Course Highlights

B.Tech in Electrical and Electronics Engineering is a complete undergraduate program that aims to equip the students with a solid theoretical basis as well as practical experience in the areas of electricity, electronics, and electromagnetism. It suits those who wish to work in the fields of design, development, testing, and supervision related to electrical equipment, electronics systems, power generation, and automation technologies.

This course provides knowledge to solve present industrial challenges by integrating basic electrical engineering principles with advanced electronics and embedded technologies. The degree is well-suited to the needs of the industry and imparts sufficient knowledge and skills to prepare students for the conventional and new-age engineering disciplines, such as renewable energy, electric vehicles, robotics, automation, and smart grid infrastructure.

Further, students will learn by doing because the advanced courses cover training on power systems, digital and analog electronics, control systems, microcontrollers, power electronics, and signal processing. Beyond that, students will use simulation tools like MATLAB, Simulink, and Proteus to differentiate between theory learned in the classroom and its application in real life.

Innovation, energy efficiency, and sustainability are the ideas that will define the thrust of this program, as it promises to train students to appreciate an interdisciplinary education, which holds great value in the international engineering market. Scholars will learn about advanced topics, including smart electrical networks, industrial IoT applications, embedded systems, electric drives, and automation technologies, thus preparing them for the dynamic role of their future electrical engineers.

This full-fledged program on B.Tech in EEE brings everything together, from a recent high school graduate to a diploma holder or even a working professional availing of the Integrated Program for Working Professionals (IPWP). In just this adapted design, everything comes to fulfill aspirations within a rapidly changing domain.

Course Curriculum

The certification levels will lead to Diploma/Advanced Diploma/B. Voc/B.Tech.
B.Voc at Industrial Centres and B.tech will be offered at the University.

Job Opportunities

    Why Choose B.Tech in Electrical and Electronics Engineering (Online/Hybrid Mode)?

Stated to be audience-specific and tailored towards individual preferences, the B. Tech in Electrical and Electronics Engineering is a degree program that equips a candidate with industry-aligned graduate training related to interests such as power systems, electronic design, automation, and renewable energy. It takes the format of delivery either online or hybrid study, emphasizing academic rigor with real-world relevance to give learners an edge in a fast-evolving technological-world shaping.

This course is the best choice for such aspirants who would like to innovate and develop smart power systems, embedded technologies, electric mobility, and intelligent automation in the future. The flexible format can accommodate all categories of persons-from diploma holders to working technicians and to fresh aspirants-on their journey to becoming qualified electrical engineers.

Industry-Relevant Curriculum

The curriculum itself covers the possibilities from electrical machines to renewable energy systems. Power electronics, circuit theory, control systems, embedded systems, and electric drives-related industrial systems were also huge mentions. These courses also certainly accommodate themes like DSP, IoT applications, smart grid technologies, and cutting-edge automation tools that make the students ready for almost all roles across frontline and emerging industries.

Flexible Learning Model
The online or hybrid options available with this program make it suitable for varying schedules, which allows the learner to study contrary to work or personal commitments. This helps especially the diploma holders, professionals from the utilities or electrical industries, and students located in remote areas with limited physical access to engineering colleges.

Hands-on Practical Training
The program assures practice at a heavy house through simulation-based labs, embedded systems programming, and optional industrial internships in an environment of online learning. They will experience the use of industrial-grade software tools such as MATLAB, Simulink, Proteus, and LabVIEW, along with hands-on training on real-life project assignments and optional in-field training.

Career-Ready Outcomes
Upon graduation, candidates would typically be prepared for roles in professional power generation and distribution, automation, electronic product design, energy auditing, EV technology, and public sector enterprises. Core roles include electrical design engineer, maintenance engineer, embedded systems developer, control systems analyst, and energy systems consultant.

Expert Faculty & Mentorship
Students are mentored by experienced educators and industry professionals with deep expertise in electrical systems, electronics manufacturing, and smart technologies. This mentorship helps align student learning with real-world expectations and future-ready engineering practices.

    Who Should Apply?

• Promoters to legitimate electrical-or electronics- engineers looking for lateral entry and upgrade for career advancement in core domains.
• Experienced Working Professionals: Involved in utilities, automation, manufacturing, or renewable energy sectors willing to pursue B.Tech while continuing to work.
• ITI graduates and apprentices with hands-on experience in electrical systems or control panels, now wish to progress academically.
• Career changers and enthusiasts: From allied sectors like instrumentation or few might be mechanical engineering who want to enter the realm of electrical or electronics.

    When Should You Pursue This Program?

You can begin this program at any stage—after a diploma, while employed, or when switching careers. Its flexible structure enables professionals to pursue higher education without compromising work commitments and helps students build a strong foundation in electrical engineering for long-term career growth.

    Key Highlights

• The program aims to impart knowledge and skillful training to professionals in power systems, smart grid technology, embedded systems, industrial automation, and renewable energy.
• They provide online-hybrid learning flexibility for working professionals and remote students.
• Projects and practical simulation studies in MATLAB, PSCAD, and PLC-based system software.
• Under the mentorship of industry experts and faculty with the experience of PSU and MNC.
• Pathway for career opportunities in energy utilities, electronics design, automation, public infrastructure, and power transmission.

   Why Opt for an Education Loan?

• End-to-End Cost Coverage: Things included are tuition, lab software, industrial visits, and training modules.
• Flexible Repayment: An option of moratoriums along with following EMIs after job placement is available.
• Promotes Career Prospects: A recognized engineering degree serves an individual well-suited opportunities, both the public as well as the private sectors.
• Builds Financial Accountability: Helps in establishing credit history and financial discipline through responsible paying of education loans.

   Is B.Tech in EEE Worth It?

   Absolutely. Here’s why:

• The power sectors evolve into smart grids, electric mobility, and renewables, which in turn are increasing the demand for electrical engineers.
• Electrical and electronics occupations exist in each and every area-from energy to automation to consumer electronics.
• This program gives opportunities for jobs, entrepreneurship, and further studies (M.Tech or MBA).
• Skills related to core technical subjects such as power, control, and electronics remain evergreen and globally relevant.

   Examination Pattern

• The semester-end examinations include theoretical papers and practicals (offline, depending on the pattern). 
• Continuous evaluation includes weekly quizzes, simulation reports, and work done for virtual labs. 
• Project Work: Capstone projects in energy systems, embedded design, or automation. 
• Industry internship: Being presented and evaluated via presentation, report, and viva in the final semester.

 Fresh Entry (10+2 PCM): 4 Years (8 Semesters)

Lateral Entry (Diploma Holders): 3 Years (6 Semesters)

Flexible Duration: For part-time or modular learners, duration may vary per credit structure

A B Tech in Electrical and Electronics Engineering (EEE) opens vast career opportunities in various sectors. It prepares students with the basics of electrical systems, electronics, control engineering, embedded systems, and energy technologies; making them highly versatile engineers indeed in today's world.

Some popular job opportunities for B. Tech EEE graduates are:
Electrical Design & Maintenance Engineer:
They can work as valley engineers associated with electrical design, installation, and maintenance activities related to electrical systems in industries, infrastructure projects, and power plants.

Development Electronics & Embedded Systems:
Some choose embedded systems, VLSI design, microcontroller programming, PCB designing, and many other sectors where they are offered jobs like embedded software engineer, hardware design engineer, electronics product developer, etc.

Power & Energy Sectors:
Professionals may work for conventional and renewable energy. For operations, they deal with system design and maintenance in power generation, transmission and distribution channels. This includes the area of career varies in solar energy, wind farms, and smart grids.

Instrumentation & Control Engineering:
Graduates may take roles in industries that require process automation and control, such as oil & gas, chemical plants, manufacturing, and pharmaceuticals. They would be maintenance engineers and electro-technical engineers dealing with PLC/SCADA systems, sensors, and automation interfaces.

Industrial Automation & Robotics:
Increasing automation is now becoming part of almost every field today, and these EEE engineers are necessary in developing, programming, and maintaining robotic systems and automatic machinery in a manufacturing sector.

Telecommunications & Network:
Jobs that would include anything in network infrastructure, telecom operations, RF engineering as well as work involving IoT systems are open for interested graduates to enter. Using training provided, they will eventually design communication systems and maintain their reliability within the network.

Electric Vehicles and Mobility Systems:
As the electric vehicle industry is booming, EEE engineers are in demand to work with battery management systems (BMS) alongside motor controllers and inclusive power charging infrastructure for these vehicles.

Research & Development (R&D):
Graduates looking for innovation can work in labs and R&D divisions of corporates or academic institutions to develop next-generation electronic devices, which may include AI-incorporated devices or energy-efficient systems.

Technical Consultancy & Services:
EEE engineers can also work as consultants engaging in specialist advice in electrical safety audits, energy optimization, equipment procurement, and regulatory compliance.

The graduates who complete the courses with a B.Tech in Electrical and Electronics Engineering (EEE) are in demand in different industries. Knowledge of electrical systems, electronics, control systems, and embedded technologies enables them to solve some really complex engineering problems and contribute towards innovation, automation, and sustainable development. 

Power & Energy Corporations
EEE graduates are in demand to manage systems related to power generation, distribution, and renewable energy.

• NTPC (National Thermal Power Corporation)
• BHEL (Bharat Heavy Electricals Limited)
• Power Grid Corporation of India
• Tata Power
• Adani Green Energy
• Schneider Electric

Electrical Equipment and Industrial Automation Firms
EEE grads are hired to design, analyze, implement, and maintain automation systems, motors, control circuits, and power systems.

• Siemens
• ABB India
• Honeywell
• Larsen & Toubro (L&T)
• Crompton Greaves
• Havells

Government Agencies & PSUs
Public sector undertakings and agencies engaged in defense research are employing EEE graduates to work on strategy-level projects.

• ISRO
• DRDO
• Indian Railways – Electrical Division
• ONGC / GAIL / IOCL
• Airport Authority of India

Telecommunications & Embedded System Companies
EEE professionals work with network hardware, IoT devices, signal processing, and embedded development.

• BSNL / Jio / Airtel
• Tejas Networks
• Sterlite Technologies
• Qualcomm
• Texas Instruments

Electric Mobility & Renewable Startups
With the growing electrical vehicle and green energy sectors, EEE graduates assume important roles in R&D and operations. 

• Ola Electric
• Ather Energy
• Hero Electric
• Tata Elxsi
• ReNew Power

Electronics and Semiconductor Sectors
EEE engineers are recruited by VLSI companies, PCB design companies, microcontrollers, and chip manufacturing companies.

• Intel India
• Samsung R&D
• Micron
• Broadcom
• STMicroelectronics