M.Tech. in EEE Course: Details, Eligibility, Fees, Syllabus, Placements
A Master of Technology (MTech) in Electrical and Electronics Engineering (EEE) is a postgraduate program designed to provide advanced knowledge and skills in the fields of electrical and electronics engineering. This degree focuses on both theoretical and practical aspects of the discipline, preparing students for high-level careers in industry, research, and academia. Electrical and electronics engineers design, develop, upgrade, and maintain electrical systems and equipment. The science of electricity applies to small and large projects, from household appliances or car transmissions to satellite communications systems or renewable energy power grids.
The curriculum of an MTech in EEE program is designed to cover advanced topics in electrical and electronics engineering. It typically includes core courses, electives, and a research project or thesis.
Why M.Tech(EEE)
Upon completing the course, students can easily get jobs as Electrical Engineer, Senior Engineering Manager, Senior Software Engineer, Senior Electrical Engineer, Software Engineer, Senior Product Manager, Hardware Design Engineer, Software Architect etc., in numerous private or government organizations.
Program Objectives
- Advanced Knowledge: Provide students with advanced theoretical and practical knowledge in electrical and electronics engineering.
- Research Skills: Develop research capabilities to address complex engineering problems and contribute to technological advancements.
- Specialization: Offer specialization options to allow students to focus on specific areas of interest within the field.
- Industry Readiness: Prepare graduates for leadership roles in industries such as power generation, electronics manufacturing, automation, and renewable energy.
Practical Training
- Laboratory Work: Hands-on experience in well-equipped laboratories to reinforce theoretical concepts.
- Projects: Individual or group projects to apply knowledge to real-world problems.
- Internships: Opportunities for internships in industries relevant to electrical and electronics engineering to gain practical experience.
Key Features of M.Tech-EEE
- Comprehensive Curriculum
- The M.Tech in EEE program offers a comprehensive curriculum covering both fundamental and advanced topics in electrical and electronics engineering. Core subjects include power systems, control systems, electrical machines, electronics, and instrumentation.
- Specialization Options
- Students have the opportunity to specialize in specific areas based on their interests and career goals. Common specializations include power systems engineering, control systems engineering, electronics and communication engineering, renewable energy systems, and electric vehicle technology.
- Hands-on Practical Training
- Comprehensive Curriculum
- The program emphasizes hands-on practical training through well-equipped laboratories and project work. Students gain valuable experience in designing, analyzing, and troubleshooting electrical and electronics systems, reinforcing theoretical concepts learned in the classroom.
- Research Focus
- With a strong emphasis on research, students have the opportunity to conduct in-depth research projects under the guidance of experienced faculty members. The program encourages original research contributions and provides avenues for students to publish their findings in academic journals and present them at conferences.
- Industry Collaboration
- Collaboration with industry partners provides students with opportunities for internships, industrial visits, and guest lectures, enabling them to gain insights into real-world engineering practices and industry trends.
- Interdisciplinary Approach
- The program adopts an interdisciplinary approach, integrating knowledge from related fields such as computer science, mechanical engineering, and renewable energy. This holistic approach equips students with a broad skill set and prepares them for diverse career opportunities.
- Career Guidance and Placement Support
- Dedicated career guidance and placement support services help students explore career options, prepare for job interviews, and secure positions in leading companies in sectors such as power generation, electronics manufacturing, automation, and renewable energy.
- Industry-Relevant Projects
- Projects undertaken during the program are often industry-oriented, addressing real-world challenges faced by the electrical and electronics industry. This practical experience enhances students' employability and prepares them for the demands of the professional world.
- Focus on Sustainable Technologies
- Given the increasing importance of sustainability and renewable energy, many programs include coursework and research opportunities focused on sustainable technologies, preparing students to address environmental challenges in the field of electrical and electronics engineering.
- Comprehensive Curriculum
- Research Facilities
- State-of-the-art research facilities and laboratories provide students with access to advanced equipment and technology, enabling them to conduct cutting-edge research and innovation in various areas of electrical and electronics engineering.
Job Profile after M.Tech-EEE
- Electrical Engineer
- Electronics Engineer
- Control Systems Engineer
- Power Systems Engineer
- Instrumentation Engineer
- Renewable Energy Engineer
- Automation Engineer
- Electrical Design Engineer
- Project Engineer
- Research Engineer
- Test Engineer
- Systems Engineer
- Power Electronics Engineer
- Field Service Engineer
- Electrical Consultant
USP's
- Experienced faculty members to enrich comprehensive knowledge.
- Value added courses
- L & T Powered Programmes.
- Guaranteed Campus Internship and Placement Drive.
- Nasscom foundation industry oriented courses
- IBM, TCS advanced technologies program
Fee Structure
| Year | Fee |
|---|---|
| First Year | ₹ 78,000 |
| Second Year | ₹ 70,000 |
Admission Criteria
Bachelors degree or equivalent in the relevant field with at least 60% from recognized university or institution
Industrial Visit
Industrial visits are an essential part of the academic curriculum in most of the Graduate and Post-graduate courses. Being a part of interactive learning, such educational visits give students a major exposure to real working environments along with a practical perspective of a theoretical concept relevant to their domain. In addition to that, industrial visits bridge the widening gap between theoretical learning and practical exposure by giving students the first-hand exposure to identify the inputs and outputs for different business operations and processes performed at the workplace.
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