important, for safety reasons and also financial reasons too. Controls can be quite daunting and complicated, we willgo through slowly and steadily, learning each part of the installation in detail before putting it all together, the course is weighted towards learning from practical examples, perfect for those of usthat are visual learners. And, instead of enforcing hard and fast rules of how things must be done, Wefocus more on learninghow to break down circuits and understand them for ourselves.I will show youwiring techniques used by Controls Electricians in the real world. What is covered in the course: Learn the fundamentals: AC andDC voltages, 3phase voltages,resistive circuits, ohms law, normally open and normally closed, series and parallel circuits, supply transformers(star &delta),faults to earth.Electrical components: Control panels, isolating switches, circuit breakers, fuses, contactors, overloads, asynchronousmotors, push buttons,indicator lights,power supplies.Types of installations: Single phase, dual phase, power supply, mixed voltage control.Installation of a motor control circuit: Install electrical components, wiring of a mock installation, commission installation.Modifying an installation:Add and remove components, wirea hold in circuit,commission.Fault finding and maintenance: Fault find and repair, use amultimeter,preventativemaintenance.Are you ready to upskill?

Instructor: Prof. Krishna Jagannathan, Department of Electrical Engineering, IIT Madras. This is a graduate-level class on probability theory, geared towards students who are interested in a rigorous development of the subject. It is likely to be useful for students specializing in communications, networks, signal processing, stochastic control, machine learning, and related areas. In general, the course is not so much about computing probabilities, expectations, densities etc. Instead, we will focus on the 'nuts and bolts' of probability theory, and aim to develop a more intricate understanding of the subject. For example, emphasis will be placed on deriving and proving fundamental results, starting from the basic axioms.

This is a graduate level class on probability theory, geared towards students who are interested in a rigorous development of the subject. It is likely to be useful for students specializing in communications, networks, signal processing, stochastic control, machine learning, and related areas. In general, the course is not so much about computing probabilities, expectations, densities etc. Instead, we will focus on the ‘nuts and bolts’ of probability theory and aim to develop a more intricate understanding of the subject. For example, emphasis will be placed on deriving and proving fundamental results, starting from the basic axioms.INTENDED AUDIENCE :M.Tech/M.S/PhD students, who plan to specialize in communications, networks, signal processing, stochastic control, machine learning, or related areas.PREREQUISITES :There will be no official pre-requisites. Although the course will build up from the basics, it will be taught at a fairly sophisticated level. Familiarity with concepts from real analysis will also be useful. Perhaps the most important prerequisite for this class is an intangible one, namely mathematical maturity.INDUSTRIES SUPPORT :Research labs

This course introduces electrical control & protection systems which are a critical part of any electrical substation What you'll learn: understand all of the key elements & principles of an electrical protection systemDraw what an electrical protection system looks likeIdentify what primary, secondary and control equipments areExplain how an overcurrent relay operatesExplain how an earth fault relay operatesEquip a protection panel and identify all of the main equipmentsUse phasor diagrams to explain all of the key elements of three phase currentsUnderstand the requirements for a current transformerIdentify the requirements for a voltage transformerExplain how a circuit breaker mechanism operatesExplain how the currents and voltages vary during all three phase fault conditionsKnow the difference between a TP & TPN system Electricalcontrol & protection systems are a critical part of the distribution & transmission systems that feed power to our cities & industries. The aim of this course is to introduce all of the basic principles associated with these complexsystems.The course will go into detail for the following key topics :-Introduce all of the key symbols, equipment's and architecture of a substation protection systemShow the basic principles behind electrical protection philosophyLook at three phase currents and see how they can be broken down into sequence components and harmonics.Providethe basic principles behind current transformers, how they operate and need to be connectedShow how voltage transformers operate and introduce the key typesGo into detail on what happens when a fault occurs on the systemLook into circuit breaker control and protection systems and how they interact with the protection systems.The main protection relay we will look at on this course is over protection. We go into detail on the basic and more advanced versions and show how this relay can be put to good use to provide great fault discriminationLook at the different types of earth fault relays and see how they can be used to protect some key equipment\sBy theend of the course the studentwill be able to identify all of the key components of a protection & control system and understand how all of these components fit together to create a fully integrated system.

Learn Industrial Control Circuits, Automation, Electrical Control; Motor Starters for Control Engineers and Technicians What you'll learn: Electrical ControlClassic ControlInduction Motor ControlFundamentals of Electrical Control CircuitsMotor StartersStar Delta StarterReverse Forward StarterDOL StarterVoltage Applied to Induction MotorHow to Size Circuit Components Based on IEC & NFPA StandardsLearn the Theory of ControlsSimulate Control Circuits using CADESimuBuild Control Circuits Wire by Wire With MeElectrical Drawing Schematic of Control CircuitsAutomation and Controls This course is all about Industrial controls topics which you need if you are starting your career as an automation and controls engineer. You will need this course if you are responsible about the process controls part in a production line. This course covers all the basics and details about controls circuits for 3 phase induction motor and how to build them from scratch. We will first start with an introduction about classic controls, then we will go to the circuit components that are used to create Industrial controls circuit, For these components, we will cover its definition, working principle and types, We will also see engaging animations for our lectures and circuits. Then we will design the most common circuits that are used in the industry and then we will simulate them; if our simulation is successful I will build it by hand wire by wire. In this course you will understand the induction motor more and its windings and terminals. We will also discuss the voltage in star and delta connection. Finally, we will try to select our power components for a project in which we will calculate the Full Load Current and based on that we will choose our component’s sizes according to IEC and NFPA Standards.

Learn the basics of industrial motor control systems and electrical diagram reading. What you'll learn: Read industrial motor control diagrams, understand line reference and sequential device and wire numbering systems.Follow power and control schematic drawings, learn how to read both IEC & IEEE / NEMA style schematic diagrams.Identify common electrical symbols used in industrial motor control circuits, understand the difference between wiring diagrams & schematic diagrams.Read schematics containing VFDs and PLCs, understand how PLC input and output numbering systems work. This introductory course provides an overview of electrical industrial motor control and basic electrical diagram reading.The course is designed for students or techs that want to work in the industrial control field and are seeking an overview of what makes up an industrial control system.An overview of industrial electric motor control wiring, schematics and single line diagrams is provided in this course.Students will be introduced to industrial control concepts and methods used for the control of electric motors in industrial control systems. You will recognize symbols used in electrical wiring and schematic diagrams. A student will be exposed to IEEE/NEMA and IECstyle electrical schematics and gain understanding of the difference between each schematic.Learn the relationship between power and control circuits within an electrical schematic set. A student will learn about motor control circuitry such as: motor overload protection, 2-wire and 3-wire control, reversing and non reversing starter diagrams, and mechanical & electrical interlocking.This course gets you up to speed in the basics of industrial electric diagram reading:Read basic industrial control electrical diagrams.Interpret the three main types of of diagrams: wiring diagram, schematic diagram and single line diagram (SLD).Recognize the difference between wiring diagrams and schematic diagrams.Recognize common electrical symbols used in schematic diagrams.IEC 60617 symbols are covered and a reference document is provided.IEEE standard symbols are covered and a reference document is provided.Understand the two main standards applied to electrical schematics: IEEE/NEMA and IEC.List the differences between IEC and IEEE/NEMA style diagrams.Understand wire and device numbering systems.Understand page coordinate and ladder wire and device location cross references. Learn how parent and child components in multipage schematics are cross referenced.Understand the purpose of electric motor control.Read schematics containing DOL starters, VFDs, soft-starters and PLCs.Recognize timing relay coil and contact symbols and understand how they work in industrial control systems.Understand the role of a programmable logic controller (PLC) in industrial control systems.Learn how PLC input and output wire numbering works in industrial control systems.

This course introduces electrical control & protection systems which are a critical part of any electrical network What you'll learn: Why we use interlocking on electrical substationsWhere to put metering in electrical networksHow to read and understand protection and control drawingsHow to use test plugs and sockets and where to put them in the protection systemWhy trip relays are needed on the protection systemHow to use interposing relaysHow mechanical interlocking is used to ensure that equipment is switched in a safe sequenceHow we connect meters to current transformers & voltage transformersHow to define the ferruling for different types of circuitsExplain the different types of relay flags & contacts Electricalcontrol & protection systems are a critical part of the distribution & transmission systems that feed power to our cities & industries.The fourth part of this protection course focuses on the building blocks of a protection system and the feeder protection systems that we use on high voltage networksThe course will go into detail for the following key topics :-Introduce the generalprinciples behind the different types of drawings we use and how we read themShow how we apply ferruling to the different circuits on the protection systemLook at all of the different types of auxiliary relays that we use including trip relays, flag relays and interposing relaysLook at test blocks and test plugs and show how we integrate them into different types of circuits.Introduce the principles behind interlocking, and develop the logic for some typical circuitsShow how we apply electrical interlocking to the substation systemsIntroduce the ideas behind mechanical interlocking and provide some working examples of how it can be applied to a typical circuit.Look at the principles behind metering, what equipment we use and how we define the current transformers and voltage transformersLook in detail at power factor compensation and how we protect the capacitor banks that we use for these systems.By theend of the course the studentwill be able to identify all of the key components of a protection & control system and understand how all of these components fit together to create a fully integrated system.

Motor and Electrical Control Technology is an important foundational course for majors such as mechatronics integration technology and electrical automation technology in higher vocational education. This course mainly includes three modules of motor, low-voltage electrical apparatus and motor control circuit, with a total of six items. The contents closely follow the knowledge points and skills required by the relevant professional standards of national electricians, and focus on practicality, applicability and progressiveness. The motor section focuses on introducing the structure, working principles, and applications of transformers, AC motors, DC motors, and special motors; The low-voltage electrical section focuses on introducing the structure, working principle, and selection principles of commonly used low-voltage electrical appliances; The motor control circuit section focuses on introducing the basic components of electrical control circuits.

EPLAN and Electrical Control Technology is a professional basic course integrating theory with practice For the first time, EPLAN electrical design software is integrated into the traditional course Electrical Control Technology. With the goal of cultivating students' automatic electrical control design ability, under the main line of project-based design, through the integrated teaching mode of theory + design + practical operation, students can improve their electrical design efficiencyand innovation ability to the greatest extent, aiming at promoting talent training in China's intelligent manufacturing, industrial Internet and other fields. so as to meet the talent demand of enterprises for electrical design posts. Suitable for zero-based people who want to engage in electrical design; also suitable for those who have a certain foundation and want to guide electrician assembly later.

Empower Your Expertise: Designing Lightning Protection Systems from Scratch for Electrical Engineering Students What you'll learn: Fundamentals of lightning phenomenaEffects and potential damages caused by lightningIntricacies of lightning waveformsKey components of a lightning protection systemRisk assessment calculations using NFPA 780 standardsPractical methods for risk assessment using online tools and ExcelVarious methods of air termination designRolling Sphere Method for effective designMesh Method for robust protectionProtective Angle Method for optimizationApplication of theoretical knowledge with design examplesInnovative Early Streamer System in lightning protection designDesign principles of down conductorsSignificance of cross-sectional areas in conductor and accessory designComplete lightning protection system design with AutocadInclusion of mesh grid, air terminals, down conductors, and accessories Welcome to the comprehensive course, "Ultimate Lightning Protection Design for Electrical Engineers," where you will delve into the intricacies of safeguarding electrical systems against the formidable force of lightning. This course has been meticulously crafted to empower electrical engineers with the knowledge and skills necessary to design robust lightning protection systems. Section 1: Introduction to Lightning Protection System Explore the fundamentals of lightning phenomena.Understand the effects and potential damages caused by lightning.Dive into the intricacies of lightning waveforms. Section 2: Risk Assessment Calculation Identify key components of a lightning protection system.Learn risk assessment calculations using NFPA 780 standards.Explore practical methods, including online tools and Excel, for risk assessment. Section 3: Design of Air Termination System Master various methods of air termination design.Explore the Rolling Sphere Method for effective design.Understand the Mesh Method for robust protection.Learn about the Protective Angle Method for optimization.Apply theoretical knowledge to practical scenarios with design examples.Explore the innovative Early Streamer System in lightning protection design. Section 4: Down Conductors and System Accessories Master the design principles of down conductors.Understand the significance of cross-sectional areas in conductor and accessory design. Section 5: Basics of Autocad for Electrical Design Learn how to grasp the basics of Autocad for Electrical Design.Discover how to initiate Autocad, change backgrounds, and take note of important considerations.Master various techniques for drawing lines, rectangles, circles, polygons, polylines, arcs, ellipses, points, and construction lines.Explore advanced commands for hatching, rotating, trimming, extending, copying, erasing, blocking, exploding, inserting, scaling, mirroring, moving, aligning, joining, offsetting, breaking, dividing, filleting, and chamfering.Understand the process of managing drawing properties and dimensions, using match commands, and incorporating styles.Get a grip on layers in Autocad, understanding their concept and application.Unlock the potential of advanced commands such as multi-spiral lines, leaders, and the purge command.Perfect the art of drawing techniques like changing drawing axes, creating fluorescent symbols, and executing the replace block command.Explore the intricacies of printing options for electrical drawings, navigating the Autocad menu bar, and leveraging the autosave feature.Discover effective strategies for organizing and preparing architectural drawings for electrical design. Section 6: Design of the Lightning Protection System Using Autocad Software Complete lightning protection system design including the mesh grid, air terminals, down conductors, and accessories. Embark on this educational journey, equipping yourself with the expertise needed to design lightning protection systems. This course provides the knowledge and practical insights essential for safeguarding against the unpredictable forces of lightning.

This course introduces electrical control & protection systems which are a critical part of any electrical substation What you'll learn: understand all of the key elements & principles of an electrical protection systemDraw what an electrical protection system looks likeExplain how a differential relay operatesUnderstand the operation of no load and off load tapchangersKnow what alarms a transformer generatesUnderstand the difference between ONAN, ONAF and OFAF transformer cooling systemsKnow how to size a batteryBe able to draw a basic DC system for a substationKnow what circuit breaker failure isUnderstand how a circuit breaker auto-reclosure system worksKnow how to synchronise a circuit breakerUnderstand how a substation SCADA system operatesKnow the difference between star and delta windings on a transformerUnderstand how the transformer vector group affects the system The aim of this course is to introduce all of the basic principles associated with these complexsystems.The course will go into detail for the following key topics :-Show how a substation DC systems operated and how the battery is sizedLook at the key elements of a circuit breaker protection schemeIntroduce the principles behind circuit breaker failure protection and show what action needs to be taken.See how circuit breakers can be re-closed after a fault andoutline the systems involvedIntroduce the principles behind synchronising, show what parameters need to be checked and how the systems operate.Go into detail on the main features of transformers, including vector groups, tapchangers, cooling systems, controls / alarms& protection systemsIntroduce the basic principles and systems associated with SCADA systemsBy theend of the course the studentwill be able to identify all of the key components of a protection & control system shown above and understand how all of these components fit together to create a fully integrated system.

In the final part of this protection and control course i will be introducing some more advanced principles. What you'll learn: How to design a substation interlocking systemUnderstand why we use the different substation configurations and be able to identify themKnow what a plain distance scheme isUnderstand how to use impedance zones to protect a feederKnow why we need pilot isolation transformersUnderstand how a differential feeder protection relay operatesBe able to identify the key components in a substation communication circuitKnow what a substation diameter isKnow how we apply logic diagrams to a relay to get the functionality we requireUnderstand how all of the different protection equipments come together to protect a circuitBe able to number the primary equipment in a substationKnow where to place the current transformers in some typical circuitsBe able to identify the protection zones required for some typical substation configurationsKnow where to put isolator's and ground switches in a circuitLearn how to use acceleration & blocking on an impedance schemeSee how the relay logic can be configured In the final part of this protection and control course i will be introducing some more advanced principles covering substation configurations, interlocking, feeder protection & distance protection.These final topics on the protection course will allow you to use all of the skills that you have developed in the protection field and apply them to the situations that you will come across in your career

Your Complete guide in industrial power system protection for switchgears and substations- from Beginner to Expert Level What you'll learn: Why we need the protection system ?Know different Protection System ElementsUnderstand trip circuit connectionDifferentiate between primary and backup protectionDifferent Methods of Back up ProtectionUnderstand Zones of ProtectionApplications on Protection Zones of Real Power SystemsDifferentiate between protective system and protective schemeUnderstand the meaning and causes of short circuit faultsTypes of Electric FaultsEstablishment of S.C Current and WaveformRealize Consequences of Short Circuit FaultsUnderstand Operation & Function of Protective RelaysHow to Adjust Relay SettingsUnderstand Required qualities of Protective RelayTypes of Relays According to FunctionTypes of Relays According to Time C/C’sComplete understanding of Electromechanical RelaysUnderstand Static RelaysUnderstand digital advanced RelaysFunction & Construction of CT & VTLearn Equivalent circuit & Burden of CT & VTKnow about Types of CTs used in electrical installationsComplete Understanding of Saturation of CTSpecifications of CT & VT used for ProtectionSpecifications of CT & VT used for measurementExample of Current Transformer Rating PlateDefferentiate between CT &VTUnderstand Overcurrent ProtectionLearn How to Adjust The Overcurrent Relay SettingPrimary Requirements of Overcurrent ProtectionComplete Understanding of Directional Over Current ProtectionPractical application of directional overcurrent ProtectionImportance of Earthing in electric networkUnderstand Earth Fault ProtectionLearn Different Earthing Systems in LVLearn Different Earthing Systems in MVUnderstand Circulation of Earth Fault CurrentHow to Adjust Earth fault Relay settingsUnderstand Directional Earth Fault ProtectionUnderstand principle of directional protectionDifficulties in Differential Protection and solutionsLearn Percentage (Biased) Differential RelayVoltage Balance Differential RelayWhy We Need Distance Protection ??Understand Concept of Distance ProtectionUniversal Relay Torque Equation and Its ApplicationsLearn Impedance (Plain) Distance RelayUnderstand Reactance RelayUnderstand Mho RelayDifferentiate between Overreach & Underreach in Distance ProtectionLearn Stepped Distance Protection and Its SettingsDifferentiate between Different Switching DevicesUnderstand Working of Circuit BreakerArc Phenomena in Circuit BreakerMethods of Arc Interruption in C.BUnderstand Restriking Voltage & Recovery VoltageLearn About Circuit Breaker RatingsDiscuss Large Oil Circuit BreakerIllustrate Operation of Minimum Oil Circuit BreakerLearn Air blast Circuit BreakerAnalyze Operation of Vacuum Circuit BreakerUnderstand SF6 Circuit BreakerLearn Thermal Overload ProtectionDiscuss Excessive Start-Up Time &Locked Rotor ProtectionUnder Current ProtectionUnderstand Over & Under Voltage ProtectionLearn Over & Under Frequency ProtectionUnderstand Overall Earth Fault Protection Hi my friend !Looking for a COMPREHENSIVE course about Electrical Control & Protection Systems for Stations ,Switchgears Substations & Distribution Zones ? If your answer is YES, then you're definitely in the right place. Why this course is Powerful and Unique ?The course contents are arranged in a progressive manner to start from beginner level to advanced oneThis course gives you a detailed explanation of different power system elements This course gives you a complete understanding of instrument transformersIn this course, you will be able to adjust settings of various protection functions and their applications There are many examples and practical applications that can get you from the academic information to the real world careerThis course will be updated many times. So, you will enjoy these updates in the near futureThis course will be a good reference for you in the field of power system protection, switchgear and controlI'm always available to you if you get stuck or have a questionThis course covers all aspects of power system protection and control which make you really experienced in that fieldThis course discuses and illustrate complex topics related to protection functions in very simple way By the end of this course, you will be able to move from identifying all key components of protection and control system to a complete understanding and adjustment of the setting of various protection functions. I thank you very much for taking the time to check the course content. See you in the course !

Explore thermodynamics for electrical engineers in this 26-minute Hackaday presentation. Learn how to prevent board melting by understanding heat transfer through on-board components and selecting appropriate heat sinks. Gain insights into free simulation tools for thermal analysis, enhancing your knowledge of thermodynamics and heat transfer. Discover practical applications of thermal considerations in circuit design, from conduction and convection principles to thermal resistance calculations. Acquire skills to interpret thermal simulations and apply them to your projects, ensuring optimal performance and longevity of your electronic designs.

It can be challenging to evaluate and select the best controls for an organization. Through this course, Security Controls and Control Frameworks, you will gain an understanding of the risk associated with the development of a security control framework, and how to address it. You will first learn the various types of controls and the factors used in establishing an effective security infrastructure. Next, you will examine the strengths of various types of controls including managerial, technical, and environmental controls that can be deployed to prevent and react to security incidents. Finally, you will examine how to test and evaluate the effectiveness of controls in relation to risk and compliance. When you're finished with this course, you will have the skills and knowledge needed to be an effective contributor to the design of secure information systems and business processes.

AutoCAD Full Course for Mechanical, Civil, Architect, Interior and Electrical Engineering. This AutoCAD training will give you confidence to say that you know AutoCAD 2D perfectly & will able to create complicated AutoCAD 2D drawings very easily. Please also solve the practice exercises after completion of each lecture, link to practice exercises is given below in chapters.

Fundamentals of Electrical Engineering What you'll learn: Basics of 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.

Learn electric circuits from scratch without any previous knowledge with dozens of examples in electrical engineering What you'll learn: know all the fundamentals of electric circuitsknow the meaning of SI units or international units in electric circuitsKnow the definition of the electric charge in electric circuitsKnow the definition of the electric current in electric circuitsKnow the definition of voltage in electric circuitsKnow the definition of power in electric circuitsKnow the definition of energy in electric circuitsDefinition of conductance in electric circuitsKnow the difference between dependent and independent sourcesApplications of DC circuits in electric circuitsKnow the principle of the TV picture tube or CRT in electric circuitsKnow the basic laws of electricity in electric circuitsKnow about the electricity bills calculations in electric circuitsUnderstand Ohm's law in electric circuitsKnow the definition of the nodes, branches and loops in electric circuitsKnow the definition of Kirchhoff's laws in electric circuitsKnow the definition of Kirchhoff's current law in electric circuitsKnow the definition of Kirchhoff voltage law in electric circuitsKnow series resistor and voltage division in electric circuitsKnow parallel resistor and current division in electric circuitsKnow Wye-Delta transformations in electric circuitsUnderstand applications as lighting systems in electric circuitsUnderstand Nodal analysis in electric circuitsUnderstand Nodal analysis with voltage sources in electric circuitsUnderstand the supernode in electric circuitsUnderstand Mesh analysis in electric circuitsUnderstand Mesh analysis with current sources in electric circuitsUnderstand the Supermesh in electric circuitsUnderstand How to use the Cramer method in electric circuitsComparison between Nodal and Mesh analysis in electric circuitsUnderstand applications as DC transistor circuits in electric circuitsUnderstand the meaning of the linearity property in electric circuitsUse the Superposition theorem in electric circuitsUnderstand Thevenin's theorem in electric circuitsUnderstand Norton's theorem in electric circuitsMaximum power transfer in electric circuitsUnderstand the various types of operational amplifiers in electric circuitsUnderstand ideal Op-Amp, inverting Amplifier, non-inverting amplifier in electric circuitsUnderstand summing Op-Amp circuit in electric circuitsUnderstand the difference Op-Amp circuit in electric circuitsUnderstand cascaded Op-Amp circuit in electric circuitsKnow the applications of Op-Amp like digital-to-analog converter in electric circuitsKnow the applications of Op-Amp like instrumentation amplifiers in electric circuitsKnow what is a capacitor in electric circuitsUnderstand how to simplify series capacitors in electric circuitsUnderstand how to simplify parallel capacitors in electric circuitsKnow how to get energy stored in capacitors in electric circuitsKnow what is an inductor in electric circuitsUnderstand how to simplify series inductors in electric circuitsUnderstand how to simplify parallel inductors in electric circuitsKnow how to get energy stored in the inductor in electric circuitsknow the applications of capacitors and inductors as integrators in electric circuitsknow the applications of capacitors and inductors as differentiators in electric circuitsUnderstand practical capacitors and practical inductors in electric circuitsSimulation of basic electric circuitsSimulation of operational amplifiersSimulation of charging and discharging of a capacitorSimulation of a source-free RL circuitSimulation of a source-free RC circuitSource-free RC circuitSolved examples on source-free RC circuitsSource-free RL circuitSolved examples on source-free RL circuitsStep response of an RC circuitSolved examples on step response of an RC circuitStep response of an RL circuitSolved examples on step response of an RL circuitSimulation of the step response of an RL circuitSimulation of the step response of an RC circuitAC electric circuitsPhasor representation of ACPhasor relationships for circuit elementsImpedance and admittanceKirchhoff’s laws and impedance combinations in the frequency domainApplication of nodal analysis in AC circuitsApplication of mesh analysis in AC circuitsApplication of Thevenin and Norton theorems in AC circuitsApplication of source transformation in AC systemsApplication of superposition theorem in AC circuitsImportance and applications of resonant circuitsDefinition and equations of a series resonant circuitQuality factor of a series resonant circuitTotal impedance VS frequency in a series resonant circuitBandwidth and selectivity curve of a series resonant circuitDerivation of cutoff frequenciesSolution of solved examples on series resonant circuitParallel resonant circuitUnity power factor of a parallel resonant circuitMaximum impedance of a parallel resonant circuitQuality factor of a parallel resonant circuitBandwidth and cutoff frequencies of a parallel resonant circuitEffect of high quality factor on the parallel resonant circuitInstantaneous power and average powerMaximum average power transferEffective or RMS value in AC circuitsApparent power and power factorComplex power and power trianglePower factor correction "Ultimate Electric Circuits Course from A to Z for Beginners" This is the only course with everything you need to know about the basics of electric circuits for complete beginners without any previous knowledge. This course starts with the basic concepts of electricity to the level you will be very familiar with circuits. Throughout the course you will get: Basics concepts of electric circuits: This will help you understand the very basic definitions of electricity including voltage, current, power, and more.Basic laws of electric circuits: This part will teach you about the branches, nodes, KVL, KCL, Ohm's law, and Delta-Wye transformations.Methods of analysis: You will learn how to analyze electric circuits using nodal analysis and mesh analysis.Circuit theorems: In this part, you will learn more advanced circuit analysis techniques such as the superposition theorem, source transformation theorem, Thevenin theorem, Norton theorem, and maximum power transfer.Operational amplifiers: You will be introduced to operational amplifiers including inverting, non-inverting, summing, difference, and cascaded amplifiers. These amplifiers are helpful in inverting or amplification or adding or subtracting different input signals.Capacitors and inductors: These components are really important in the electrical system and other applications. You will find inductors as a representation of electrical machines and capacitors that can be used in power factor correction.First-order circuits: These circuits are composed of resistors and inductors or resistors and capacitors. We will understand how to analyze them in the free and forced responses.Basics of AC circuits: AC power or alternating power is the one which we have in our homes. We will learn about them and what is the difference between them and AC circuits.Analysis of AC circuits: In this part, we will start analyzing our AC circuits with the different theorems that had been discussed at the beginning of the course.Resonant circuits: In this part, we will discuss both series and parallel resonant circuits, these circuits have a crucial effect on electric circuits as well as have practical applications.Electric circuit simulations using MATLAB: We will learn the simulation of many electric circuits in the well-known simulation program MATLAB Simulink. This will be a fun part that will increase your knowledge about electric circuits. All of these topics are in a step by step lessons with many solved examples. Bonus Gift: You will find also the slides for the Ultimate Electric Circuits Course Bundle for those who are interested in them or having them as a revision for themselves: 458 Pages of Electric Circuits Course Slides95 Pages of Electrical Resonance Course Slides Take this bundle if you've been looking for ONE COURSE BUNDLE with in-depth insight into the basics of electric circuits.

Advance your MEP career by mastering electrical system designs using Revit. This course equips experienced Revit users with the skills necessary to create and coordinate effective, professional electrical designs within a Building Information Model (BIM).

Your business’ success in Azure relies on least-privilege authorization for users and service principals. In this course, Microsoft Azure Security Engineer: Manage Access Control, you’ll learn to apply role-based access control (RBAC) to your Azure AD tenant and your subscription resources. First, you’ll explore how Azure implements authentication and authorization. Next, you’ll discover how to use the built-in RBAC roles in Azure. Finally, you’ll learn how to define custom RBAC roles. When you’re finished with this course, you’ll have the skills and knowledge of least-privilege authorization needed to secure your Azure environment. This course covers some of the objectives from Exam AZ-500, Microsoft Azure Security Technologies.