Specialization in Electronics and Communication Engineering

Last Updated on January 15, 2023 by Team College Learners

With a Master degree in Electronics and Telecommunication, there are a variety of specialization areas that are possible, such as network management, digital media technology, microelectronic engineering, computer networks engineering, information electronics, communication electronics, and many more. It’s not always easy to find the most updated information on the internet. Thankfully, this article provides you with more information on masters in electronics and communication engineering in canada, ms in electronics and communication abroad & masters in electronics engineering in usa.

You will also find related posts on ms in electronics and communication in india, masters in electronics and communication engineering in germany & masters in electronics and communication engineering in uky on collegelearners.

Masters in Electronics and Communication Engineering

Electronics is a sub-discipline of Engineering, and allows you to specialize in designing devices and systems based on printed circuit boards. A Master in Electronics and Telecommunication means studying a wide range of subjects, including Physics, Chemistry and Math. The field of Telecommunications also broadens this scope, and means you can specialize in anything from satellites in space to the internet. This is an exciting new field that can easily be linked to Economics and Business, and for students seeking a promising career, a Master in Electronics and Telecommunication is the first step.

With a Master in Electronics and Telecommunication, there are a variety of specialization areas that are possible, such as network management, digital media technology, microelectronic engineering, computer networks engineering, information electronics, communication electronics, and many more. Students pursuing a Master in Electronics and Telecommunication should have the appropriate educational background and experience specific to each program.

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Electronics and Communication Engineering- Everything You Need Know About this Specialization!

Technical tasks are at the core of development of any economy. No surprise here when you come to know about technical jobs available with both public and private sector requiring skilled technical professionals, graduating from very good B.Tech colleges. One of the technical specializations that students are looking up to is Electronics and Communication Engineering. It encapsulates the concepts of both Communication Engineering and Electronics Engineering with the focus on the former with respect to the latter.

But before everything else, there’s the question of difference between electrical engineering and ECE as specializations. Nothing much if one looks closely enough.

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Specialization in Electronics and Communication Engineering

The students of ECE study electronics engineering as a matter of fact, only with communication engineering as one more subject during the education. The branch of technical study was introduced and got popular around 1950s.

All you are going to study about the electronic devices and software applications would be related to communication aspect. ECE as a technical branch deals in chip-level hardware and information technology. History knew Electronics and communication engineering as Radio Engineering which was necessitated by the invention of Radio and Telegraph, the two prime devices of communication back then.

Course and its duration

Since long, the main focus of the students pursing engineering known and worked only for specializations like Civil Engineering, Mechanical Engineering or Electrical Engineering. Electronics and communication engineering is thus relatively new and is fast emerging field opted by engineering students.

The first half of the course covers basic concepts of engineering in general which are related to physics, mathematics and chemistry. The second half then focuses on the study of communication technology aspects. This includes fundamental of Electronics engineering, digital electronics, design, electronic circuits, signal & circuit, power electronics, VLSI, control systems and computer architecture.

After completion of four years of UG degree the students formally become either the Bachelor of Engineering or Bachelor of Technology, depending on which University he or she is graduating from.

Students are eligible to choose the Electronics and Communication Engineering only if they had completed their senior secondary (10th) and higher secondary (10+2) examinations with Maths and Science.

Students who want to understand the other options besides BTech or BE, academically they can pursue Electronics and Communication Engineering as:

Course specialization – What are the course specialization for electronics  and communication for Masters in Canada
  1. Diploma courses which essentially is a 3 years long polytechnic diploma done after 10th or 12th and,
  2. PG courses which is a 2-year duration M.Tech (Master of Technology), M.E (Master of Engineering) and M.S (Master of Science) degree done after graduation. For entering in PG programme, B.Tech in Electrical Engineering is the eligibility criteria.

3. Afterwards, one can take research earning the PhD (Doctor of Philosophy) degree.

Jobs & Career

Telecom and Software Industries readily absorb the Electronics and Communication Engineers. Moreover they can get employed in consumer electronics, diagnostic equipment manufacturing, aviation and avionics, electricity plant, transportation, manufacturing, communication & telecommunication, radio & television, computer application and offshore companies.

Both central as well as state government in addition to public & private sectors have various vacancies to be filled up by these professionals.

Electronics and Communication (VLSI Design)

Specialization (Sub-disciplines)

Following are among the specializations that have branched out from Electronics and Communication Engineering:

  • VLSI design Engineering
  • Telecommunications Engineering
  • Signal Processing
  • Control Engineering
  • Computer Engineering
  • Instrumentation Engineering

Think calmly and do what you deem best to launch your career!

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 giving them the engineering skills and technological knowledge needed to design, assess and improve electrical and electronic systems.

What’s the difference between electrical and electronics engineering?

 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.

What to expect from an electrical/electronics engineering degree

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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 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.

Entry requirements

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.

Electrical engineering specializations

During most electrical engineering degrees, students will be given the chance to specialize in a number of related fields. Common electrical engineering degree specializations include energy generation and transmission, magnetostatics and electrostatics (types of electric charge), and electrical installations (such as heating and lighting systems).

Meanwhile electronics engineering degree specializations may cover topics such as analogue and digital circuit design, digital communication, wireless technologies, and computer programming. If you’re interested in a management-based career, you may like to study electrical engineering alongside management topics. Dedicated engineering management programs offer the chance to study the techniques of industrial management within the context of electrical engineering, including operations and supply chain management.

Further into the course, you may have the opportunity to specialize in the application of electrical or electronics engineering in a particular industry. Examples include:

Power generation and supply

One of the major specializations for electrical engineers – and among the most important issues for modern society – is power generation and distribution. Specializations in this field should prepare students for work across a range of stages in the power system, from designing energy generation and conversion facilities, through to managing the supply of energy to individual users and devices. Students may choose to further specialize in a particular type of energy source, such as wind or solar power.

Communications and media

Here, there may be opportunities to study the applications of electrical engineering in a broad range of technologies and media, including digital and satellite broadcasting, fiber-optic communications, and wired and wireless networks. Students interested in this specialization may go on to work in TV and radio broadcasting, mobile or terrestrial telephone communication, internet services – or, of course, the next new development in what is a constantly developing field.

Computer systems Computer systems

Here, topics may include artificial intelligence, computer architecture, security and cryptography, network communications, circuit design and digital signal processing. This could lead to electrical engineering careers in software, chip or system design, but also a much broader range of roles – from CCTV surveillance to automated systems for heavy industry.

Robotic systems

This specialization will give you an overview of the design, control, construction and use of robots in varied environments and tasks, as well as giving you practical experience in robot programming, dealing with any design or control issues that may arise with robotic systems.

Electrical engineering careers

Electrical engineering careers offer strong prospects in many parts of the world. In Australia, for example, the government reports unemployment rates for electrical engineers below average, comparatively high earnings, and predicts continued strong jobs growth up to 2016-17. In the US and the UK similar trends have been reported, due to the industry-wide need for engineering graduates.

If you complete your electrical engineering degree at bachelor level (BEng) and want to go on and become a chartered engineer (CEng), you will need to undertake further study once you’ve gained experience in the field as a graduate. Completing a work experience placement during your degree is also a good idea, as a way to gain hands-on, practical understanding of particular systems and industries.

Electrical engineer 

Electrical engineers design, develop and maintain electrical control systems and/or components through a mixture of technical knowledge and commercial awareness, and can expect to earn between US$61,000-85,000. As well as having technical knowledge, electrical engineers need to have commercial awareness and be able to project manage and multitask. Electrical Engineer

As an electrical engineer, you can expect to work as part of a team on multidisciplinary projects, alongside specialists such as architects, technicians and other engineers (civil, design, etc.). Depending on your particular role and the scale of the project, as an electrical engineer you may be involved in one or all stages of design and development. This can involve making models and prototypes, reading and/or writing design specifications, researching, budgeting and costing, liaising with clients and contractors, conducting tests, interpreting data and servicing equipment.

Some major employment sectors for those pursuing electrical engineering careers include:

  • Power generation and supply
  • Construction
  • Transport infrastructure maintenance and development
  • Manufacturing
  • Communications and media
  • Computer hardware and software design
  • Healthcare
  • Science and technology research

Within each of these industries, positions are available in research and development, design, testing and maintenance. Career progression could mean taking on supervisory and management roles.

In terms of salary expectations, those in the electronics sector tend to earn slightly more. Payscale reports that the average annual salary for electronics engineers in the US was $72,139 in 2015, compared to $70,675 for electrical engineers.

Other careers with an electrical engineering degree

If you decide not to pursue traditional electrical engineering careers, there are plenty of alternative options. Students with electrical engineering degrees are also well sought-after outside of the engineering sector. Skills in IT, mathematics and problem-solving are needed by many employers in areas such as IT, finance and management. For example, a career as an IT consultant might suit you.

As a graduate of electrical engineering, your expertise in IT would be welcomed in a various organizations. IT consultants work in partnership with clients, guiding them on how to use information technology in order to meet their business objectives or overcome problems. Having a good degree, prior work experience and a sincere interest in IT and consulting will increase your chances of finding work in this role.

Aeronautical engineer

This is another career which could suit electrical engineering graduates. As an aeronautical engineer you’ll apply scientific, technological and mathematical principles to research, design, develop, maintain and test the performance of civil and military aircraft, including weapons, satellites and even space vehicles. You’ll need to be able to resolve any issues that arise during the design, development and testing process, including investigating any aircraft accidents and project management.

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