Post Job

How to find a job with Electrical Systems skills

How is Electrical Systems used?

Zippia reviewed thousands of resumes to understand how electrical systems is used in different jobs. Explore the list of common job responsibilities related to electrical systems below:

  • Certified in Automotive brake and electrical systems and wheel alignment.
  • Make adjustments and minor repairs to heating, colling, ventilation, plumbing and electrical systems
  • Diagnose and repair computer controlled systems Electrical systems Suspensions Drive train components Differential Transfer cases Transmissions Hydraulic systems
  • Trained and experience with hydraulic and electrical systems, including all controls, hydraulic actuators, navigational system and stabilization systems.
  • Repaired and serviced air conditioning, heating, engine-cooling, and electrical systems of heavy-duty mobile equipment and refrigerated trailers.
  • Install, diagnose and repairs electrical systems and electronic components of systems installed in rental/vacation properties.

Are Electrical Systems skills in demand?

Yes, electrical systems skills are in demand today. Currently, 22,537 job openings list electrical systems skills as a requirement. The job descriptions that most frequently include electrical systems skills are general maintenance technician, lead mechanical technician, and electromedical equipment repairer.

How hard is it to learn Electrical Systems?

Based on the average complexity level of the jobs that use electrical systems the most: general maintenance technician, lead mechanical technician, and electromedical equipment repairer. The complexity level of these jobs is intermediate.

On This Page

What jobs can you get with Electrical Systems skills?

You can get a job as a general maintenance technician, lead mechanical technician, and electromedical equipment repairer with electrical systems skills. After analyzing resumes and job postings, we identified these as the most common job titles for candidates with electrical systems skills.

General Maintenance Technician

Job description:

General maintenance technicians are skilled technical professionals who are responsible for fixing and maintaining machines and equipment as well as general home appliances. These technicians are required to use hand or power tools to perform preventive maintenance of equipment while repairing or replacing defective parts. They must inspect company vehicles so that they can provide complete preventive maintenance services. General maintenance technicians must also perform maintenance on establishments such as carpentry, general repair, and pest control.

  • Electrical Systems
  • Plumbing
  • HVAC
  • Ladders
  • Customer Service
  • Absorbers

Lead Mechanical Technician

  • Customer Service
  • Electrical Systems
  • Preventative Maintenance
  • Safety Procedures
  • Hand Tools
  • OSHA

Electromedical Equipment Repairer

Job description:

The primary role of electromedical equipment repairer is to repair medical equipment such as x-rays and computerized tomographic scanners. They check for the origin of the malfunction, disassemble the equipment, replace the malfunctioning part, and recheck for the performance once again before meticulously transporting it to the hospital or diagnostic center. They are also responsible for creating scheduled maintenance, including cleaning and adjusting the equipment used. They also train staff on the proper usage of the instrument.

  • Electric Motors
  • Electrical Systems
  • Utilities Equipment
  • MOS
  • Switches
  • Electrical Test Equipment

Aircraft Electrician

Job description:

An aircraft electrician specializes in installing and repairing electrical systems in an aircraft, ensuring quality and efficiency. Their responsibilities typically include running diagnostic tests and examinations, troubleshooting problems, replacing and fixing components, understanding diagrams, and keeping records. There are also instances where they must solder wires, climb up high places, and perform regular maintenance checks. Moreover, an aircraft electrician typically works in a team setting, which requires an active communication line for an efficient and safe workflow.

  • Electrical Systems
  • Hazardous Materials
  • Diagnose Malfunctions
  • Switchboards
  • Hand Tools
  • Troubleshoot

Solar Photovoltaic Electrician

  • Electrical Systems
  • Electrical Components
  • NEC
  • Service Calls
  • Trouble Shoot
  • Solar Installation

Light Wheel Mechanic

Job description:

A light wheel mechanic is responsible for maintaining the optimal performance and efficiency of light-wheeled vehicles used for industrial operations, especially in a military setting. Light wheel mechanics inspect the condition of the vehicle's engine, perform preventive maintenance, replace defective components, assemble upgrade systems based on schematics and blueprints, and create resolution reports for reference. They must have excellent knowledge of the auto-mechanic industry to determine faults and identify repairs, avoiding delays, complications, and hazards during operations.

  • Mechanical Problems
  • Electrical Systems
  • Equipment Systems
  • MOS
  • Track Vehicles
  • AIT

Flight Test Mechanic

  • Electrical Systems
  • Ground Support Equipment
  • Aircraft Structures
  • Hydraulic Systems
  • Aircraft Systems
  • Flight Control

Repairer

Job description:

The job of a repairer is general maintenance of machinery, general repairs, and routine fixing. They have a very wide range of jobs depending on the organization or workplace. Their work is to perform work involving the skills of two or more maintenance or craft occupations.

  • Patrol
  • Electrical Systems
  • MOS
  • Bulldozers
  • Test Equipment
  • Hydraulic Systems

Nuclear Operator

Job description:

Nuclear operators are skilled professionals who are responsible for controlling the flow of electricity that is generated by a nuclear power plant. These operators are required to maintain preventive maintenance items that are essential to the safety and efficient operations of the nuclear power plant. They must use proper protective equipment and clothing since they will be performing work in radiological controlled areas. Nuclear operators must also manage multiple operators to ensure the safe operation of all primary and secondary plant systems.

  • Electrical Equipment
  • Prototype
  • Electrical Systems
  • Radiological
  • Test Equipment
  • Naval Nuclear

Diesel Mechanic Apprentice

Job description:

A diesel mechanic apprentice works under the directives and supervision of a diesel mechanic. They primarily perform support tasks to assist diesel mechanics in repairing vehicles that use diesel engines and gain practical experience and insights along the way. Their duties usually include setting-up work areas, preparing tools and equipment, gathering and organizing work orders and other documentation, monitoring supply inventories, purchasing orders according to guidelines, and performing basic repairs and tests. Moreover, a diesel mechanic apprentice must keep an open and transparent line of communication with co-workers for an efficient workflow.

  • CDL
  • Hand Tools
  • Electrical Systems
  • Preventative Maintenance
  • Hydraulic Components
  • Diagnostic Equipment

Bonded Structures Repairer

  • Fixed Wing Aircraft
  • Safety Procedures
  • Electrical Systems
  • Technical Manuals
  • Combat
  • MOS

Electrician Supervisor

  • Electrical Systems
  • Electrical Equipment
  • Safety Procedures
  • Ladders
  • Control Systems
  • OSHA

Field Electrical Engineer

Job description:

Buildings must be safe especially in term of wirings for electricity. This aspect is the main job of a field electrical engineer. Possessing enough mathematical, chemistry and physics knowledge, they work hand in hand with construction workers to develop safe and equitable electrical system of any building. They also test machines for any defect and design and develop new systems to further enhance safety. They have the necessary ability to solve any damage to equipment.

  • Electrical Systems
  • Oil Gas
  • Control Systems
  • Start-Up
  • Design Drawings
  • Technical Direction

Master Automotive Technician

Job description:

A master automotive technician is an expert in auto repair work. This position is also known as an automotive master mechanic, and the primary qualification for this position is a certification from an automotive service institute. Their job duties include overseeing and signing off on repairs done by the other mechanics, taking automobile components apart, inspecting parts of the automobile, making repairs where necessary, reviewing work orders, and communicating with both the clients and the management. Sometimes, they specialize in particular areas.

  • Diagnosis
  • Electrical Systems
  • ASE
  • Customer Service
  • Mechanical Repairs
  • AC

Electrical Assistant

  • Switches
  • Electrical Systems
  • Light Fixtures
  • Circuit Breakers
  • Electrical Components
  • Electrical Outlets

Mechanic/Manager

  • Plumbing
  • Direct Reports
  • Electrical Systems
  • Cost Estimates
  • Mechanical Systems
  • Business Development

Electrical Research Engineer

Job description:

The electrical research engineers are responsible for conducting research, designing and developing new and innovative electrical products or systems, and evaluate them to improve existing technical processes. They have strong analytical and critical thinking skills and professional competency to perform intensive research and collaborate on standards for procedures, and design testing methods to identify problems and solutions. Being an electrical research engineer is essential to a company since the job involves innovation and development processes.

  • C++
  • Electrical Systems
  • MATLAB
  • Power Electronics
  • ISO
  • Autocad

Junior Mechanic

  • Hand Tools
  • Electrical Systems
  • OSHA
  • Ladders
  • Light Fixtures
  • Preventive Maintenance

Solar Designer/Installer

  • CAD
  • Customer Service
  • Electrical Systems
  • Design Changes
  • Design Plan
  • AV

Electrical Systems Designer

  • Autocad
  • PLC
  • Electrical Systems
  • Electrical Design
  • Allen-Bradley
  • Electrical Equipment

How much can you earn with Electrical Systems skills?

You can earn up to $37,463 a year with electrical systems skills if you become a general maintenance technician, the highest-paying job that requires electrical systems skills. Lead mechanical technicians can earn the second-highest salary among jobs that use Python, $84,323 a year.

Job TitleAverage SalaryHourly Rate
General Maintenance Technician$37,463$18
Lead Mechanical Technician$84,323$41
Electromedical Equipment Repairer$48,102$23
Aircraft Electrician$54,605$26
Solar Photovoltaic Electrician$61,679$30

Companies using Electrical Systems in 2025

The top companies that look for employees with electrical systems skills are Army National Guard, CDM Smith, and Bridgestone. In the millions of job postings we reviewed, these companies mention electrical systems skills most frequently.

Departments using Electrical Systems

DepartmentAverage Salary
Plant/Manufacturing$53,031
Facilities$50,323

15 courses for Electrical Systems skills

Advertising Disclosure

1. Electric Power Systems

coursera

This course familiarizes you with standards and policies of the electric utility industry, and provides you with basic vocabulary used in the business. It introduces the electric power system, from generation of the electricity all the way to the wall plug. You will learn about the segments of the system, and common components like power cables and transformers. This course is for individuals considering a career in the energy field (who have a high school diploma, at minimum, and basic knowledge of mathematics), and existing energy sector employees with less than three years of experience who have not completed similar training and would benefit from a course of foundational industry concepts. The course is a combination of online lectures, videos, readings and discussions. This is the first course in the Energy Production, Distribution & Safety specialization that explores various facets of the power sector, and features a culminating project involving creation of a roadmap to achieve a self-established, energy-related professional goal. To learn more about the specialization, check out a video overview at https://www.youtube.com/watch?v=2Yh9qIYiUDk...

2. Renewable Power and Electricity Systems

coursera

The energy revolution in underway. Renewable energy is growing at an astounding pace - notably in electricity. Wind turbines and solar photovoltaic (PV) systems account for most new power plants built worldwide, and are essential to building a low-carbon and sustainable energy future. As a result, there are countless new opportunities in renewable electricity. This course provides a solid grounding in the basics of renewable electricity. We'll start with how electricity is measured, how electricity systems operate, and how renewable technologies like wind turbines and solar PV work. We'll then cover technical and market fundamentals: how and why renewables are driving change in electricity systems worldwide, how electricity systems are changing to accommodate all these new renewables, and what that all means for those seeking to understand and participate in the global transformation of electricity systems. This global transformation is just beginning; with knowledge gained from this course you'll be ready to jump on board. Course logo image credit: "Wind Turbine" icon courtesy of Vectors Point from the Noun Project...

3. Electrical Control & Protection Systems

udemy
4.6
(1,763)

Electrical control & 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 complex systems. 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. Provide the 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/s By the end of the course the student will 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...

4. Revit MEP - Electrical systems

udemy
3.9
(186)

In this course we will focus on using Revit to model, design, and compute electrical systems. You will learn to work collaboratively with other disciplines related to the design and construction of buildings.#AulaGEODuring the development of the course we will pay attention to the necessary configuration within a Revit project to be able to execute electrical calculations. We will show you how to work with circuits, boards, voltage types and electrical distribution systems. You will learn how to extract data from circuits and create dashboard views that balance design loads. Finally, we will show you how to create detailed reports of parts, conductors and electrical pipes. The AulaGeo team worked hard on this course. It was developed in Spanish by Enzo, voiced by Gabriella for English speaking students. ContentIntroductionLecture 1: IntroductionLecture 2: Electricity templatesLecture 3: Link external modelsLightingLecture 4: Efficient lighting designLecture 5: Spaces and lightingLecture 6: Reflected ceiling viewLecture 7: Lighting analysisLecture 8: Lighting fixturesLecture 9: Light switchesLecture 10: Annotation symbolsPowerLecture 11: Create circuitsLecture 12: Electric ConectorsLecture 13: Transformers and boardsLecture 14: Power distribution systemsLecture 15: Conduits and cable traysLecture 16: Configuration of electrical pipesLecture 17: Placing conduits on a modelLecture 18: Place cable trays on modelLecture 19: Electrical configurationsLecture 20: Wiring configurationLecture 21: Voltage configuration and distribution systemsLecture 22: Set up load calculation and dashboard viewLecture 23: Create circuits and wiringLecture 24: Manual cable creationLecture 25: Circuit PropertiesLecture 26: Board PropertiesLecture 27: Circuit tablesConclusionLecture 28: Farewell...

5. Construction Site Electrical System Design

udemy
4.6
(454)

When you have finished this course you will be understand how an electrical system can be designed for any construction site. The course will go into detail on the following areas:-  Introduce the principles of operation for a site electrical system, why they need to be designed in a certain manner to achieve a system that is safe, durable & cost effective. Look at the key elements of the electrical system including the generation and distribution systems, grounding, residual current devices & cabling Show how a lock and tag system can be used to make the system safe for all users. Show how to size electrical cables based on the current carrying capacity and volt drop. Provide basic guidelines of how to size circuit breakers & generators The course consists of short videos on each key subject with questions provided at the end of each section to test your knowledge...

6. Electrical Control & Protection Systems part 2

udemy
4.7
(718)

The aim of this course is to introduce all of the basic principles associated with these complex systems. 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 and outline 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 the end of the course the student will 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...

7. Electrical Low Voltage System Distribution Design

udemy
4.6
(421)

This course is dedicated to students looking to acquire electrical low-voltage power design experience from scratch. This course covers low voltage distribution system design-related topics for a total duration of 10 hours. Essentially, the course begins section 1 by introducing the well-known drawing software AutoCAD and emphasizing its different toolbar options to prepare the student to be familiar with its use. Consequently, lighting design and lux calculations using DIALux software are fully explained in section 2 to prepare the lighting distribution system that will be explained and designed as a following step in section 3. After that, lighting & power systems distribution are covered in sections 3 & 4, which in turn prepares the student to understand how to gather information and calculate the total connected loads following the lighting and power designed layouts to be reflected in the panel schedules and single line diagrams which will be explained in the 5th section of this course. Once reaching this stage of the course, you will have to perform a range of low voltage system-related calculations of sizing Transformers, Generators, Cables, Circuit Breakers, calculations of voltage drop and short circuit current levels & power factor correction to ensure a safe design for the entire system for the aim of reflecting the calculated values in the single line diagram of the project. All these calculations will be explained separately in detail using simple steps that you can apply manually and with the help of predefined Excel sheets for solving different formulas in section 6. The last section of this course covers the earthing & lightning system topics, emphasizing their different types, components & the appropriate methods to design these systems following international standards. Furthermore, design topics in this course are explained by exploring pictures of different electrical equipment installed on the site to clarify the bond between the design and real site installations. Besides, the course is enhanced with a variety of helpful resources that are attached to it. In a nutshell, the sections of this course are arranged in ascending relevant stages, starting from section 1, which introduces AutoCAD, and finalizing the course by explaining the earthing & lightning systems which could be designed in the last stages of the design...

8. Ultimate Electrical Power System Engineering Masterclass

udemy
4.4
(69)

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...

9. Electrical Engineering: Introduction to Signals and Systems

udemy
3.9
(63)

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...

10. ETAP Power System Analysis For Electrical Engineers

udemy
4.3
(1,061)

Want To Become Expert In ETAP Software and Power System? This course will help you to achieve your goals to become ETAP and Power System Expert. Welcome to the course ETAP Power System Analysis For Electrical EngineersETAP is an analytical engineering software which is helpful for an electrical engineer to simulate and analyze the steady state and dynamic power system. It is used by various sectors such as Generation, Transmission, Distribution, Industrial, Transportation and Low voltage. The purpose of this course is to learn power system modeling & analysis using ETAP software which will cover a range of ETAP functionalities used to design & solve various power system practical problems. The course will begin with the software overview, basics of one-line diagram creation, data entry, and quickly expands the users' knowledge to include methods to automatically perform multiple 'what if' studies using multiple scenarios. Wherever possible, the topics are explained with hand calculations and results are compared with ETAP software so that it becomes more easier to the attendees to understand the concepts. Below major topics are covered in this course: Load Flow Analysis With Supporting Hand CalculationsCable Ampacity and SizingTransformer MVA SizingShort Circuit Analysis With Supporting Hand CalculationsProtection & Coordination AnalysisArc Flash Analysis Using IEEE 1584-2002 StandardMotor Starting AnalysisDynamic Motor Starting Static Motor StartingStar-Delta Motor StartingAuto-Transformer Motor StartingImpedance Method for Voltage Drop CalculationTransient Stability AnalysisLoad AdditionLoad RejectionFaulted TransientsMultiple Generator Transient StabilityUnder-Frequency Load SheddingD-Q Axis ModellingSwing Equation DerivationDerivation of InertiaHarmonic AnalysisGround Grid AnalysisBenefits of attending this course: Course is published using ETAP 19.5 and ETAP 20.6ETAP software generated results are supported with Hand CalculationsDownloadable course material and Hand CalculationsWhat Our Learner Says: We have received so many five (5) star ratings for the course. Below is what our learners say:1) Brian BlakeExcellent quality and content from the lectures in the videos. I love that they have examples too.2) Bruce Kgothatso SekataneThis was a well-presented course and will really be helpful in my next project.3) Sindisiwe NgcoboThis course is out of this world. I am enjoy every section discuss. After completing my undergraduate degree, I had a stint opportunity to learn designing but not in details. For four years I have been researching and learning design concept from many resources without better understanding. after going through this course, I had an online interview with a large company for an Electrical Design Engineer. They were very impressed the way I responded to all the questions and was hired. I have no doubt that in whatever situation that I will face with everything that I am learning in this course I will succeed. The goal of being a Consultant and starting a company will surely be accomplished. This is the best ever course been design specifically for Electrical Design Engineer. The Instructor is very informative. Thank you Sir, I still have to do Short Circuit Studies, Protection Coordination, Motor Starting Study, Harmonic Study and Transient Stability and more.4) Tan Wen HaoAlthough I have experience using ETAP, I still learned new things from this course. Look forward to an advanced course with examples for hands on practice. Good job and well done!5) Okechukwu EzeabaThis course is awesome. It is the best ETAP course I have seen on Udemy. Highly recommended for anyone interested in electrical power system studies...

11. Electric Vehicle Battery Management System - Course

udemy
4.2
(398)

This course has been specifically designed for battery management systems and Electric Vehicle Battery Modelling. This course is going to cover the conceptual part, mathematical modeling, Battery Design, Battery modeling & simulation using MATLAB. This course covers in detail the study of lithium-ion batteries. It contains various form factors of the batteries, all the lithium-ion chemistry is discussed and the assembling of the batteries is covered. You will be learning various configurations of the batteries and getting a clear understanding of the configuration design of a Battery pack design. This course covers battery management systems from the basic level. You will learn about various features of BMS in more detail. It covers Cell balancing and State of Charge estimation. It also teaches you how to select an IC for designing a Battery management system. The thermal management system is the most critical part of an EV battery. This course discusses various techniques used in the industry for cooling an Electric vehicle battery Pack. Overview1. Funtamentals of BatteriesEnergy Storage solutions. History of Battery Technology. Future Scope. General Architecture. Course Introduction.2. Commercial Battery MarketBattery Terminologies. Stress Factors. Factor Tuning. Cell Types & Chemistries. Cell selection3. Introduction to Battery Pack DesignElectrical DesignMechanical DesignThermal DesignElectronics DesignBattery Sizing4. Introduction to BMSBasics of BMSArchitectureFundamentals5. Control TheoryBasics of Control Mechanism.6. Algorithm Development - ISoCSoHColumb CountingSimulink7. Algorithm Development - IIAdvance SoCSoHKalman FilterSimulink8. Introduction to Machine LearningML AlgorithmsSoC & SoHNeural Networks ModellingSimulink...

12. Electric Manual Control for real Industrial Automatic System

udemy
4.7
(153)

Hi Our Friend! Looking to improve your career in Industrial Automation  track  and being able to design a complete project? >> If your answer is big YES, then you're definitely in the right place. Why this course is Powerful and Unique ? this course is the first one on udemy platform and on most of educational platforms which can get you from academical information to the real world career as it gets you - step by step - to understand how to be able to built a complete control system (calculation for each component , and designing power and control circuit for it).  At this course : These tracks would be like a piece of cake to you. We'll take you from the Scratch to a HIGHER level of Designing and Analysis. We'll design with each other a complete industrial system used in the practical life. My help is always available to you if you get stuck or have a question as I believe we can learn from each other## So don't hesitate and click  Buy Now  button so you can begin on the right path! Who is the target audience?Anyone who is interested in Understanding Control system. Anyone who wants to know about electrical basics and How sensors work. Electrical Engineering Students. Anyone who wants to be familiar with Industrial Automation and Control. Anyone understands control but can't design a complete control system. Anyone wants to learn about Automatic transfer switch and voltage monitoring relay. Anyone who is interested in overloading and short-circuit protection...

13. Car Repair Electrical Systems and Automotive Theory 2023

udemy
4.2
(110)

Welcome to our comprehensive Car Electrician Training course! This course is specifically designed to provide you with the knowledge and practical skills you need to become a successful car electrician. We'll guide you through the basics of electricity and the complexities of car tuning so you can master the art of car repair. This course is perfect for beginners who are looking to learn the fundamentals of car electrician training, as well as for seasoned professionals who want to advance their knowledge in the field. Throughout the course, you'll gain a deep understanding of electrical systems and their components, and you'll learn how to diagnose and fix common problems. The course is structured in a way that is easy to understand and follows a logical progression. We start with the basics of electrical theory and move on to the more advanced topics of car tuning and repair. Along the way, we'll provide you with practical, hands-on exercises to help you develop your skills. The first module of the course covers the basics of electricity. You'll learn about Ohm's Law, electrical circuits, and the principles of voltage, current, and resistance. You'll also gain a thorough understanding of the components that make up an electrical system, such as batteries, alternators, and starters. The second module covers the most important tools and equipment that you'll need as a car electrician. You'll learn about the different types of multimeters, oscilloscopes, and diagnostic tools, as well as the various types of wire and cable that are used in electrical systems. The third module covers car tuning. You'll learn how to diagnose and fix common electrical problems such as alternator failure, battery drain, and starter issues. You'll also learn about advanced topics such as wiring harnesses, grounding, and circuit protection. The fourth module is dedicated to car repair. You'll learn how to diagnose and fix common mechanical problems, such as engine failure, transmission issues, and suspension problems. You'll also learn about the different types of tools and equipment that are used in car repair, as well as safety procedures that are essential when working on cars. The final module of the course covers the business side of car electrician training. You'll learn about how to set up a successful car electrician business, including marketing, pricing, and customer service. You'll also learn about the different types of certifications and licenses that are required to operate a car electrician business, as well as legal and financial considerations. By the end of the course, you'll have the skills and knowledge you need to become a successful car electrician. You'll be able to diagnose and fix common electrical problems, tune a car for optimal performance, and perform advanced repairs on all types of vehicles. You'll also have a solid understanding of the business side of car electrician training, which will help you build a successful career in this exciting field. Enroll today and take the first step towards becoming a skilled car electrician!...

14. Electric Power Metering for Single and Three Phase Systems

udemy
3.8
(78)

This course concentrates on the electricity meter, electric meter, electrical meter, energy meter, or kilowatt-hour meter which is a device that measures the amount of electric energy consumed by a residence, a business, or an electrically powered device. Electric meter or energy meter measurements, the total power consumed over a time interval are examined. From the Electric utility perspective, electric meters installed at customers' premises for billing and monitoring purposes are examined. The typical calibrated in billing units are developed, the most common one being the kilowatt-hour (kWh) and how they are read once each billing period. If desired, some meters may measure demand, the maximum use of power in some interval. Time of use metering allows electric rates to be changed during a day, to record usage during peak high-cost periods and off-peak, lower-cost, periods. Single-phase and three-phase metering measurements are also covered. Learning Outcomes: Graduates of this course will be familiar with: What is Electric PowerAC & DC PowerVoltage Current, & Power Vectors (Phasors)Capacitive & Inductive LoadsReal Reactive & Apparent Power (Watts, Vars, VA)The Dynamometer WattmeterThe Energy MeterInstrument Transformers (Current & Voltage CT's & PT's)3-Wire, Single-Phase MeteringPolyphase Energy Meters3-Wire, Single-Phase Metering with CT's & PT'sMetering a 3 Phase 4 Wire Load (Y Connected)Metering a 3 Phase 3 Wire Load (Delta Connected)Metering Measurement StandardsBlondel's Theorem Phase & Line Relationship...

15. The Basics of Household Wiring. The Electrical System A to Z

udemy
4.5
(3,294)

After completing this course, students will have a solid knowledge of the fundamentals of electricity and how it functions within the home, including how electricity is generated, transmitted to, transformed, and how it enters the home through the power meter, the main breaker, and the branch circuit breaker panel.  From there we cover in detail all types of receptacles, switches, and light fixtures, and how to correctly wire them.   Safe practices are covered in detail, including the use of circuit testers.  The course includes an in-depth look at rough-in wiring, and explains the role, use and importance of ground fault circuit and arc fault circuit protection. At the end of the course the student will know how to take on most small electrical projects and repairs around the home, both safely and competently...