Courses

Automotive Service Technicians and mechanics, often called service technicians, maintain and repair light vehicles and heavy vehicles. Present course content provide the deep knowledge of the skill required to be an automotive service technician for a four wheeler and aimed at training learners to be an skilled technician in automotive sector, this course cover all the aspects from roles and responsibility of a technician, job opportunities in automobile sector and detail description of the components of a four wheeler with aspects of tool handling, fault diagnosis and troubleshooting and service and repair of the vehicle.

Diagnose and troubleshoot a non-functioning plate light system in a 2019 Ram 1500 pickup truck through this 52-minute automotive repair video. Follow along as a professional technician investigates a customer complaint where newly replaced factory LED plate lights still fail to illuminate, quickly identifying a broken wire as the root cause. Learn systematic diagnostic approaches and cost-effective repair strategies while observing real-world problem-solving techniques used in professional automotive electrical troubleshooting. Gain insights into common wiring issues in modern pickup trucks and discover practical methods for locating and addressing electrical faults in vehicle lighting systems.

Learn automotive electrical harness design from an engineer with more than 18 years experience What you'll learn: Electrical Harness Design Process from A to ZElectrical Harness Manufacturing ProcessElectrical Harness materials and components in automotiveHarness design rules, requirements and challengesThe basics for selecting harness components like: connectors, wires, relays, fuses, splices and othersPractice projects where we implement what we learnMany other concepts and secrets in automotive electrical harness designLearn how to create a portfolio, CV and how to conduct yourself at an interviewAdvices and info for the Electrical Harness Design interview HiMy name is Alex, and I am a Design Engineer.I have been working for more than 18 years with Catia V5 in automotive engineering, racing and industrial design.All the knowledge and experience that I gained helped me work with companies likeFerrari Formula One Team, Red Bull Racing, Jaguar Land Rover, Aston Martin and othersIn this course I will show you how to design electrical harnesses for automotive companies.I will explain what is the design process for electrical harnesses and what materials and components are being used.I will also explain what are the design rules and what requirements automotive companies have for harness designNext, I will reveal what is the criteria for selecting electrical components for harnesses like: connectors, pins, wires, relays, fuses, splices and othersAfter all this theory we will design a few CAD projects where we implement everything we learned and I will give you a few assignments and challenges.After the projects we will make a few small projects to touch on more harness design techniques that you need to knowI design with Catia V5 but you can design this in any other CAD software as I provide step files.In the last section of the course, we discuss about how to tailor your CV, how to conduct yourself at an interview and how to create a portfolioWith all of this said. This course is a cheat code.To be able to take chance on opportunities you need experience, and experience is built only with practice.Thanks for watching this video and see you in the course.

Learn Catia V5 from a design engineer with more la 18 years experience in automotive, racing and industrial design What you'll learn: Catia V5 Electrical Part Design WorkbenchCatia V5 Electrical Assembly Design WorkbenchCatia V5 Electrical Harness Installation WorkbenchCatia V5 Electrical Harness Assembly WorkbenchElectrical Components Theory for Industrial DesignElectrical Components and Materials for Automotive HarnessesElectrical Components and Materials for Motor Sport and Formula One HarnessesProjects made from scratch with Real Job Experience and AdviceCatia V5 Electrical Harness Flattening Quick Tutorial My name is Alex, I’m a design engineer and I have been working for over 15 years with Catia V5 in Automotive, Racing and Industrial Design.I have been working with companies like: Ferrari Formula One Team, Jaguar Land Rover, Red Bull Racing and Aston Martin.Catia V5 is easy to learn. But learning how to use it with some real job experience is the real secret.In this course you will learn the following 4 Catia V5 workbenches that will make you able to design Electrical Harnesses for different industries but especially for the Automotive and Moto-Racing Industries.Catia V5 Electrical Part Design WorkbenchCatia V5 Electrical Assembly Design WorkbenchCatia V5 Electrical Harness Installation WorkbenchCatia V5 Electrical Harness Assembly WorkbenchOn top of the Catia V5 teachings I have made videos where you will learn a lot of theory about materials components and experience about how electrical harnesses are built.Electrical Components Theory for Industrial DesignElectrical Components and Materials for Automotive HarnessesElectrical Components and Materials for Motor Sport and Formula One HarnessesProjects made from scratch with Real Job Experience and AdviceYou need to know Catia V5 Part Design and Assembly design to be able to study this course.You need to know Catia V5 Part Design and Assembly design to be able to study this course.

Watch an automotive diagnostic video where a mechanic examines a Dodge Journey experiencing traction light issues and immobility problems that another shop diagnosed as requiring a new ABS pump and module. Follow along as the technician challenges the initial diagnosis and demonstrates alternative repair approaches, ultimately choosing to fix the existing system rather than replace expensive components. Learn diagnostic techniques for ABS system troubleshooting, understand the importance of thorough problem analysis before recommending costly part replacements, and discover how proper diagnostic skills can save customers significant money. The case study emphasizes the value of seeking second opinions when repair recommendations seem excessive and showcases real-world problem-solving in automotive electrical systems.

Learn how to install a battery maintainer system to prevent battery drain in vehicles that sit unused for extended periods. Follow along as an automotive technician helps a customer whose car may remain parked in a garage for months at a time, addressing the common problem of batteries dying after 3-4 months of non-use. Discover the step-by-step process of installing a new battery and setting up a battery maintainer system to keep the vehicle ready for occasional use. Gain practical insights into automotive electrical systems, battery maintenance, and preventive measures for long-term vehicle storage through real-world troubleshooting and installation techniques demonstrated in a professional repair shop setting.

Explore a 23-minute video tutorial on modelling electrical systems in control systems. Learn to convert electrical networks into equivalent Signal Flow Graphs (SFG) using a shortcut method. Dive into a solved example demonstrating the conversion process, and tackle homework problems to reinforce your understanding. Gain valuable insights into the modelling of electrical networks and their representation through SFGs, enhancing your knowledge of control systems and electrical engineering concepts.

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 to diagnose and repair an inoperative blower motor in a 2016 Jeep Wrangler through systematic troubleshooting techniques. Follow along as an experienced automotive technician demonstrates the diagnostic process for a customer's vehicle with a non-functioning HVAC blower motor. Discover how simple electrical checks and methodical data gathering lead to identifying the root cause of the problem. Master the fundamental approach of collecting diagnostic information before making repair decisions, emphasizing the importance of thorough testing over assumptions. Gain practical insights into automotive electrical systems and HVAC components while observing real-world repair scenarios in a professional shop environment.

Explore automotive electrical troubleshooting in this 48-minute diagnostic video featuring a 2016 Honda Accord with non-functioning low beam headlights. Follow along as the technician traces the electrical issue and discovers poorly executed previous repair work that created a chaotic wiring situation under the hood. Learn proper diagnostic techniques for headlight circuits while witnessing the consequences of substandard automotive repair practices. Gain insights into professional troubleshooting methods and see firsthand why quality workmanship matters in automotive electrical repairs.

Follow along with this automotive diagnostic video as a professional mechanic troubleshoots a persistent hood ajar warning and disabled start/stop system on a 2019 Dodge Durango. Learn the systematic approach to diagnosing electrical issues when the obvious solution - replacing the hood latch with an OEM part - fails to resolve the problem. Watch as the mechanic demonstrates proper diagnostic techniques, uses professional-grade tools to trace the root cause, and provides a step-by-step repair process that goes beyond the surface-level fix the customer initially attempted. Gain insights into why simply replacing parts without proper diagnosis often leads to continued problems, and discover the methodical troubleshooting process that professional technicians use to identify and resolve complex automotive electrical issues. The video showcases real-world problem-solving skills essential for anyone working on modern vehicle systems, particularly those involving integrated warning systems and engine management features.

Learn the Car Repair from Beginner to Professional Level ! Car Mechanic, Car Tuning, Electrician, Automotive Engineering What you'll learn: Car Repair for Everyone !Engine Types and their working Principles (2 Stroke,4 Stroke and others)Understanding Car Repair PrinciplesWorking Principle of Automobile SensorsKnowing how to perform a basic car tune-up.Understanding the fundamentals of car suspension and steering systems.The Advanced Introduction to Manual Transmission Working PrinciplesSemi-Clutch and DCT TransmissionCar Chassis TypesUnderstanding the importance of car safety and how to perform basic car safety checks.Electronic Components of Car and Their Working Principle (Relays, Fuses, Switches and other components)Automobile Engine and Body Train SensorsIdentifying the different parts of a car and their functions.Electrical Engineering Training for Car MechanicsLearning how to diagnose common car problems.Understanding the basics of engine maintenance.Learning about the different types of car batteries and their maintenance.Car Suspension TypesUnderstanding the basics of car electrical systems.Deep understanding of Car Repair and Car Electronic ComponentsKnowing how to diagnose and fix common electrical problems.Learning about car brakes and how to diagnose and fix brake issues.Electrical Side of Car RepairKnowing how to diagnose and fix common suspension and steering problems.Car Engine Control Unit (Electronic Control Unit) Working PrincipleHow to diagnose and fix common car heating problems.Learning about car audio and entertainment systems.Learning about car alarm and security systems.Learning about hybrid and electric car systems.and other awesome topics ! -->> *Get the Official Certificate after Completing the CourseAre you tired of constantly being stuck in a dead-end job with no room for growth or advancement? If so, now is the time to take control of your future and invest in your career. With online car repair training, you can become a skilled auto mechanic in just a few short months and kickstart your journey to a successful and fulfilling career ! You are probably taking this course for one of two reasons. Either you are preparing yourself to enter into the field of automotive service, or you are expanding your skills to include automotive electrical systems. In either case, congratulations on selecting one of the most fast-paced segments of the automotive industry. Working with the electrical systems can be challenging, yet very rewarding; however, it can also be very frustrating at times. For many people, learning electrical systems can be a struggle. It is my hope that I am able to present the course to you in such a manner that you will not only understand electrical systems, but will excel at it. There are many ways the theory of electricity can be explained, and many metaphors can be used. Some compare electricity to a water flow, while others explain it in a purely scientific fashion. Everyone learns differently. I am presenting electrical theory in a manner that I hope will be clear and concise. If you do not fully comprehend a concept, then it is important to discuss it with your instructor. Electricity is somewhat abstract; so if you do have questions, be sure to ask me in Udemy ask section.Why Become an Electrical System Technician? In the past, it was possible for technicians to work their entire careers and be able to almost completely avoid the vehicle’s electrical systems. They would specialize in engines, steering/ suspension, or brakes. Today, there is not a system on the vehicle that is immune to the role of electrical circuits. Engine controls, electronic suspension systems, and anti-lock brakes are common on today’s vehicles. Even electrical systems that were once thought of as being simple have evolved to computer controls. Headlights are now pulse-width modulated using high side drivers and will automatically brighten and dim based on the light intensity of oncoming traffic. Today’s vehicles are equipped with twenty or more computers, laser-guided cruise control, sonar park assist, infrared climate control, fiber optics, and radio frequency transponders and decoders. Simple systems have become more computers reliant. For example, the horn circuit on the 2008 Chrysler 300C involves three separate control modules to function. Even the tires have computers involved, with the addition of tire pressure monitoring systems!Today’s technician must possess a full and complete electrical background to be able to succeed. The future will provide great opportunities for those technicians who have prepared themselves properly and learn more with this Car Mechanic Course.On the off chance that you're not especially precisely slanted, you might watch the people who are with appreciation, surprise, and irritation since they have something you don't: a comprehension of how things work and how things fit together. Whenever they dismantle something, they can reassemble it how it was. Whenever they say that they need to investigate the hood, they can really get the darn thing open. Furthermore, when they need to change a level, they don't endure ten minutes attempting to sort out which end of the raise is.Fortunately, you don't need to be brought into the world with a wrench in your grasp to know how to fix things — even things as apparently convoluted as a vehicle. I know; I've been there. The Introduction fills you in regarding my car revelation.The Best Way to Learn Car Repair is start with this Auto Mechanic Course.Obviously, the easiest errands can once in a while be the greatest obstacles to survive. All things considered, in the event that you couldn't actually sort out some way to open the hood, how might you check the oil or the coolant level? That is the reason I start this course with the essentials: straightforward positions that you'll have to do over and over — like opening the hood, lifting a vehicle, and replacing a tire. I likewise incorporate guidelines for filling the gas tank yourself (it's less expensive than full-administration), a reliable technique for dismantling anything and assembling it back once more, and security pointers that each technician — experienced and amateur — ought to notice.

Watch a detailed automotive diagnostic video where a technician troubleshoots a 2019 Nissan Sentra SV with an illuminated check engine light that stumped another repair shop. Follow along as the mechanic systematically traces electrical circuits to locate and identify a broken wire causing the engine management issue. Learn diagnostic techniques, wire tracing methods, and problem-solving approaches used in professional automotive repair when dealing with intermittent electrical faults that can be challenging to pinpoint.

COURSE OUTLINE: The structure and load patterns of a power distribution system are significantly different than a transmission system. In addition, distribution systems are transitioning from passive to active with the adoption of distributed generation, storage, and smart-grid technologies. Therefore, the analysis tools developed for a transmission system will not be directly applicable to a distribution network. This course shall introduce the modeling of the components (feeders, distribution transformer, regulators, capacitors, loads, distributed generation, storage, etc.) and analysis methods (load flow, short-circuit, etc.), specially developed for the distribution system.

The structure and load patterns of a power distribution system are significantly different than transmission system. In addition, distribution systems are transitioning from passive to active with the adoption of distributed generation, storage, and smart-grid technologies. Therefore, the analysis tools developed for a transmission system will not be directly applicable to a distribution network. This course shall introduce the modeling of the components (feeders, distribution transformer, regulators, capacitors, loads, distributed generation, storage, etc.) and analysis methods (load flow, short-circuit, etc.), specially developed for the distribution system.INTENDED AUDIENCE: UG and PG Students, Distribution Utility Engineers, College Teachers, and Industry Professionals.PREREQUISITES:Power System Analysis.INDUSTRY SUPPORT:1. Power distribution utilities. 2. Load dispatch centers.3. Distribution system equipment manufacturers.

Explore electromagnetic fault injection (EMFI) techniques to bypass security measures in automotive Electronic Control Units (ECUs) in this Black Hat conference talk. Delve into a case study of a 2019 model year ECU, examining how EMFI can be applied without permanent modifications. Learn about the physical access requirements, open-source tools, and the specific vulnerabilities of PowerPC devices and Boot Assist Modules. Witness live demonstrations of power analysis and fault injection on ECUs, and understand the broader implications for automotive security. Evaluate the real-world threats, advanced techniques, and access valuable resources for further research in this cutting-edge field of automotive cybersecurity.

This course is designed to introduce learners to the critical role of embedded systems in automotive technology. Starting with foundational concepts and frameworks, the course progresses through the design, development, and implementation of embedded systems within vehicles. Learners will explore microcontrollers, software development, sensor integration, and the application of these systems to enhance vehicle functionality, safety, and performance. Through real-world examples and case studies, participants will understand how embedded systems are transforming the automotive industry. This course caters to Automotive Engineering Students, Entry-Level Embedded System Engineers, Technology Hobbyists intrigued by Automotive Applications, and Software Developers venturing into the Automotive Field. Whether you're a student delving into automotive technology, an engineer transitioning to embedded systems, or a hobbyist with a keen interest in automotive applications, this course provides a comprehensive introduction to the field. Participants should possess a basic understanding of programming concepts and be familiar with electronic components. An interest in automotive technology is essential, but no prior experience with embedded systems is required. Whether you're a novice programmer, an electronics enthusiast, or simply fascinated by automotive advancements, this course offers an accessible entry point into the world of embedded systems in automotive engineering. Throughout this course, learners will explore the functionalities and selection criteria of microcontrollers, essential components in embedded systems. Through a hands-on approach, participants will engage with programming and simulation tools, gaining practical skills applicable to real-world automotive projects. By analyzing case studies showcasing embedded systems in vehicles, participants will gain insights into the evolution and future prospects of automotive technologies, preparing them to contribute effectively in this dynamic field.

Modeling, control design, and simulation are important tools supporting engineers in the development of automotive systems, from the early study of system concepts (when the system possibly does not exist yet) to optimization of system performance. This course provides a theoretical basis to model-based control design with the focus on systematically develop mathematical models from basic physical laws and to use them in control design process with specific focus on automotive applications. You will learn the basics of mathematical modeling applied to automotive systems, and based on the modeling framework different type of controller and state estimation methods will be introduced and applied. Starting from a pure state-feedback concept down to optimal control methods, with special attention on different automotive applications. Different methods for state reconstruction is also introduced and discussed in the course. Exercises play an important rolethroughout the course. This course is aimed at learners with a bachelor's degree or engineers in the automotive industry who need to learn more about mathematical modelling of automotive systems.

Engine Lubrication Systems ; A subtopic in Automotive Engineering/ Automobile Engineering/ Engine Technology What you'll learn: Lube oil properties, Dipstick calibration, Lube oil terminology , System components, types of filtrationAll Automotive Engineering students. Automobile Engineering students Basic Functions of lubrication system-Six main functions of Lubrication subsystemsBasic components of lubrication system-Basic components of the lubrication systems Types of lubrication in IC engines-Pressure lubrication , Splash lubricationProperties of Lube oils-Flash point, pour point, viscosity, Viscosity index, Oil pressure signal in EnginesLube oil terminology-grades of lubrication , How to judge the grades of lube oil and climatic conditions in which the oil must be used Calibrate lube oil dipstick-When replacing a missing or defective dipstick, replace the engine oil and filters, installing the exact OEM specified quantity. Run the engine for a couple of minutes then shut down and leave for 10 minutes. Dip the oil sump with the new dipstick and scribe the high level graduation with an electric pencil. Measure the distance from the high-level to low-level graduations on the old dipstick and then duplicate on the replacement.Calibrate lube oil dipstick-When replacing a missing or defective dipstick, replace the engine oil and filters, installing the exact OEM specified quantity. Run the engine for a couple of minutes then shut down and leave for 10 minutes. Dip the oil sump with the new dipstick and scribe the high level graduation with an electric pencil. Measure the distance from the high-level to low-level graduations on the old dipstick and then duplicate on the replacement.Lubrication system-Fault diagnosis

Learn how to read electrical drawings, including blueprints, schedules, diagrams, and schematics.