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The Electrical Engineering program is designed to equip students with a strong foundation in electrical and electronics systems, energy systems, control systems, and communication technology. The curriculum emphasizes theoretical knowledge, practical applications, and research-oriented learning, preparing students for industry and academia.
Program Objectives
Technical Proficiency: Develop skills to analyze, design, and implement electrical systems in diverse fields like power systems, electronics, and communication.
Problem-Solving Skills: Cultivate the ability to solve complex engineering problems using mathematics, science, and technology.
Ethics and Sustainability: Promote sustainable engineering practices aligned with professional and ethical standards.
Lifelong Learning: Encourage continuous education and adaptation to emerging technologies.
Research Opportunities: Collaborative projects with faculty or participation in funded projects.
Industry Visits: Exposure to real-world electrical engineering applications.
Skill Development
Technical Skills: Circuit design, simulation, prototyping, and analysis.
Soft Skills: Communication, teamwork, and project management.
Tools and Software: Proficiency in MATLAB, Simulink, AutoCAD Electrical, and PLC programming.
Higher Education and Career Counseling
Guidance for exams like GATE, GRE, TOEFL, and industry certifications.
Support for pursuing research or entrepreneurship.
Career Prospects
Power Generation and Distribution
Electronics Design and Manufacturing
Automation and Robotics
Research and Development
Renewable Energy Systems
Programme overview
Main Subject
Engineering - Electrical and Electronic
Degree
BTech
Study Level
Undergraduate
Study Mode
On Campus
The Electrical Engineering program is designed to equip students with a strong foundation in electrical and electronics systems, energy systems, control systems, and communication technology. The curriculum emphasizes theoretical knowledge, practical applications, and research-oriented learning, preparing students for industry and academia.
Program Objectives
Technical Proficiency: Develop skills to analyze, design, and implement electrical systems in diverse fields like power systems, electronics, and communication.
Problem-Solving Skills: Cultivate the ability to solve complex engineering problems using mathematics, science, and technology.
Ethics and Sustainability: Promote sustainable engineering practices aligned with professional and ethical standards.
Lifelong Learning: Encourage continuous education and adaptation to emerging technologies.
Research Opportunities: Collaborative projects with faculty or participation in funded projects.
Industry Visits: Exposure to real-world electrical engineering applications.
Skill Development
Technical Skills: Circuit design, simulation, prototyping, and analysis.
Soft Skills: Communication, teamwork, and project management.
Tools and Software: Proficiency in MATLAB, Simulink, AutoCAD Electrical, and PLC programming.
Higher Education and Career Counseling
Guidance for exams like GATE, GRE, TOEFL, and industry certifications.
Support for pursuing research or entrepreneurship.
Career Prospects
Power Generation and Distribution
Electronics Design and Manufacturing
Automation and Robotics
Research and Development
Renewable Energy Systems
Admission Requirements
5+
1. Academic Qualifications
· Educational Background : Applicants must have completed 10+2 (or equivalent) from a recognized board.
· Core Subjects : Physics, Chemistry, and Mathematics must be included in the 10+2 curriculum.
· Minimum Percentage : A minimum aggregate score 60% is required.
2. Entrance Exam
· Accepted Exams : A valid score in national or state-level entrance examinations such as JEE Main or other university-specific entrance tests is mandatory.
· Cut-Off Scores : Applicants must meet the cut-off criteria as determined by the institution for the respective entrance exam.
3. Age Criteria
· Candidates must typically be at least 17 years old at the time of admission.
· Upper age limits, if applicable, are outlined by the institution or exam authority.
4. Direct Admission Options
· Some institutions offer direct admission based on merit in 10+2 examinations or through management quota seats.
5 . Required Documents
· Completed application form
· 10th and 12th grade mark sheets and passing certificates
· Entrance exam scorecard
· Photo ID proof (e.g., Aadhaar Card, Passport)
· Passport-sized photographs
· Migration or transfer certificate (if applicable)
· English proficiency test scores (for international applicants)
6 . Additional Requirements (If Applicable)
· Reservation Criteria : Applicants eligible under reserved categories (SC/ST/OBC/PwD) may need to provide supporting certificates.
· Extracurricular Achievements : Certificates for achievements in extracurricular activities or sports may be required for special admission categories.
7 . Application Process
· Applications are usually submitted online.
· Candidates must ensure they meet all eligibility criteria and provide accurate documentation to avoid disqualification.
30 Jun 2024
4 Years
Jul
Domestic
50,000 INR
Domestic (Out of State)
50,000 INR
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
The program covers a range of topics, including:
Circuit Analysis
Electrical Machines
Power Systems
Electronics and Communication
Control Systems
Renewable Energy Technologies
Emerging fields like IoT and Electric Vehicles.
Are there hands-on learning opportunities?
YES
Can I specialize in a specific area of Electrical Engineering?
Yes, students can choose electives or focus on areas like: Renewable Energy Automation and Robotics Power Electronics Electric Vehicles
Is there guidance for higher education and competitive exams?
Yes, Counseling for exams like GATE, GRE, and TOEFL.
Does the program include industry exposure?
Yes, Internships at industries and power plants, Industrial Visit
EE
48 monthsProgramme duration
30 Jun, 2024Application Deadline
Engineering - Electrical and ElectronicMain Subject Area
Programme overview
Main Subject
Engineering - Electrical and Electronic
Degree
BTech
Study Level
Undergraduate
Study Mode
On Campus
The Electrical Engineering program is designed to equip students with a strong foundation in electrical and electronics systems, energy systems, control systems, and communication technology. The curriculum emphasizes theoretical knowledge, practical applications, and research-oriented learning, preparing students for industry and academia.
Program Objectives
Technical Proficiency: Develop skills to analyze, design, and implement electrical systems in diverse fields like power systems, electronics, and communication.
Problem-Solving Skills: Cultivate the ability to solve complex engineering problems using mathematics, science, and technology.
Ethics and Sustainability: Promote sustainable engineering practices aligned with professional and ethical standards.
Lifelong Learning: Encourage continuous education and adaptation to emerging technologies.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics for Engineers
Chemistry (for material science applications)
Core Electrical Engineering
Circuit Theory
Electrical Machines (DC, AC, Synchronous Machines)
Power Systems (Generation, Transmission, Distribution)
Control Systems
Power Electronics
High Voltage Engineering
Electronics and Communication
Analog and Digital Electronics
Microprocessors and Microcontrollers
Communication Systems
Energy Systems
Renewable Energy Systems
Smart Grid Technology
Energy Management and Audits
Emerging Technologies
Internet of Things (IoT)
Artificial Intelligence in Power Systems
Robotics and Automation
Labs and Practical Learning
Electrical Machines Lab
Power Systems Lab
Electronics Lab
Instrumentation and Control Lab
Simulation Tools (MATLAB, PSpice, etc.)
Specialization Opportunities
Students can choose electives or focus areas in:
Renewable Energy
Embedded Systems
Industrial Automation
Electric Vehicles
Mini-Projects and Capstone
Mini-Projects: Each semester includes hands-on projects related to theoretical subjects.
Final-Year Capstone Project: Industry-relevant or research-based projects to demonstrate comprehensive learning.
Industrial and Research Exposure
Internships: Mandatory internships in core sectors (power plants, electronics companies, etc.).
Research Opportunities: Collaborative projects with faculty or participation in funded projects.
Industry Visits: Exposure to real-world electrical engineering applications.
Skill Development
Technical Skills: Circuit design, simulation, prototyping, and analysis.
Soft Skills: Communication, teamwork, and project management.
Tools and Software: Proficiency in MATLAB, Simulink, AutoCAD Electrical, and PLC programming.
Higher Education and Career Counseling
Guidance for exams like GATE, GRE, TOEFL, and industry certifications.
Support for pursuing research or entrepreneurship.
Career Prospects
Power Generation and Distribution
Electronics Design and Manufacturing
Automation and Robotics
Research and Development
Renewable Energy Systems
Programme overview
Main Subject
Engineering - Electrical and Electronic
Degree
BTech
Study Level
Undergraduate
Study Mode
On Campus
The Electrical Engineering program is designed to equip students with a strong foundation in electrical and electronics systems, energy systems, control systems, and communication technology. The curriculum emphasizes theoretical knowledge, practical applications, and research-oriented learning, preparing students for industry and academia.
Program Objectives
Technical Proficiency: Develop skills to analyze, design, and implement electrical systems in diverse fields like power systems, electronics, and communication.
Problem-Solving Skills: Cultivate the ability to solve complex engineering problems using mathematics, science, and technology.
Ethics and Sustainability: Promote sustainable engineering practices aligned with professional and ethical standards.
Lifelong Learning: Encourage continuous education and adaptation to emerging technologies.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics for Engineers
Chemistry (for material science applications)
Core Electrical Engineering
Circuit Theory
Electrical Machines (DC, AC, Synchronous Machines)
Power Systems (Generation, Transmission, Distribution)
Control Systems
Power Electronics
High Voltage Engineering
Electronics and Communication
Analog and Digital Electronics
Microprocessors and Microcontrollers
Communication Systems
Energy Systems
Renewable Energy Systems
Smart Grid Technology
Energy Management and Audits
Emerging Technologies
Internet of Things (IoT)
Artificial Intelligence in Power Systems
Robotics and Automation
Labs and Practical Learning
Electrical Machines Lab
Power Systems Lab
Electronics Lab
Instrumentation and Control Lab
Simulation Tools (MATLAB, PSpice, etc.)
Specialization Opportunities
Students can choose electives or focus areas in:
Renewable Energy
Embedded Systems
Industrial Automation
Electric Vehicles
Mini-Projects and Capstone
Mini-Projects: Each semester includes hands-on projects related to theoretical subjects.
Final-Year Capstone Project: Industry-relevant or research-based projects to demonstrate comprehensive learning.
Industrial and Research Exposure
Internships: Mandatory internships in core sectors (power plants, electronics companies, etc.).
Research Opportunities: Collaborative projects with faculty or participation in funded projects.
Industry Visits: Exposure to real-world electrical engineering applications.
Skill Development
Technical Skills: Circuit design, simulation, prototyping, and analysis.
Soft Skills: Communication, teamwork, and project management.
Tools and Software: Proficiency in MATLAB, Simulink, AutoCAD Electrical, and PLC programming.
Higher Education and Career Counseling
Guidance for exams like GATE, GRE, TOEFL, and industry certifications.
Support for pursuing research or entrepreneurship.
Career Prospects
Power Generation and Distribution
Electronics Design and Manufacturing
Automation and Robotics
Research and Development
Renewable Energy Systems
Admission Requirements
1. Academic Qualifications
· Educational Background : Applicants must have completed 10+2 (or equivalent) from a recognized board.
· Core Subjects : Physics, Chemistry, and Mathematics must be included in the 10+2 curriculum.
· Minimum Percentage : A minimum aggregate score 60% is required.
2. Entrance Exam
· Accepted Exams : A valid score in national or state-level entrance examinations such as JEE Main or other university-specific entrance tests is mandatory.
· Cut-Off Scores : Applicants must meet the cut-off criteria as determined by the institution for the respective entrance exam.
3. Age Criteria
· Candidates must typically be at least 17 years old at the time of admission.
· Upper age limits, if applicable, are outlined by the institution or exam authority.
4. Direct Admission Options
· Some institutions offer direct admission based on merit in 10+2 examinations or through management quota seats.
5 . Required Documents
· Completed application form
· 10th and 12th grade mark sheets and passing certificates
· Entrance exam scorecard
· Photo ID proof (e.g., Aadhaar Card, Passport)
· Passport-sized photographs
· Migration or transfer certificate (if applicable)
· English proficiency test scores (for international applicants)
6 . Additional Requirements (If Applicable)
· Reservation Criteria : Applicants eligible under reserved categories (SC/ST/OBC/PwD) may need to provide supporting certificates.
· Extracurricular Achievements : Certificates for achievements in extracurricular activities or sports may be required for special admission categories.
7 . Application Process
· Applications are usually submitted online.
· Candidates must ensure they meet all eligibility criteria and provide accurate documentation to avoid disqualification.
Domestic
Domestic (Out of State)
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
How to get a full scholarship
Looking for a fully-funded scholarship to see you into university? Find out how to boost your chances of getting one.
Scholarships to study abroad
Find scholarships to study abroad with our lists of international scholarships – categorized by country, by subject, and by type of student.
Scholarship Applications: Frequently Asked Questions
Get answers to all your questions about scholarship applications, including tips on how to find scholarships and chances of success.
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