Certified Electrical Engineering Professional
Why should you take this Certification?
This certification will make you Internationally Certified and will help in growing your career.
This certification will help you to get Job & Freelance opportunities from thousands of companies.
Average salary given to a Certified Electrical Engineer is around $60,000 per annum.
Exam Cost: USD 30.00 5 out of 5 based on 9632 ratings.become certified WhatsApp us share
What Is Electrical Engineering?
Electrical engineering is a branch of engineering concerned with the study, design, and implementation of electrical, electronic, and electromagnetism-based equipment, devices, and systems. After the commercialization of the electric telegraph, telephone, and electrical power generation, distribution, and consumption in the later half of the nineteenth century, it became a distinct occupation.
Computer engineering, systems engineering, power engineering, telecommunications, radio-frequency engineering, signal processing, instrumentation, photovoltaic cells, electronics, and optics and photonics are all examples of electrical engineering fields. Hardware engineering, power electronics, electromagnetics and waves, microwave engineering, nanotechnology, electrochemistry, renewable energy, mechatronics/control, and electrical materials science are only a few of the fields that overlap with other engineering branches.
Electrical engineers usually have a bachelor's degree in electrical or electronic engineering. Professional certification and membership in a professional association or an international standards organization are required for practicing engineers. The International Electrotechnical Commission (IEC), the Institute of Electrical and Electronics Engineers (IEEE), and the Institution of Engineering and Technology (IET) are among these organizations (IET).
Electrical engineers work in a wide number of industries, with a wide range of abilities necessary. These include everything from circuit theory to project management skills. Individual engineers may require a wide range of tools and equipment, from a simple voltmeter to sophisticated design and manufacturing software.
Since at least the early 17th century, electricity has piqued scientists' interest. William Gilbert was an early electrical scientist who was one of the first to distinguish between magnetism and static electricity. The term "electricity" is said to have been coined by him. He also created the versorium, which detects the presence of statically charged things. Johan Wilcke, a Swedish scientist, devised the electrophorus, a device that produced a static electric charge, in 1762. Alessandro Volta invented the voltaic pile, a precursor to the electric battery, in 1800.
Salary Range of An Electrical Engineer:
Depending on the experience level and the demographic area, the salary of an Electrical Engineer varies widely.
The following is the average Salary of an Electrical Engineer in USA:
|Best Minds In Electrical Engineering||$125,000|
|Senior Electrical Engineer||$ 100,000|
|Intermediate Electrical Engineer||$ 80,000|
|Electrical Engineering Freshers||$ 50,000|
The following is the average Salary of an Electrical Engineer in India:
|Best Minds In Electrical Engineering||INR 150,000|
|Senior Electrical Engineer||INR 60,000|
|Intermediate Electrical Engineer||INR 35,000|
|Electrical Engineering Freshers||INR 20,000|
What Is Electrical Engineering Certification?
Electrical Engineer Certification assesses a person's knowledge of the engineering concepts as well as their understanding of real world scenarios. A variety of certifying authorities, ranging from government agencies to commercial enterprises and organizations, offer the Electrical Engineer certification. Certifications are normally obtained by the completion of an online or offline exam.
All certificates have their own set of benefits, such as international recognition, career opportunities, freelancing, and so on. So, Electrical Engineer certification is an online exam that evaluates an engineer’s skills and knowledge in order to match them with the suitable opportunities.
Best Electrical Engineering Certification & why you should appear for it?
The online Electrical Engineer certification from Loopskill is considered to be best in market and will assist you in becoming a certified engineer. You can take this exam and by scoring 70% you will become an internationally certified Electrical Engineer. This certification will help you in three different ways:
- You can demonstrate your Electrical Engineer certification to potential employers and can stand out of the crowd.
- You can apply for great jobs using loopskill website or app; moreover, our partners companies will contact you directly for full-time or part-time opportunities depending on your skills & requirements.
- Loopskill is not just a platform to get certified or to find full time jobs; here being a certified engineer you can also do freelancing for the clients around the globe. You will be approached by the clients who need your help in different problems.
The loopskill’s online Electrical Engineer certification is created to help people in exploring and achieving their full potential so they can get connected to the best opportunities around the globe.
Marvels of Electrical Engineering:
AC: Alternating Current (AC) is a type of electricity. Nikola Tesla was the first to think of AC, and he delivered a paper on the subject in 1888. AC current is directly supplied to our homes via electrical wires, thus we all use it on a regular basis. When it comes to long-distance travel, AC currents are significantly more efficient than DC (Direct Current), and they have made electricity accessible to everyone. The AC electricity from the socket is converted to DC current by the appliances in our houses that use it. Long-distance electrification was made possible by AC, which also resulted in significant cost reductions, something that DC failed to do.
Transformer: Through the phenomena of electrical induction, transformers have the unique capacity to transfer electrical energy from one circuit to another without them coming into touch. Transformers are most commonly used to change the voltage of an entering circuit. The transformer is called a step-up transformer if the output voltage is greater than the input voltage; on the other side, the transformer is called a step-down transformer if the output voltage is less than the input voltage.
Ottó Bláthy, Miksa Déri, and Károly Zipernowsky created the first transformer. William Stanley, on the other hand, constructed the first commercially viable transformer in 1886. Long-distance electrification would be impossible without transformers. They are, in essence, the reason our houses remain illuminated and warm despite the fact that the electricity we use is generated hundreds of miles away. The 1,100 kV HVDC Behemoth, the world's most powerful transformer to date, was unveiled in 2018.
Electric Motors: Electrical energy is converted into mechanical energy by electric motors. This meant that human labor might be replaced by more powerful and effective machines that could speed up production and keep it going for longer. The electric motor was so efficient that it was able to replace steam engines in factories and other important industries on its own. Frank Julian perfected the DC motor in 1886. Nikola Tesla, the master inventor himself, invented the AC motor in 1887.
Panels of Solar: Despite the fact that Solar Energy became popular in the 2000s, the idea underlying it was first proposed in 1839 by Edmond Becquerel, who discovered the photovoltaic effect. Solar cells are currently widely used around the world. The Tengger Desert Solar Plant is the world's largest solar plant at the moment. It has a maximum output of 1547 MW under ideal conditions.
Generator powered by water: Hydroelectric power plants produce no waste as a byproduct and generate electricity from a renewable source. In 1882, the first commercially operated hydroelectric generator was installed at Fox River, Wisconsin. In the year 1878, the first hydroelectric turner was used to light a lamp at Cragside country estate in Northumberland, England.
Gorges Dam: The Three Gorges Dam is the world's largest power station, with a capacity of 22,500 megawatts (MW). The Yangtze River Dam is 2335 meters long and is built on the Yangtze River in China. The Dam was also constructed with the goal of increasing China's maritime capacity. The dam was completed on July 4, 2012, and by the end of 2013, it has recouped its entire cost! The Dam is so large that it delayed the earth's rotation by modifying the earth's moment of inertia by retaining a vast amount of water on one side.
Electric Light Bulb: Edison and his team of engineers invented it. In 1880, the light bulb was introduced to the market, revolutionizing the way we spend our nights. Incandescent lights are being phased out in favor of more energy-efficient LED bulbs, but it was the electric bulb that started it all!
Important Topics to Learn & Master in Electrical Engineering:
If you wish to become a Electrical Engineer master, the subjects listed below must be covered.
- Control systems
- Electricity Technology and Machines
- Circuit Analysis, Electronics
- Electrical Engineering Material
- Transmission & Distribution
- Microprocessor interfacing
- Power Engineering
Electrical Engineering’s Software:
MATLAB: The most common electrical engineering software among Electrical Engineering students is MATLAB (MATrix LABarotary). It was one of the first commercial linear algebra packages, released in 1983 by Mathworks Inc. It has grown over time to become the most comprehensive software for Numerical Computing, Dynamic System Simulations, Algebraic Solutions, and Symbolic Mathematics, among other things. It has add-on packages (known as Toolboxes) for a variety of functions. Toolboxes include built-in functions for solving numerical problems such as Ordinary and Partial Differential Equations, Optimization, Linear System Implementation, Linear Algebra, Control System Design, System Identification, and Curve Fitting, among others.
Simulink: Simulink is Matlab's GUI-based companion software. The Matlab programming language is used to power it. Simulink is significantly easier to use than MATLAB for many electrical engineers. When you use MATLAB® and Simulink® together, you may build your system in a simulation environment using both textual and graphical programming. Using the dozens of algorithms currently included in MATLAB. To drive simulation, use MATLAB to construct input data sets. Thousands of simulations can be run in concurrently. Then use MATLAB to analyze and visualize the data.
Multisim: Multisim combines industry-standard SPICE simulation with an interactive schematic environment to allow users to quickly examine and study the behavior of electronic circuits. Its user-friendly interface aids educators in reinforcing circuit theory and improving theory retention across the engineering curriculum. Multisim helps researchers and designers cut printed circuit board (PCB) prototype iterations and development costs by incorporating advanced circuit modeling and analysis into the design cycle.
ETAP: ETAP is a full-spectrum analytical electrical engineering software firm specializing in the analysis, simulation, monitoring, control, optimization, and automation of electrical power systems. It is an industry-standard program. ETAP software is the most comprehensive and best-in-class integrated power system enterprise solution, spanning from modeling to operation.
ETAP's several toolbars provide practically all of the analyses required for the design, regulation, and operation of a power system. ETAP can be utilized for power flow analysis, relay coordination and protection, control system design, and optimal power flow.
Simulator of the Power World: PowerWorld Simulator is an interactive power system simulation tool for simulating high voltage power system operation over time periods ranging from minutes to days. The software includes a powerful power flow analysis tool that can solve systems with up to 250,000 buses with ease. PowerWorld Simulator's capabilities can be expanded by adding extra add-ons to the base simulator package. The add-ons can be utilized for Distributed Computing and include features such as Geomagnetically Induced Currents (GIC), integrated topology processing, optimized power flow, transient stability, voltage stability (PVQV), and more.
PSCAD: PSCAD is a software program for electrical engineering that analyzes electromagnetic transients in power systems. Manitoba Hydro International Ltd. created it with the tagline "If you can envision it, you can replicate it."
As power systems evolve, the demand for accurate, user-friendly simulation tools becomes more critical. You can easily build, simulate, and model your systems with PSCADTM/EMTDCTM, which provides endless possibilities in power system modeling. A large library of system models is included, ranging from basic passive elements and control functions to electric machines and other complicated systems.
Future of Electrical Engineering
Electrical Engineering is a combination of Electronics and Electrical Engineering education and research activities. The Department includes a good mix of young and experienced faculty members, all of whom are enthusiastic and dedicated to their work. Aside from teaching and research, the faculty members are actively involved in organizing technical seminars, camps, and visits at the Institute to promote experiential learning. Image Processing, Optical sensors, VLSI, Power Electronics, and Renewable Energy sources are among the current PhD students' research interests. Every year, a large number of our B. Tech. and PhD students participate in summer internships at prestigious academic institutions and businesses. Approximately 20% of these internships are at universities outside of the United States. The Department is well-served by qualified personnel who assist in the seamless operation of laboratories and other administrative functions. Nanotechnology, image processing, renewable energy sources, embedded systems, imaging, optoelectronics, optical fibers, and other topics are all discussed in the future of electrical engineering. Every new electrical concept is propelling life forward. Electrical engineering in the future will have a lot of medicinal applications. Electrical equipment is used to cure a variety of ailments. For example, a person's diabetes can be detected using a watch that the individual wears. This watch was created in such a way that it is required to monitor sugar levels and provide a report. Electrical engineering's future is a never-ending research project.
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