Last Updated on January 14, 2022
Electrical power and systems are at the heart of modern society – and so too are electrical and electronics engineers. Engineers specializing in these fields have transformed the 21st century with technologies such as universal electric power systems, television, radio, and medical imaging to name just a few examples.
Among the most famous electronics and electrical engineers that you may have heard of are Nikola Tesla (pioneer of commercial electricity and electromagnetism), Thomas Edison (developer of the light bulb and inventor of the record player), Jack Kilby (inventor of the pocket calculator and the integrated circuit), Marcian Hoff (inventor of the microprocessor) and Martin Cooper (inventor of the mobile phone).
Electrical engineering degrees will equip students with knowledge of how the industry works, as well as give them the engineering skills and technological knowledge needed to design, assess and improve electrical and electronic systems.
The difference between electrical and electronics engineering is often blurred, but it is generally true to say that electrical engineers are concerned mainly with the large-scale production and distribution of electrical power, while electronics engineers focus on much smaller electronic circuits.
In an electronics engineering degree, you are likely to develop an expert understanding of the circuits used in computers and other modern technologies, and for this reason, electronics engineering is often taught alongside computer science. An electrical or electronics engineering degree will also overlap with mechanical and civil engineering.
Also Read:Degree In Electrical Engineering Syllabus, electrical and electronics engineering subjects, electrical engineering degree, electrical engineering requirements.
Degree In Electrical Engineering Syllabus
If you’re interested in how electrical devices work, are inquisitive, and have a strong interest in mathematics and science, then you probably already have some essential engineering skills and an electrical or electronics engineering degree may well be for you. Although technical knowledge is essential, electrical engineers are also involved in designing and building a range of devices, often within teams.
At the bachelor level, an electrical engineering degree will aim to give students grounding in the underlying principles of electronic and electrical engineering, before allowing specialization in an area of interest later on in the course. Students will also be involved in projects working within groups.
Like most engineering subjects, it is best to imagine that you will be committed to your course every day of the working week. Although you almost certainly won’t be sitting in lectures for eight hours a day, your study timetable will be busy and will feature a range of learning methods, including laboratory work, tutorials, lectures, project work, group work, and individual research.
Outside of scheduled lessons, you will also be required to develop your knowledge by working your way through your course’s reading list.
You may also be set engineering problems to solve, as well as coursework assignments and laboratory reports to hand in. More hands-on sessions may also include physically dismantling electronic devices to see how they work, and then putting them back together again. This helps students learn how to develop and apply their engineering skills, rather than simply memorizing it from a textbook.
To study an electrical engineering degree, you will need a strong background in mathematics and science subjects (especially physics). However, don’t be deterred; many courses will start with some foundation modules designed to ensure this background knowledge is up to the required standard.
For leading universities it is common to be asked for top grades. For example, University College London (UCL) asks UK students to obtain the A-level grades AAA / A*AB, and international students will be expected to obtain the equivalent.
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electrical engineering subjects diploma
Diploma in Electrical Engineering course which offers to study Electrical devices and systems. This course helps to design and develop Electrical systems. The Electrical Diploma course duration is 3 years. Students who have completed 10th from a recognized education board are eligible for the course. After completion of this course, it provides wide opportunities for students in Private as well as government enterprises.
This course helps students to apply theoretical knowledge to find solutions to real-world electrical problems and solve them. Diploma in Electrical course involves various subjects like Microcontroller, Transducers, Sensors, and Motors…. etc. After pursuing Diploma in Electrical Engineering students can go for higher education; Bachelor of Engineering in Electrical and Electronics.
A graduate of diploma in electrical engineering has many opportunities available. The course salary may vary based on the experience and skill set of individuals.
Diploma in Electrical Engineering is a course mainly concentrate on Electrical systems and devices. Diploma in Electrical Engineering is a 3 years course, which is divided into 6 semesters. An electrical engineer is required in most of the industries such as Automobile industries and Textile industries. Students can find employment very easily in Nuclear power plants, Government projects on renewable energy sources and other places where electricity is generated and maintained. The candidates can pursue Diploma in Electrical Engineering after 10th.
Diploma in Electrical Engineering course involves Microcontroller, Electrical power generation and Electromagnetic studies which helps students to learn how control systems and signal processing works. Electrical Engineering gives an opportunity for students to explore Electrical aspects, tools, as well as methods. A diploma in Electrical engineering helps to have a better knowledge of many industrial machines and their applications. The minimum eligibility criteria for this course is to pass 10th with a minimum of 45% marks from the recognized board of education. The course fees differ from college to college according to their standards. The average course fee ranges from INR 10000 to 50000 per annum.
The various fields of Electrical Engineering are:
- Digital Computers
- Computer Engineering
- Control System
- Radio-Frequency Engineering
- Signal Processing
- Power Engineering, etc.
electrical engineering careers
Pursuing a degree in electrical engineering can lead to a variety of exciting career paths. However, job options and opportunities depend on the degree you earn, so it is important to understand what degree and career options are available and what qualifications they require. In this article, we will discuss electrical engineering degrees, how to earn them and what careers they make available to you.
While most careers in the electrical engineering industry require a minimum of a bachelor’s degree, some positions require only an associate degree. Job opportunities and salary can vary based on education, location and work experience. The following are 12 career paths you may consider in the electrical engineering industry:
1. Electrical technician
National average salary: $23.89 per hour
Primary duties: Electrical technicians install wiring and equipment according to the specifications of an electrical engineer. They are also responsible for diagnosing the source of malfunctions and failures and take appropriate corrective actions. An associate degree is the minimum required qualification to be an electrical technician.
2. Broadcast engineer
National average salary: $53,764 per year
Primary duties: A broadcast engineer maintains and repairs the equipment necessary for radio and television broadcasting. Their duties span across recording studios, editing rooms and transmission facilities. To work as a broadcast engineer, you must have at least an associate degree.
3. Technical writer
National average salary: $57,785 per year
Primary duties: Technical writers synthesize original writing and provide edits for researchers. A technical writer communicates with electrical engineers and other scientific staff. They explain complex scientific materials in a clear, concise way. An associate degree is a minimum requirement to work as a technical writer.
4. Controls engineer
National average salary: $60,584 per year
Primary duties: Also called a control systems engineer, a controls engineer designs circuits, microcontrollers and digital signal processors to facilitate the safe functioning of various machines. They may also update and regulate engines and mechanical systems. A bachelor’s degree is the minimum requirement to be a control systems engineer.
5. Substation technician
National average salary: $27.42 per hour
Primary duties: A substation technician works on large-scale commercial, industrial and residential power systems. They ensure the electrical grid is functional, not overloaded and allocating power appropriately. An associate degree is a minimum requirement to be a substation technician, however there are some roles with greater responsibility that may require a bachelor’s degree or higher.
6. Electrical project manager
National average salary: $83,890 per year
Primary duties: Electrical project managers supervise and delegate tasks in large projects. They are not only in charge of staff but also manage budgets, scheduling and communication between office administration and building sites. To work as an electrical project manager, you must have at least an associate degree.
7. Electrical designer
National average salary: $90,285 per year
Primary duties: Electrical designers plan and execute hardware space allocation, cable routing and nodal network configuration. They are also proficient with software design and integration. An associate degree is a minimum requirement to be an electrical designer.
8. Electrical engineer
National average salary: $95,226 per year
Primary duties: Electrical engineers design and develop all varieties of small and large-scale electrical systems. They test, troubleshoot and improve electrical systems, devices and individual components. To work as an electrical engineer, you must have a minimum of a bachelor’s degree in electrical engineering.
9. Electronic communications engineer
National average salary: $98,329 per year
Primary duties: Electronic communications engineers develop systems and products that enable individual and mass communication. Their expertise covers traditional broadcasting, radio, and wireless and satellite communications. A bachelor’s degree in electrical engineering is the minimum requirement to be an electronic communications engineer.
10. Systems engineer
National average salary: $99,892 per year
Primary duties: A systems engineer sets up and maintains the electrical performance systems critical to the operation of complex engineering projects. Systems engineer is a manageable mid-career transition for electrical engineers with an interest in computer programming. To work as a systems engineer, you must have a minimum of a bachelor’s degree in electrical engineering.
11. Hardware engineer
National average salary: $7,768 per month
Primary duties: Hardware engineers primarily design new computer components. They draft blueprints for innovative computer designs and work with software developers to upgrade hardware capacity, power and function. A bachelor’s degree is the minimum requirement to work as a hardware engineer.
12. Computer network architect
National average salary: $121,624 per year
Primary duties: Also called a network engineer, a network architect designs computer networks for local area and intranet system communication. They are also responsible for securing data, maintaining network functioning and installing hardware and software. To work as a computer network architect, you must have a minimum of a bachelor’s degree in electrical engineering.