Will I be able to go to the electronics field if I take engineering in EE (electrical and electronics)?

Updated on : December 3, 2021 by Tia Macdonald



Will I be able to go to the electronics field if I take engineering in EE (electrical and electronics)?

No

EE stands for Electrical Engineering and you can say Basic Electrical Engineering. So, electronics is now considered in electrical engineering. But 1 flow also has electrical and electronic parameters called EEE stands for Electrical and Electronic Engineering and this flow is eligible in both electrical and electronic standards.

I hope it helps you.

Here is my first answer on quora after being a silent reader for years….

So you ask that electricity and electronics are not as useful as computing and communication. The point is that each and every field has its own importance. A major mistake in today's world is that the discipline of "electronics", especially, is not so dignified.

Let me explain you with a simple example; If there were only programmers everywhere and there were no devices for programming (electronics), how would your knowledge be useful? The same goes for electric ones. Devices, peripherals and modules that use programming (computer science

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Here is my first answer on quora after being a silent reader for years….

So you ask that electricity and electronics are not as useful as computing and communication. The point is that each and every field has its own importance. A major mistake in today's world is that the discipline of "electronics", especially, is not so dignified.

Let me explain you with a simple example; If there were only programmers everywhere and there were no devices for programming (electronics), how would your knowledge be useful? The same goes for electric ones. The devices, peripheries and modules that use programming (computing and software), the devices that communicate through different media (electronics and communication), are all the fruits of capable hardware (electronics). The energy efficient appliances in use today come from advances in power (electrical) systems.

In one line, it can be said that the fields of computing and communication are software fields that need some hardware to be implemented, brought by electricity and electronics.

So it goes without saying that in this progressive age of science and technology, each field has its own meaning. And the most fascinating thing about them is that they are all interconnected. One cannot simply prioritize one over another * apart from one's own choice *. Hope you understand the point of this explanation.

I have many other examples in mind, but the answer would be frustratingly long. So I think now it's okay to end here. ;)

Thank you for reading.

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Can you study them separately now? Both disciplines were always taught together, since it is difficult to understand one subject without the other, and it is quite useless if you decide to design, but then there was much more analog and little digital.

Personally, if I could choose again, I would dedicate myself to computer science and computer engineering; the future of electronics is becoming very modular, too small to test and repair and without it you cannot learn; you only really learn when things don't work out. , the future is (the present is) locating the PCB and changing it. There is no fun there, the design is becoming more and more computer-based,

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Can you study them separately now? Both disciplines were always taught together, since it is difficult to understand one subject without the other, and it is quite useless if you decide to design, but then there was much more analog and little digital.

Personally, if I could choose again, I would dedicate myself to computer science and computer engineering; the future of electronics is becoming very modular, too small to test and repair and without it you cannot learn; you only really learn when things don't work out. , the future is (the present is) locating the PCB and changing it. There's no fun there, design is becoming more and more computer-based, and testing is mostly automated now; I've seen too many graduates go into mass spectrometry, which is very specialized, only to leave after a year; You need that level of aptitude to be a successful engineer, as you are very subjective as to what is okay and what is not, but after 6 months you have learned how, and after 12 you are very bored.

After this, you are looking for research or perhaps component design; It is no longer the same and my advice would be to dedicate himself to computing.

Learn about the Arduino microprocessor and keep electronics as a hobby. That Raspberry Pi is an amazing piece of technology for the price and the possibilities - I play a game where I try to think of a project that has not been thought of yet, it is very difficult to think of one and not find videos and tutorials on him already. They are very fun and cheap.

They both run pretty much at the same time, so it's hard to tell. For the near future I would say electronics because it is very easy for the field to evolve. Power, on the other hand, would be difficult to change; Even if revolutionary new technologies and systems were created, it would take a long time for society to change and adapt.

An example would be LED lights. They are better than other bulbs in virtually every way imaginable. The only reason they are more expensive is because companies would not make money otherwise; bulbs take about 9 years to go out. Although this revo

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They both run pretty much at the same time, so it's hard to tell. For the near future I would say electronics because it is very easy for the field to evolve. Power, on the other hand, would be difficult to change; Even if revolutionary new technologies and systems were created, it would take a long time for society to change and adapt.

An example would be LED lights. They are better than other bulbs in virtually every way imaginable. The only reason they are more expensive is because companies would not make money otherwise; bulbs take about 9 years to go out. Even though this revolutionary light bulb is all over the place, businesses and homes are still taking forever to realize just how good LEDs are.

The basic difference between electrical engineering and electronic engineering is being able to work at two completely different voltage levels. All electronic devices will operate at 24 V or 48 V DC and a maximum of 110 V AC. They are typically used in measurement and control circuits, while all electrical devices operate on voltages ranging from 230V to a few hundred KV. So there is a big difference in its power handling ability. Electronics has more to do with VLSI, microelectronics, integrated circuits, signal processing, everything related to micro-level devices and software to simulate th

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The basic difference between electrical engineering and electronic engineering is being able to work at two completely different voltage levels. All electronic devices will operate at 24 V or 48 V DC and a maximum of 110 V AC. They are typically used in measurement and control circuits, while all electrical devices operate on voltages ranging from 230V to a few hundred KV. So there is a big difference in its power handling ability. Electronics is more about VLSI, microelectronics, integrated circuits, signal processing, everything to do with micro-level devices and software to simulate them, while electrical engineering deals with transmission and distribution, generators, motors, power semiconductor devices. , control systems, etc., sometimes in megawatts. power level as well.

If you are into electrical engineering, you will take some of the basic electronics courses, such as analog electronics (deals with transistors and diodes) and digital electronics (deals with logic circuits). Apart from these subjects, some universities may offer electives such as basic courses in VLSI design or communication networks, etc. But if you are really interested in doing electronic engineering, you should take electronics as a branch because electrical engineering does not cover everything.
The future prospects of taking up electrical engineering and electronic engineering are also different from each other. If you want to do Mtech after your engineering in electronics-based subject, you may need to write an EC gate document for that, apart from that case, you both have the same opportunities for higher studies. If your goal is a job in the public sector, electrical engineering students definitely have a higher number of openings. Electronic engineering students can always aim for limited bharat electronics.
I suggest you review the courses and decide based on your interest. Engineering should always be driven by interest, rather than driven by location, that's what I feel.

Electronic Engineering is a branch of Electrical Engineering that focuses on the application or design of electronic components such as transistors, diodes, field effect transistors, integrated circuits in order to perform various functions used in Telecommunications, Acoustics, Industries, systems doctors, computers, etc. where they can solve their problems.

IEEE is an association where you can find many electrical or electronic application reports if you are registered with them. You can also contribute with your own reports.

For these reasons, IEEE is a

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Electronic Engineering is a branch of Electrical Engineering that focuses on the application or design of electronic components such as transistors, diodes, field effect transistors, integrated circuits in order to perform various functions used in Telecommunications, Acoustics, Industries, systems doctors, computers, etc. where they can solve their problems.

IEEE is an association where you can find many electrical or electronic application reports if you are registered with them. You can also contribute with your own reports.

For these reasons, IEEE is a separate organization and Electronic or Electrical Engineering are professional studies.

How do you define "best"? Better salary? The best career opportunities? The fields are very different (although there is some overlap). If you are just starting your university studies, take courses in both fields and see what you like. If you are at the end of your studies, you don't know which of the two areas you like the most? Today, both fields will give you ample opportunities if you put the effort into it. If you like one over the other, follow that one. Nothing can advance your career and give you personal satisfaction than finding a career and a job that you like. Good luck

Keep reading

How do you define "best"? Better salary? The best career opportunities? The fields are very different (although there is some overlap). If you are just starting your university studies, take courses in both fields and see what you like. If you are at the end of your studies, you don't know which of the two areas you like the most? Today, both fields will give you ample opportunities if you put the effort into it. If you like one over the other, follow that one. Nothing can advance your career and give you personal satisfaction than finding a career and a job that you like. Good luck.

In addition to mechatronics that has been mentioned in other answers, the field of control engineering is another engineering discipline that involves a combination of electronic, mechanical, and electrical engineering. Control engineering focuses on modeling a wide range of dynamic systems, from robots to chemical processes. It involves the design and adaptation of control systems so that the mechanisms or processes behave in the desired way. Control engineering finds applications in a wide range of industries.

In the 1st year you study all the common basic engineering subjects such as mathematics, physics, chemistry, workshop, computer science, English, etc. From the 2nd year on, he specializes in theaters. The main topics covered are:

Electrical Machines (Generators, Motors, Transformers, etc)

Power system (power generation, transmission and distribution)

Power electronics

Network analysis

Circuits and systems

Measurement and instrumentation

Comunication system

Microprocessors

Digital signal processing

etc. !!

This correct answer is in the Indian context: There is nothing called ECE in 2020 - Praveen Kumar Singh's answer to What is the scope and salary of an ECE? https://www.quora.com/What-is-the-scope-and-the-salary-of-an-ECE/answer/Praveen-Kumar-Singh-156 There is nothing called EEE in 2020: The Praveen Kumar Singh's answer to What is the average and highest package for EEE department at NIT, Trichy? https: //www.quora.com/What-is-the-average-and-highest-package-for-the-EEE-department-in -...

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Yes, EEE means electrical engineering and ECE means electronic and communications engineering. ECE (electronic and communications engineering) and EEE (electronic and electrical engineering) are branches that sound quite similar. It is the study and application of electrical systems for use in different environments and contains basic courses in electronics and more power system.

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