Department of Electrical Engineering
Powering The Future
Create competent electrical engineers to excel in their skills in electrical engineering and to enterprise our students in practical knowledge.
M1. To create engineers processing sound fundamentals knowledge of Electrical engineering.
M2. To develop technically strong professional engineers to meet the industry's needs.
M3. To impart strong ethical qualities among students for serving society.
PEO1: To impart a strong educational foundation in the field of Electrical Engineering for a successful career in industry and higher education.
PEO2: To provide technical skills and resources to design, analyze, and create innovative solutions for engineering problems in a multidisciplinary work environment.
PEO3: To develop leadership qualities, ethical attitude, and competence to excel individually and work with teams.
Offered Programme and Certification:
Diploma in Electrical Engineering (DEE)- Seats-60
Duration: 3 Year (After-10th) -/- 2 Years (After 12th science or equivalent)
Eligibility: 10th pass for 3 years -/- 12th science or equivalent pass for 2 Years
Programme Approved By : MSBTE, AICTE and DTE
Diploma in Electrical Engineering is a full-time 3-year Engineering program. Electrical engineering is designed to help students gain knowledge and skills required by professionals in the Electrical industry. Most industrial manufacturing in India involves the production of Electrical components which in turn the Electrical Engineering program has Huge Scope in the Manufacturing, Government /Private Service and Design Industries.
Professional Scope of Electrical Engineering Program
Electrical Engineering Program Certification plays important role in getting Startup loan from Government of India as well as Private Financial Institution. Professional knowledge of this program reduces the chances of business failure by 90% and one can become master of their business in terms of Technology and Management.
Link: Startup Loan by Government of India.
Pradhan Mantri Mudra Yojana
One can Start following kind of Business:
Manufacture components or Product for Electrical Industry.
Start Service Unit to Service Electrical Products(Factory Wiring, Industry Motor winding, CNC-VMC, Power Generators etc.).
Start a Trading business of Electrical Components and Products.
Sell Electrical Components, Accessories and products online.
Electrical Engineering Program unable you to seek Job in some of following Designation.
Power Plant Engineer:
Become Power Plant Engineers on Government or Private Industry power plants.
Settle Insurance Claim of Insured Product.
Become Supervisor on the production fleet.
(Memorandum Of Understanding)
Department of Electrical Engineering has made MOU with various companies and institution for the technology, expertise and Knowledge exchange. MOU ultimately benefits the students for their personal and personality development.
EE Department has done MOU with Mahavitaran Kolhapur.
EE Department has done MOU with SIBIC Kolhapur.
Create competent electrical engineers to excel their skills in electrical engineering and to enterprise our students in practical knowledge.
Provide the environment where industry oriented education is imparted through systematic teaching and learning process in interaction with industry and alumni. Adopting good content delivery, assessment and continuous improvement methods to achieve desired outcomes.
Welcome to the Department of Electrical Engineering. As a well-known fact, we cannot imagine the world without electricity, and nowadays, electrical devices have become an essential and inevitable part of our daily lives. The Department’s focus is to train our students to get strong academic knowledge in the frontier areas of both electrical and electronics engineering and also to make the students ready to face real-world challenges. The Department has a rich blend of young and highly-experienced regular and visiting faculty members.
The Department faculty have sound knowledge in emerging research areas like Adaptive & Robust control schemes for power electronic applications, High voltage pulse power systems, Electrical machines and drives, Control of electric vehicles and energy management, Power system optimization and Active distribution networks, Home energy management and Smart grid technologies. The focus of this curriculum is keeping in view the current and upcoming industry requirements in future (Industry 4.0).
Electrical Engineering has a wide range of career opportunities in Power industries, Government PSUs, R&D Units, IT industries, Electricity Boards/Utility companies, Telecommunications industries, Manufacturing industries, Private industrial firms and Startup companies.
– Prof. B. B. Rajigare
[ Head Of Department ]
Legendary and Student Focused Faculty
Activities and Events Organized for Students Development.
Electrical Engineering Scope.
Electrical engineering is a field that offers a wide scope of opportunities in various industries. Here are some key aspects of the scope of electrical engineering:
Power and Energy Sector: Electrical engineers play a crucial role in the power and energy sector. They are involved in the generation, transmission, and distribution of electrical power. They design power systems, work on renewable energy projects, optimize energy efficiency, and ensure grid reliability.
Electronics and Communication: Electrical engineers work in the design, development, and manufacturing of electronic devices and communication systems. They design circuits, develop microprocessors, work on embedded systems, and contribute to telecommunications, wireless communication, and networking technologies.
Control Systems and Automation: Electrical engineers are involved in designing control systems and automation solutions for industries such as manufacturing, robotics, and aerospace. They work on projects related to process control, robotics, industrial automation, and mechatronics.
Computer Hardware and Architecture: Electrical engineers contribute to computer hardware design and architecture. They work on designing and improving computer components, such as processors, memory systems, and input/output devices. They also contribute to the development of computer systems and architectures.
Renewable Energy and Sustainability: Electrical engineers play a vital role in the development and implementation of renewable energy technologies. They work on projects related to solar power, wind power, hydroelectric power, and energy storage systems. They also focus on sustainable energy solutions, energy management, and smart grid technologies.
Research and Development: Electrical engineering offers opportunities for research and development in various areas. Engineers can contribute to cutting-edge technologies, such as nanotechnology, quantum computing, artificial intelligence, and biomedical engineering. They work on advancing technology and finding innovative solutions to complex problems.
Telecommunications and Networking: Electrical engineers play a crucial role in the telecommunications industry. They design and develop communication systems, work on wireless networks, satellite communication, fiber-optic systems, and data transmission technologies. They also contribute to the development of communication protocols and network infrastructure.
Consulting and Entrepreneurship: Electrical engineers can work as consultants, providing expertise in areas such as power systems, energy management, electronics, or telecommunications. They can also venture into entrepreneurship, starting their own companies focused on electrical and electronic systems, software development, or energy solutions.
Construction and Infrastructure: Electrical engineers are involved in the design and installation of electrical systems in buildings, infrastructure projects, and transportation systems. They ensure compliance with safety standards, design lighting systems, and integrate electrical systems with other building services.
Aerospace and Defense: Electrical engineers contribute to the aerospace and defense industries by designing and developing electrical systems for aircraft, spacecraft, missiles, and defense systems. They work on avionics, radar systems, communication systems, and electronic warfare technologies.
The scope of electrical engineering is vast and ever-expanding, driven by technological advancements and the need for sustainable energy solutions. Electrical engineers are in demand across industries, and their expertise is critical for solving complex problems, improving efficiency, and driving innovation.
Electrical Engineering Scope in Software Development and AI.
Electrical Engineering plays a significant role in software development and artificial intelligence (AI) in various ways. Here are some areas where the knowledge and skills of electrical engineers are highly relevant:
Embedded Systems: Electrical engineers are well-versed in designing and programming embedded systems, which are the foundation of many software applications. Embedded systems involve hardware and software integration, and electrical engineers can contribute their expertise in designing efficient and reliable systems.
Hardware-Software Interface: Electrical engineers understand the interactions between hardware and software components. They can contribute to the development of software by designing hardware interfaces, ensuring compatibility, and optimizing performance.
Signal Processing: Electrical engineers have a strong background in signal processing techniques, which are essential in various aspects of software development and AI. Signal processing techniques, such as filtering, feature extraction, and noise reduction, are commonly used in areas like audio and image processing, data analysis, and machine learning algorithms.
Control Systems: Electrical engineers are familiar with control systems theory, which deals with regulating and controlling the behavior of systems. This knowledge is highly relevant in the development of software applications that require control algorithms, such as robotics, automation, and autonomous systems.
Machine Learning and AI: Electrical engineers can contribute to the field of machine learning and AI by developing hardware accelerators, specialized processors, and optimized architectures for AI algorithms. They can also work on designing efficient power management systems for AI hardware, which is crucial in reducing energy consumption and increasing computational efficiency.
Data Acquisition and Instrumentation: Electrical engineers are skilled in designing and implementing systems for data acquisition, measurement, and instrumentation. This expertise is valuable in software development, especially in applications that involve real-time data processing, sensor integration, and measurement systems.
Internet of Things (IoT): The IoT connects various devices and enables them to communicate and share data. Electrical engineers can contribute to the development of IoT systems by designing and implementing hardware components, developing communication protocols, and ensuring interoperability between devices.
In summary, electrical engineers bring their knowledge of hardware design, signal processing, control systems, and data acquisition to the field of software development and AI. Their expertise is essential for developing efficient, reliable, and optimized systems that integrate software with hardware components. As technology continues to advance, the scope for electrical engineers in software development and AI is expected to expand further.