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Monday, February 26, 2018

Electrical Engineering Projects 2018

  1. Semiconductor Devices
  2.  Non-Conventional Energy Resources
  3.  Analog and digital circuit design
  4.  RF and Microwave Engineering
  5.  Optical Networks & communication
  6.  Information systems and network security
  7.  Remote sensing and satellite communication
  8.  BioInformatics
  9.  Advanced Power system & control system
  10.  Sensor technology & Virtual Instrumentation
  11.  VLSI technology & Design
  12.  Digital signal processing
  13.  Biomedical Instrumentation
  14.  Embedded Systems and Robotics
  15.  Power Electronics & Electric Drives
  16.  System Modeling & Simulation
  17.  Mechatronics & Avionics
  18.  Optimization techniques
  19.  Soft computing / Nanocomputing/ Grid computing

Electrical Engineering Jobs - 7 Steps to Entering into Electrical Engineering Jobs


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Electrical engineering jobs according to the Bureau of Labor Statistics are expected to grow until 2018. Electrical engineering graduates can easily find entry level electrical engineering jobs since these jobs are found in computer and technology industries, which are booming at the moment.

There are many job opportunities for electrical engineers in various industries, especially those into manufacturing, electronics and technology. Electronic companies offer electrical engineering jobs that involve running electrical lines for telephone and cable companies who need these jobs done to install equipment inexpensively and efficiently. In the manufacturing industry, many electrical engineers work with medical machine manufacturers. Their duties include calibration, designing and testing medical machines for their effectiveness before they are sold to various medical institutions all throughout the country. Electrical engineering jobs are crucial in this industry as lives are at stake. The job opportunity in this industry does not stop since there is a need to upgrade old machines and design new ones that are responsive to the present demands. These jobs are very specialized thus special training must be undertaken to qualify for them. Computer and technology companies continually need electrical engineers since these two industries are rapidly evolving. Electrical engineering jobs in technology and computer companies include creating and wiring small devices people can use or create new ways to use old devices, and the manufacture and design of electronics that are sold for public use.

 To find electrical engineering jobs faster, here are some steps that can be undertaken to fulfill this aim. First step is to earn an electrical engineering degree from a reputable and accredited college or university. Although some employers sometimes would prefer experience over education, in terms of job growth, those who have a bachelor's degree or an associate's degree have better chances of advancing to higher career positions.

The next step to take is to earn experience relevant to your education. This can be done by doing an internship at an electrical, manufacturing, technology or computer company. You can also earn experience by applying for electrical engineering jobs offered by small or medium electrical companies. There are some companies that prefer to hire new graduates or those without experience that they can train. After gaining enough experience, the next step to take is to become a licensed electrical engineer.

Acquiring a license has specific requirements depending on your state's laws. Being a licensed electrical engineer can further boost your chances of entering into the electrical engineering field. The license you get is a proof of your credibility and expertise gained from the field.

The next step to take is to check out openings for electrical engineering jobs by checking out the local newspaper or calling electric companies in your locality. Even if they are not hiring, be aggressive and submit your application for you can never tell when a post will become available. You can also surf the internet to locate jobs.

The next step to land electrical engineering jobs today is to also check out electrical engineering websites to be up-to-date on the latest trends and development in the electrical engineering world. Being responsive to the current needs of people is one of the qualities that electrical engineers must possess to have a thriving career.

Another step that electrical engineers can do to jump start their careers is to go to as many business related social events to network with people who are successful and are already making a name in the field of electrical engineering. Make everybody know that you are looking for a job and collect as many business cards as possible. Networking is very helpful, especially for those who are just starting their careers in the industry.


Lastly, consider getting an advanced degree in engineering via online schooling or the traditional way.

The Current Trends in Electrical Engineering

Electrical engineering affects a broad array of manufacturing systems, machines, communications networks, and transportation vehicles. It is hard to think of a machine or appliance without a microchip in it somewhere, and science fiction writers today have fun envisioning a time when we will have microchips implanted in our heads.

The oldest version of electrical engineering, the generation of power, is still a large field, but its size is dwarfed by the other specialties involving electronics. IEEE organizes its membership according to these categories:

•Division I: Circuits and devices. This includes microchips, the larger circuits that microchips are wired into, lasers and electro optics, and related solid-state devices.

•Division II: Industrial applications. This covers the manufacturing applications of electronics such as insulation devices, instrumentation and measurement, and electronic devices that control power.


•Division III: Communications technology. The fields included here are those most familiar to the general consumer: broadcast electronics, consumer electronics (radios, TV), communication devices (telephones, radio), and radios and similar devices in automobiles.


•Division IV: Electro magnetics and radiation. This represents the more advanced realms of communications such as those used for detecting aircraft. Subgroups include antennas and signal propagation, magnetics, microwaves, and nuclear and plasma sciences. Division V and VIII: Computers. The Computer Society is the single largest division and includes computer hardware and data storage, networks, and electronics for everything from handheld calculators to supercomputers.


•Division VI: Engineering and the human environment. Representing the outreach efforts of IEEE, this division includes engineering management, education, professional communication, and the social implications of technology.


•Division VII: Power engineering. These are the engineers at utility stations and those who design, construct, and maintain the generators and transmission systems.


•Division IX: Signals and applications. More types of advanced electronic transmission and detection are covered here, including acoustics, speech and signal processing, remote sensing, ultrasonics, and aerospace systems.


•Division X: Systems and control. Electronics are capable of controlling electrical and mechanical devices, even as electricity provides the power. Robotics, industrial automation systems, information theory, and engineering medicine are some of the subgroups of this division.

Currently, IEEE lists forty-one societies-specialized categories within these divisions. New divisions are formed all the time; some of the most recent include the Council on Superconductivity, the Sensors Council, the Nanotechnology Council, the Neural Networks Society, and the Components, Packaging and Manufacturing Technology Society. IEEE members can join one or several of these societies; each one publishes journals, holds meetings, and creates forums for like-minded engineers to exchange information. 

Except for the computer and power engineering societies, the memberships are fairly evenly matched. But wait-there's more. IEEE isn't the only professional society managing the interests of electrical and electronics engineers. There is also the Instrument Society of America (ISA), which has about forty thousand members interested in industrial control and measurement. Not all of the ISA members are electrical/electronics engineers and some ISA members are also IEEE members. However, the existence of ISA indicates the great number of engineers employed in the electrical/electronics field. There is a Society of Motion Picture and Television Engineers, ten thousand strong, and an equally sized Illuminating Engineering Society of North America. There are at least half a dozen technical associations for computer specialists, with thousands of members (only some of whom have electrical/electronics backgrounds). Thus, the field of interest of electrical/electronics engineers is huge, and there are tens of thousands of them in most of the technical areas.

All engineering disciplines advance new technology, but for the past couple of decades, no discipline has been moving faster than electrical/electronics engineering. This trend will persist for at least the next decade. Computers and semiconductors are continuing to evolve, and the technology for both of these refuses to "settle down" into something predictable and well defined.

Job Titles

 With so many avenues of technical development, the list of possible job titles for electrical/electronics engineers is lengthy. Some of the more common ones are as follows:

•Circuit designer. Whether it is a microcircuit etched on a silicon chip or a circuit board on a piece of green plastic, these designers apply engineering principles to building circuits that will accomplish the desired objective. Circuit design is one of the most active areas for automated computer design. Many engineers have written computer programs to figure out the optimum arrangement of circuit elements.


•Communications engineer. Most of the many mass-market, long-distance communication networks-such as telephones, radio, television, and cable television-rely on these engineers to develop the best ways to send and receive the communications signal. Signal fidelity and immunity to electronic "noise" are constant goals.


•Computer engineer. The design and construction of computers is one of the more prominent occupations of electrical engineers. These engineers must, of course, be familiar with circuits and microchips, but they must also have more than a passing knowledge of computer programming. For this reason many engineers interested in computer design major in that field (computer engineering), which offers more programming course work. (Employers appear to be evenhanded when choosing between the two specialties; the real distinction is the students own course work and interests.)


•Once a design has been completed and a prototype built, highly sophisticated tests are run to make sure that the computer can perform as expected. Usually problems are encountered that necessitate redesign. Similarly, each computer coming off the production line is tested for reliability and performance.


•Control engineer. The ability of computers and electronic devices to provide automatic control of appliances, machines, and manufacturing processes is generating high job demand for these specialists. One of the most dramatic possibilities is the use of artificial intelligence computer programming to make processes "think."


•Robotics engineer. Robotics suffered a downturn in business growth during the 1980s from which it is still recovering. But the long-term future is still bright. Robotics and control engineers share many of the same goals.


•Power systems engineer. The design and operation of modern utility plants is extremely complex, more so when nuclear energy is involved. A widening gap between the capacity of newly built power plants and the demand for electricity is expected to generate high job growth for power engineers.