Electrical and Electronic Engineering (EEE) is a challenging field that requires a lot of hard work, dedication, and aptitude. If you’re interested in this field, then you should be prepared to learn how to conduct experiments, collect data and analyze it, design products for the industry, conduct market research, and implement new processes for the company. In electrical engineering terms, an EE is someone who manages the transmission process through power grids.
What is Electrical and Electronic Engineering?
Electrical and electronic engineering is the discipline that involves the application of electrical energy to practical human problems. It is a broad field of engineering science, with some overlap in electronics engineering, computer engineering, and information technology.
Origins of Electrical and Electronic Engineering
The origins of EEE date back to the early days of electricity. In 1831, Michael Faraday discovered how electricity could be turned into motion by passing an electric current through a wire. This discovery led to the development of telegraphy, which allowed for rapid communication between separate points.
In the late 19th century, engineers began to experiment with ways to use electricity to power machines. One such machine was the dynamo, which consisted of a coil of wire wrapped around a metal armature. When an electric current was passed through the coil, it caused the armature to rotate. This technology was used in early automobiles and aircraft engines.
During World War II, advances in technology led to the development of radar systems and fighter aircraft engines. These systems required large quantities of electrical power to function properly. Consequently, engineers developed methods for generating and distributing electrical power throughout military installations.
Future of Electrical and Electronic Engineering
Electrical and electronic engineering (EEE) is a broad field that covers many disciplines such as electrical engineering, computer engineering, telecommunications engineering, and control engineering. The future of EEE is very bright because the technology is constantly evolving and new applications are being developed all the time. One example of this is the development of autonomous vehicles, which require sophisticated electronics to function properly.
Another area where EEE is becoming increasingly important is in the field of renewable energy. Increasingly, people are looking to use alternative forms of energy such as solar and wind power, and EEE has a lot to offer in terms of helping to develop these technologies. By understanding how these different types of energy work and developing appropriate technologies, EEE can play an important role in making them more widespread.
Tips for Getting a Job in Electrical and Electronic Engineering
- Networking is Key:
Make sure you are networking with people in the EEE field. Learn about upcoming conferences and events, and find out who the leading professionals are in your area of expertise.
- Get Experience:
Whether you are looking for paid experience or volunteer work, getting involved in as many different types of projects as possible will help you stand out to potential employers.
- Preparing a Tailored Resume:
Make sure your resume is tailored specifically to the electrical and electronic engineering industry before submitting it. Include information about your qualifications, experience, and skills that are relevant to this field.
- Be Proactive:
When applying for jobs, be proactive and prepare specific questions that you want to answer in an interview. This will show that you have taken the time to research the company and understand what they are looking for in a candidate.
How Do I Become an Electrical Engineer
- Possess a bachelor’s degree in an engineering field, such as electrical engineering, computer engineering, or mechanical engineering.
- Have five years of experience in an electronics or electrical design environment.
- Hold current registration with the IEEE (Institute of Electrical and Electronics Engineers) or hold an equivalent professional designation.
- Be proficient in using industry-standard software applications, such as Autodesk Inventor and SolidWorks.
- Understand the principles of circuit theory and electromagnetism, and be familiar with the types of materials used in electronic devices.
Skills and Qualities Needed for an Electrical and Electronic Engineering
- Strong technical expertise in electrical engineering and electronics.
- Proven ability to design, implement, test, and operate complex electronic systems.
- Exceptional problem-solving skills and creativity in designing solutions to challenging problems.
- Excellent communication and teamwork skills.
Different Career Paths for an Electrical and Electronic Engineer
- Electrical Engineer:
This is the most common type of EEE professional, and involves designing, creating, and installing electrical systems in buildings or vehicles. They may also work on projects related to power generation or transmission.
- Electronic Engineer:
This path is similar to the electrical engineers but focuses more on the design and implementation of electronic systems, including computer hardware and software. They may also work on projects related to telecommunications or control systems.
- Control Engineering Technician (CET):
CETs work in control systems industries, such as energy production or transportation, and play a key role in ensuring that these systems operate correctly. They may specialize in one area of control system technology or work across different areas.
- Software Engineer/Developer:
Software engineers/developers create and maintain software applications used by businesses or organizations. They typically have a degree in computer science or another relevant field and spend their days writing code using various programming languages.
How to Make Your Career In Electrical and Electronic Engineering a Success
- Pursue an undergraduate degree in EEE. This will give you a strong foundation in the field and make it easier to find employment after graduation.
- Get experience working in the industry before embarking on a graduate program. This will help you learn about the industry and potential employers’ needs.
- Join professional societies and affiliations, such as the IEEE, ASME, or ACM, to stay up-to-date with current developments and gain valuable networking opportunities.
- Take courses in advance of upcoming national or international conferences that may be of interest to you, as well as courses offered through your employer or graduate school program. This will help you become familiar with the conference agenda and networking opportunities.
- Keep up with recent advances in electrical and electronic engineering by reading reputable journals, such as IEEE Transactions on Magnetics or IET Electronics Letters, and subscribing to their newsletters. This will give you access to new research findings and keep you informed about changes in the field.
Frequently Asked Questions
Q: What degrees are offered in EEE?
A: There are a variety of different degrees that you can earn in EEE. Some examples include bachelor’s degree programs in electrical engineering or electronic engineering technology, master’s degree programs in electrical engineering or electronic engineering, or doctorate programs in electrical engineering or electronic engineering.
Q: What are the requirements to get into the EEE program?
A: To be accepted into the EEE program, you must have a high school diploma or equivalent and complete either the General College Entrance Exam (GCE) or an International Baccalaureate Diploma Programme (IBDP). You also need to submit scores from the Math Level 1 and 2 exams, as well as your grades from your college preparatory classes.
Q: Can I study part-time while I attend college?
A: Yes, you can study part-time while you attend college. However, you must still meet all of the requirements for admission into the EEE program.