Do you know the fundamental difference between electrical engineering and electronics? Are you completely unaware of the difference between these two overlapping fields? Which has better career prospects in terms of employment and salary? Is it too simple to understand?
See the blog below. It will clarify your doubts and answer your questions in a simple way. , is a logically driven attempt.
What is electrical engineering
An engineering field that deals with the study of electric power. This research includes detailed analysis and practical demonstrations of modern engineering solutions used to generate electricity on an industrial scale.
It also addresses the challenges and engineering issues associated with power transmission and distribution over long distances. After all, an electrician’s main goal is to successfully transmit large amounts of power without consuming large amounts of power.
Therefore, as a B.Tech student in electrical engineering, you must learn everything involved in the design and development of various electrical systems and devices used in power generation and transmission systems. You should have in-depth knowledge and hands-on experience in the core subjects of electrical engineering.
Electrical engineering studies include power electronics and drives, power system modeling, power control mechanisms, operation and maintenance of some electrical machines, renewable energy resources, electric vehicles, and the electricity used to drive motors and generators. Subjects such as measurement and control systems and network circuits are included. synthesis, etc.
What is electronics?
The terms electric and electron are loosely associated with electricity but differ slightly from each other. Electrical engineering is associated with high power flows, whereas the term electronics is particularly correlated with relatively low power flows.
Electronics is a subdomain of electrical engineering. Electronics studies specifically cover the design, assembly, and optimization of various electronic devices such as computers, laptops, mobile phones, and smartwatches.
Students aspiring to pursue a career in electronics should immediately choose B.Tech in electronics as their primary career option after their 12th science. Major subjects that must be passed when pursuing an electronics engineering graduation include analog and digital communications, fiber optic and wireless communications, sensors, satellite and radar systems, solid state devices, VLSI and embedded systems, robotics and automation systems. And so on. Microwave engineering, Internet of Things (IoT), etc.
What is the main difference between electrical engineering and electronic engineering?
At first glance, electrical engineering and electronics seem to be closely related. Both need to work with electromagnetism to achieve their engineering goals. Still, they are very different from each other, at least in terms of usability and practical application.
Electrical Engineering is concerned with the generation, transmission and distribution of electrical power whereas Electronics Engineering is the design, development and distribution of electronic circuits used in televisions, radios, computers, smartphones and various types of equipment used in the Internet of Things (IoT). Focus on maintenance. In short, these two engineering disciplines share much of the same scientific underpinnings, but differ significantly in their implementation.
To understand this difference, look at your smartphone. Many small components and complex circuits fit into a compact space. Do you know who is doing this work for you? Do you know who builds the smartphones you have in your pocket? AirPods, smart watches, home automation products, commercial drones, and so much more. Did you know that the makers of these smart gadgets? They’re electronics engineers working for big companies like Samsung and Apple, and they’re the real driving force behind the whole success story. They are directly involved in the design and development process of smartphones and other smart gadgets.
But at the same time, a more introspective view reveals that electrical engineers play an important role in the modern telecommunications process. Your electronic gadget is designed and assembled by electronic engineers, but they are electrical engineers who perform the essential task of converting and transmitting data. Without it, your phone probably loses its purpose in the commercial spectrum.
It is therefore clear that electrical and electronic engineers have different scopes and do not serve the same purpose. Although electrical engineering can be considered the motherfield, electronics is like a modern subset of electrical engineering where engineers have to deal with designing and manufacturing the semiconductor-based electronics and gadgets they use in their daily lives. Thing.
Conclusion:-
For most unskilled candidates and the general public, the difference between electrical engineering and electronics is much the same as the difference between mother branch and its derivatives. They are interrelated in many areas, but have significant differences in application and implementation.
For example, on the one hand, there are courses like B.Tech in Electronics Engineering, which teaches how to design and develop modern electronic devices such as TVs, LCDs, iPods, laptops, desktops and smartphones. On the other hand, courses like B.Tech in Electrical Engineering teach you the use of currents and electromagnetism for lossless large-scale generation, transmission and distribution of electricity.
