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What do colleges teach in Electrical and Electronics Engineering?

by Team Goseeko

Electrical and Electronics Engineering (EEE) deals with a wide range of fundamental knowledge about electrical and electronic machines, control systems, signal processing, communication systems, microelectronics, microprocessors and power generation. The degree course focuses on the design and manufacturing of electrical and electronic devices, computers, and their components, and the integration of these components to form complex systems.

In this article, we will discuss different topics that colleges teach to Electrical and Electronics Engineering students. Before that, let us look at its eligibility criteria and admission process.

Eligibility Criteria and Admission Process

Candidates who wish to pursue Electrical and Electronics Engineering at undergraduate levels should fulfil the following criteria:

  • The minimum qualification to pursue an EEE degree (BE or B Tech) is 12th pass with at least 50% aggregate in physics, chemistry and mathematics from a recognized school or university or equivalent.
  • For admission to the undergraduate programme (BE or B Tech) to EEE, students should appear for JEE Main.
  • They can apply for JEE Main immediately after their 12th to get admission into a 4-year BE (Bachelor of Engineering) or B Tech (Bachelor of Technology) programme.
  • For those students who wish to get into IIT’s, they need to clear the JEE Advanced exam. They can only give JEE Advanced after qualifying for the JEE Main exam.


Check out the top Electrical & Electronics Engineering colleges in India-

https://www.goseeko.com/blog/index.php/2021/05/19/top-10-electrical-and-electronics-engineering-colleges-in-india/

What do students learn in Electrical and Electronics Engineering?

During their initial year, the college educates students with physics and mathematics which are both essential in electrical and electronic engineering. Along with theory lectures, there will be enough exposure to practical experiments and lab work in later years. For specializations, students can choose any fields from –

  • Software
  • Robotics
  • Communication
  • Power Electronics
  • Hardware
  • Signal Processing
  • Nanotechnology
  • Embedded Systems

Apart from these, students will learn about specific skill developments in analysis, research, creativity, design and programming. Colleges will prepare students with the practical and theoretical challenges to develop problem-solving skills through several learning methods including lectures, laboratory work, project work, group work and individual research.

Below are some of the core topics in EEE –

1. Analog and Digital Electronics

All electronics can be divided into two types, Analog Electronics and Digital Electronics. Physical quantities like temperature, sound waves, light intensity, colour, textures, etc can be categorized as analog quantities. Analog Electronics are electronic systems with changeable signals.

Digital Electronics is a field of electronics that involves the study of digital signals and electronic devices, such as logic gates, which use or produce them.

2. Electronic Devices and Circuit (EDC)

Electronic Devices and Circuit deals with the design and application of several electronic devices and circuits involved in the system such as diodes, triodes, transistors, rectification and power supplies, amplifying circuits, electronic instruments and oscillators.

electronic devices and circuit

3. Network Analysis and Synthesis

Network Analysis and Synthesis make students understand concepts of graph theory, two-port networks, network theorems, network functions and network synthesis.

4. Power Electronics

In this, students will learn about different power electronic devices which act as solid-state switches in the circuits –

  • Power Diodes
  • Metal Oxide Semiconductor Field Effect Transistor (MOSFET)
  • Bipolar Junction Transistor (BJT)
  • Thyristors (SCR, GTO, MCT)
  • Insulated Gate Bipolar Transistor (IGBT)

5. Electromagnetic Theory

In this topic, students will get introduced to the basic mathematical concepts related to electromagnetic vector fields, electrostatic fields, electric potential, energy density and their applications. Also, they study concepts of magnetostatic fields, magnetic flux density, vector potential and its applications.

electromagnetic waves
Electromagnetic Waves

6. Digital Communication

Here students will get an overview of the designs of digital communication systems. A digital communication system transfers a source (example voice, video, data, etc) from one point to another, by first converting it into a stream of bits, and then into symbols that can be transferred over different channels like cable, wireless, storage, etc.

7. Digital Image Processing

Digital Image Processing makes use of software to deal with the manipulation of digital images. Here the students will learn various digital image fundamentals, get exposed to single image processing techniques and become familiar with image compression and segmentation techniques.

8. Microprocessor and microcontroller

Students will gain an in-depth understanding of the operation of microprocessors and microcontrollers. They will also learn about the concept of computer organization and architecture.

microprocessor and microcontroller

Conclusion:

Electrical and Electronics Engineering is a vast field. With the dependency of being highly dependent on electricity and electronic devices is going higher and higher, the demand for this industry will always be at its peak. So one thing every electrical and electronic engineering aspirant must follow is the right education and proper guidance.

That’s where Goseeko comes into picture. Goseeko is an online platform dedicated to providing the right study material for students seeking higher education like Electrical and Electronics Engineering.

What makes Goseeko unique is that we provide study material made as per your university syllabus. Get your Study Notes, MCQ’s, Question Banks, Video Lectures and more for your Electrical and Electronics Engineering course.


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