While Electronics Engineering is a discipline that utilizes non-linear and active/passive electrical components to design electronic circuits, devices and systems, Communication Engineering involves the specialist knowledge required to design and deliver solutions, as well as providing technical guidance related to the various modes of communication available today. This stream aims to give a holistic view of both to the students.

1. Introduction to the course

In existing age the field of Electronics & Communication performs a vital role in almost every sphere of our life. It has entered in every field of our existence. It mainly deals with the communication technologies along with the basic electronic components, design of circuits and systems as well as troubleshooting with electronic devices. The prime motive of the B.Tech (ECE) program is to prepare students with vital core competency to prosper long-term in engineering/entrepreneurship careers after completing their B.Tech and are preparing to undertake PG studies and research as career options. There are numerous career options in ECE both in government sector and in the private sector. The Electronics and Communication Engineering (ECE) course prepares the students for a wide range of engineering study and career options, including Communication engineering, RF and Microwave engineering, Biomedical engineering, Computer hardware, the Aerospace industry, Computer software, Nano electronic chips, Photonics, Nano engineering, Robotics and solar energy harvesting and many more.

 

2. What are the learning outcomes?

The Learning Outcomes (LO) are designed in such a manner that at the end of the programme, the students passing degree from the department of Electronics and Communication Engineering will be able to:
• L.O.1: apply the knowledge of mathematics, physics, chemistry and basic engineering science to analyse and design the electronics and communication systems.
• L.O.2: apply the knowledge of basic electrical and electronics techniques including programming and use of modern tools to solve applied engineering problems.
• L.O. 3: acquire an in-depth knowledge of circuit theory, semiconductor devices, microcontroller& embedded system and apply them for efficient design of different electronics and communication systems/devices.
• L.O.4: acquire an in-depth knowledge of the principle of communication, microwave devices, antenna, fiber optics communication, mobile and satellite communication systems as per needs of industry and institute.
• L.O.5: acquire the knowledge of measurement and control theory that can be applied to measure and control the electronics parameter and system.
• L.O. 6: design and conduct experiments, measure, analyse and interpret the data.
• L.O.7: identify, formulate and investigate further reading to solve the engineering problems.
• L.O.8: understand the impact of engineering solution in a global, economic, environmental and social context.
• L.O. 9: express effectively in both verbal and written forms.
• L.O. 10: be familiar with industries and industrial working environment.
• L.O.11: adapt technological developments from time to time.
• L.O.12: work effectively in a multidisciplinary team and excel as an individual as well as a team member showing leadership quality in the working environment.
• L.O.13: understand norms of professional and ethical behaviour in engineering practices.
• L.O.14: use new modern techniques and tools for application in the field of electronics and communication engineering.

3. Subjects covered:

• Electrical and Electronics Technology
• Analog Electronics
• Semiconductor Devices
• Signals and Networks
• Transform Calculus
• Digital Electronics
• Digital Signal Processing
• Antenna and Wave Propagation
• Microwave Engineering
• Mobile Communication
• Optical Communication
• Microprocessors and Microcontrollers
• Digital Communication
• VLSI System Design
• Control System
• Embedded Systems Design
• Internet of Things
• Image and Video Processing
• Power Electronics

 

4. Specializations

M.Tech in Electronics and Communication Engineering along with project guidance in the following specialized subjects is offered:
• Nano electronics
• Antenna and Microwave Engineering
• Advance Signal Processing
• Image Processing and Cryptography
• 5G wireless communication and its Applications
• Robotics

 

5. Lab Infrastructure

◦ Basic Electronics Lab
◦ Analog Electronics Lab
◦ Digital Electronics Lab
◦ Electronic Devices Lab
◦ Antenna and microwave Lab
◦ Signal & Network and DSP Lab
◦ VLSI and Embedded System Lab
◦ Microprocessor & Microcontroller Lab
◦ Analog and Digital Communication Lab
◦ Advance Communication Lab

6. Internships/Project work

During industrial visits as well as internships, students gain the knowledge of state-of-the art of electronics technologies and other advanced software tools used by the industries these days. So, students are provided with a golden opportunity to apply their knowledge and co-relate working principles between theory and practice. The interaction between industry and academia also leads to development of professional attributes of the students which is find a great importance during on campus or off campus drives. This also leads to extension of professional network of the students as well as improves their troubleshooting abilities. Last but not the least, students also learn about the safety measures followed by various industries.

 

The following are the organizations/ industries/ companies/ institutions/ projects where the students of ECE are engaged as internee.

 

7. Placement & Career Opportunities / Research Opportunities:

◦ 85.71% placed students till date.
◦ Industry connect through outreach programmes
◦ Dedicated team (CDC) for Career Development of students
◦ Preparatory technical sessions for placement drives
◦ Soft-skill training and GD sessions
◦ Free GATE Coaching by experienced faculty
◦ Free Professional studies and Foreign Language classes
◦ Emphasis and encouragement on research publications of undergraduate and post graduate students via industry relevant final year projects and mini-projects.

 

Eligibility:

i) For Normal : 60% overall in 10+2 with PM + Chem/BT/Biology/Technical Vocational (with 45%)

ii) For Lateral Entry: B.Sc (45%) and 10+2 with Maths and to clear Engineering Graphics/Engineering Drawing and Engineering Mechanics Or Diploma.

View Course Structure

M Tech in Electronics and Communication Engineering allow the scholars to learn, implement in the advanced fields of communications, VLSI and Signal Processings. The core curriculum include courses like advanced digital signal processing, adavanced communication, low power VLSI design etc. They may be involved in designing, manufacturing, and testing systems to make sure that they function properly. These professionals can work for scientific, industrial organizations or defence organizations.’

 

Eligibility
The basic eligibility criteria for pursuing an M.Tech (Electronics and Communication Engineering) degree is qualifying B.E./B.Tech. in ECE or equivalent examination. Generally, the admission is through Graduate Aptitude Test in Engineering (GATE) Score Merit List or Adamas University Admission Test (AUAT).

 

Admission Procedure
Admission to the course will take place in terms of the Admission Notification issued by the University every year before the commencement of the academic session.

 

Summer School / Winter School / Projects
The scholars are encouraged to attend summer internship programs in different central government research laboratories or organization, core electronics and communication industries etc.

 

Eligibility:

60% in B.Tech / GATE qualified.

View Course Structure

A PhD in Electronics and Communication Engineering is the highest degree in this field which prepares a candidate to take up positions in academics and research related organizations. Our PhD program serves to produce up-to-date professionals in specific fields.

 

Eligibility:
ME/M.Tech. in Electronics and Communication Engineering (Electronics and allied specialization branches).

 

Admission Procedure:
Admission process for the Phd Program is a two step one. The candidates are invited to the written test and interview on the basis of their performance.

B.Tech (4 Years)

1. Introduction to the course

In existing age the field of Electronics & Communication performs a vital role in almost every sphere of our life. It has entered in every field of our existence. It mainly deals with the communication technologies along with the basic electronic components, design of circuits and systems as well as troubleshooting with electronic devices. The prime motive of the B.Tech (ECE) program is to prepare students with vital core competency to prosper long-term in engineering/entrepreneurship careers after completing their B.Tech and are preparing to undertake PG studies and research as career options. There are numerous career options in ECE both in government sector and in the private sector. The Electronics and Communication Engineering (ECE) course prepares the students for a wide range of engineering study and career options, including Communication engineering, RF and Microwave engineering, Biomedical engineering, Computer hardware, the Aerospace industry, Computer software, Nano electronic chips, Photonics, Nano engineering, Robotics and solar energy harvesting and many more.

 

2. What are the learning outcomes?

The Learning Outcomes (LO) are designed in such a manner that at the end of the programme, the students passing degree from the department of Electronics and Communication Engineering will be able to:
• L.O.1: apply the knowledge of mathematics, physics, chemistry and basic engineering science to analyse and design the electronics and communication systems.
• L.O.2: apply the knowledge of basic electrical and electronics techniques including programming and use of modern tools to solve applied engineering problems.
• L.O. 3: acquire an in-depth knowledge of circuit theory, semiconductor devices, microcontroller& embedded system and apply them for efficient design of different electronics and communication systems/devices.
• L.O.4: acquire an in-depth knowledge of the principle of communication, microwave devices, antenna, fiber optics communication, mobile and satellite communication systems as per needs of industry and institute.
• L.O.5: acquire the knowledge of measurement and control theory that can be applied to measure and control the electronics parameter and system.
• L.O. 6: design and conduct experiments, measure, analyse and interpret the data.
• L.O.7: identify, formulate and investigate further reading to solve the engineering problems.
• L.O.8: understand the impact of engineering solution in a global, economic, environmental and social context.
• L.O. 9: express effectively in both verbal and written forms.
• L.O. 10: be familiar with industries and industrial working environment.
• L.O.11: adapt technological developments from time to time.
• L.O.12: work effectively in a multidisciplinary team and excel as an individual as well as a team member showing leadership quality in the working environment.
• L.O.13: understand norms of professional and ethical behaviour in engineering practices.
• L.O.14: use new modern techniques and tools for application in the field of electronics and communication engineering.

3. Subjects covered:

• Electrical and Electronics Technology
• Analog Electronics
• Semiconductor Devices
• Signals and Networks
• Transform Calculus
• Digital Electronics
• Digital Signal Processing
• Antenna and Wave Propagation
• Microwave Engineering
• Mobile Communication
• Optical Communication
• Microprocessors and Microcontrollers
• Digital Communication
• VLSI System Design
• Control System
• Embedded Systems Design
• Internet of Things
• Image and Video Processing
• Power Electronics

 

4. Specializations

M.Tech in Electronics and Communication Engineering along with project guidance in the following specialized subjects is offered:
• Nano electronics
• Antenna and Microwave Engineering
• Advance Signal Processing
• Image Processing and Cryptography
• 5G wireless communication and its Applications
• Robotics

 

5. Lab Infrastructure

◦ Basic Electronics Lab
◦ Analog Electronics Lab
◦ Digital Electronics Lab
◦ Electronic Devices Lab
◦ Antenna and microwave Lab
◦ Signal & Network and DSP Lab
◦ VLSI and Embedded System Lab
◦ Microprocessor & Microcontroller Lab
◦ Analog and Digital Communication Lab
◦ Advance Communication Lab

6. Internships/Project work

During industrial visits as well as internships, students gain the knowledge of state-of-the art of electronics technologies and other advanced software tools used by the industries these days. So, students are provided with a golden opportunity to apply their knowledge and co-relate working principles between theory and practice. The interaction between industry and academia also leads to development of professional attributes of the students which is find a great importance during on campus or off campus drives. This also leads to extension of professional network of the students as well as improves their troubleshooting abilities. Last but not the least, students also learn about the safety measures followed by various industries.

 

The following are the organizations/ industries/ companies/ institutions/ projects where the students of ECE are engaged as internee.

 

7. Placement & Career Opportunities / Research Opportunities:

◦ 85.71% placed students till date.
◦ Industry connect through outreach programmes
◦ Dedicated team (CDC) for Career Development of students
◦ Preparatory technical sessions for placement drives
◦ Soft-skill training and GD sessions
◦ Free GATE Coaching by experienced faculty
◦ Free Professional studies and Foreign Language classes
◦ Emphasis and encouragement on research publications of undergraduate and post graduate students via industry relevant final year projects and mini-projects.

 

Eligibility:

i) For Normal : 60% overall in 10+2 with PM + Chem/BT/Biology/Technical Vocational (with 45%)

ii) For Lateral Entry: B.Sc (45%) and 10+2 with Maths and to clear Engineering Graphics/Engineering Drawing and Engineering Mechanics Or Diploma.

View Course Structure
M.Tech (2 years)

M Tech in Electronics and Communication Engineering allow the scholars to learn, implement in the advanced fields of communications, VLSI and Signal Processings. The core curriculum include courses like advanced digital signal processing, adavanced communication, low power VLSI design etc. They may be involved in designing, manufacturing, and testing systems to make sure that they function properly. These professionals can work for scientific, industrial organizations or defence organizations.’

 

Eligibility
The basic eligibility criteria for pursuing an M.Tech (Electronics and Communication Engineering) degree is qualifying B.E./B.Tech. in ECE or equivalent examination. Generally, the admission is through Graduate Aptitude Test in Engineering (GATE) Score Merit List or Adamas University Admission Test (AUAT).

 

Admission Procedure
Admission to the course will take place in terms of the Admission Notification issued by the University every year before the commencement of the academic session.

 

Summer School / Winter School / Projects
The scholars are encouraged to attend summer internship programs in different central government research laboratories or organization, core electronics and communication industries etc.

 

Eligibility:

60% in B.Tech / GATE qualified.

View Course Structure
Ph.D. (3 years min.)

A PhD in Electronics and Communication Engineering is the highest degree in this field which prepares a candidate to take up positions in academics and research related organizations. Our PhD program serves to produce up-to-date professionals in specific fields.

 

Eligibility:
ME/M.Tech. in Electronics and Communication Engineering (Electronics and allied specialization branches).

 

Admission Procedure:
Admission process for the Phd Program is a two step one. The candidates are invited to the written test and interview on the basis of their performance.