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Department of Electrical Engineering

About Department

Our vision is to produce excellence engineers that brings out with high technical competencies and promotes high-end research to meet the current and future challenges in professional and research assignments in electrical engineering and allied fields. Our department is ready to provide students with fundamental knowledge of engineering and build up career of students in government and private sector. We also plan to develop leadership skill, entrepreneurial skills in students. We also help to finding out knowledge inside of them and according to that we will guide for making bright career in future. I look forward for preparing my students to face the challenges regarding engineering and technology, research area, becoming a successful entrepreneur who might be helpful for the betterment of the society and our nation

Department of Electrical Engineering

Vision

To produce excellence engineers that brings out with high technical competencies and promotes high-end research to meet the current and future challenges in professional and research assignments in electrical engineering and allied fields.

Mission

  1. To enable students to develop skills to solve complex technological problems of current times and also provide a framework for promoting collaborative and multidisciplinary activities.
  2. To provide quality education and to encourage students for higher education, various career enhancing courses and competitive exams for a successful career in electrical engineering field
  3. To have regular interaction with industry and offer solutions to their problems.

Department of Electrical Engineering

Head of the Department

Prof. Sagar.R.Sonone

Designation - HOD Qualification - B.E (EE), M.E( Electrical Power System) (Phd. Appear) Area of Specialization - Digital Electronics Experience - 11 Years

Our vision is to produce excellence engineers that brings out with high technical competencies and promotes high-end research to meet the current and future challenges in professional and research assignments in electrical engineering and allied fields. Our department is ready to provide students with fundamental knowledge of engineering and build up career of students in government and private sector. We also plan to develop leadership skill, entrepreneurial skills in students. We also help to finding out knowledge inside of them and according to that we will guide for making bright career in future. I look forward for preparing my students to face the challenges regarding engineering and technology, research area, becoming a successful entrepreneur who might be helpful for the betterment of the society and our nation

Department of Electrical Engineering

Faculty

Prof. Pooja.R.Dalvi

Designation - Professor Qualification - B.E (EE), M.E( Electrical Power System) Experience - 2 Years

Prof. Anata.P.Kolhe

Designation - Asst. Professor Qualification - B.E (EE), M.E( Electrical Power System)(Appear) Experience - 6 Years

Prof. Madhuri .N.Kshirsagar

Designation - Asst. Professor Qualification - B.E (EE), M.E( Electrical Power System) Experience - 3.5 Years

Prof. Niraj.T.Dandage

Designation - Assistant Professor Qualification - B.E (EE), M.E( Electrical Power System)(Appear) Experience - 01 Year
Laboratory
View Laboratory

Departmental Labs

Sr. No. Name of Lab Lab Incharge
1 Electrical Machine -1 Lab Prof. A.P. Kolhe
2 Electrical Machine -2 Lab Prof. N.T. Dandage
3 Electrical Measurement & Instrumentations Lab Prof. P.R. Dalvi
4 Network Analysis Lab Prof. M.N. Kshirsagar
5 Switchgear & Protection Lab -------
6 Control System Lab -------
7 Basic Electrical Engg. Lab Prof. S.R. Sonone
Activities
Departmental Activities
Placement
Placement Summer 2023
Placement Summer 2024
Syllabus
Scheme Second Year Syllabus
Third Year Syllabus
Final Year Syllabus

Electrical Engineering Department

Program Outcomes (POs)

  1. Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
  2. Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
  3. Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for public health and safety, and the cultural, societal, and environmental considerations.
  4. Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
  5. Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
  6. The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal, and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
  7. Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
  8. Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
  9. Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
  10. Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
  11. Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
  12. Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

Program Specific Outcomes (PSOs)

  • PSO1: Familiarize electrical engineering components and systems.
  • PSO2: Apply and understand modern management and construction techniques to complete projects within the stipulated period and funds.
  • PSO3: Enhance employability skills by making students capable of qualifying competitive examinations related to electrical engineering and providing platforms for innovation, entrepreneurship, and higher studies.

3rd Semester - Course Outcomes (COs)

MATHEMATICS-III
CO Statement
3EP01.1 Apply the Fundamental concepts of Ordinary Linear Differential Equation by different methods.
3EP01.2 Apply Laplace Transform to solve differential equation with constant coefficient.
3EP01.3 Apply Laplace Transform to specify function and to solve Fourier Transform.
3EP01.4 Solve difference equation first & higher order and to evaluate difference equation by Z-transform.
3EP01.5 Apply Gradient, curl of scalar point function & vector point function & their physical meaning.
3EP01.6 Evaluate line, surface & volume integrals, solenoidal vector fields, Stokes & Divergence Theorem.
ELECTRICAL CIRCUIT ANALYSIS
CO Statement
3EP02.1 Determine V-I characteristics of Inductance & Capacitance, also understand basic nodal & mesh Analysis.
3EP02.2 Verify various network theorems and study of source transformation.
3EP02.3 Formulate various combinations of RC circuits; understand the concept of steady state & sinusoidal steady state frequency response of circuits.
3EP02.4 Illustrate the Laplace transform, function shifting theorem and final value theorems.
3EP02.5 Analyze sinusoidal steady state and Fourier series representation of non-sinusoidal periodic waveforms.
3EP02.6 Formulate Two port networks and characterize them in terms of impedance, admittance, hybrid and transmission parameters.
ELECTRICAL MACHINES-I
CO Statement
3EP03.1 Analyze the construction and characteristics and application of various types of DC generators.
3EP03.2 Analyze the construction and characteristics and application of various types of DC motors and testing of motors according to Indian standard.
3EP03.3 Understand electrical principle, laws, and working of 1-phase transformer and losses. Also conduct various tests on the transformer.
3EP03.4 Understand electrical principle, laws, and working of 3-phase transformer and losses. Also conduct various tests on the transformer.
3EP03.5 Analyze the transformer and convert 3-phase transformer to multi-phase transformer.
3EP03.6 Acquire knowledge about testing and applications of DC machines.
ENERGY RESOURCES AND GENERATION
CO Statement
3EP04.1 Explain different Conventional Energy Resources like oil, coal, gas etc.
3EP04.2 Understand the different types of power stations.
3EP04.3 Able to select the site for any Power Plant.
3EP04.4 Explain working of various parts of Power Plant.
3EP04.5 Explain non-conventional energy resources like solar energy, wind energy, ocean energy etc.
3EP04.6 Explain the operating principle of non-conventional Power Plants.
ELECTRONIC DEVICES AND CIRCUITS
CO Statement
3EP05.1 Comprehend the knowledge of diode and its applications in rectifier and regulator circuits.
3EP05.2 Understand the current voltage characteristics of semiconductor devices.
3EP05.3 Understand basics of BJT, JFET, MOSFET, UJT and their operational parameters.
3EP05.4 Understand feedback concept, topologies and their applications.
3EP05.5 Implement and analyze various electronic circuits.
3EP05.6 Understand the different Oscillator Circuits for various frequencies.

4th Semester - Course Outcomes (COs)

ELECTROMAGNETIC FIELDS
CO Statement
4EP01.1 Apply vector calculus to understand the behavior of static electric and magnetic fields.
4EP01.2 Formulate and solve problems in electrostatics and magnetostatics in dielectric media.
4EP01.3 Describe and analyze electromagnetic wave propagation in free-space.
4EP01.4 Analyze plane electromagnetic waves at boundaries between homogeneous media.
4EP01.5 Analyze the electromagnetic radiation from localized charges considering retardation effects.
4EP01.6 Evaluate Maxwell equations and wave equations.
ELECTRICAL MEASUREMENT AND INSTRUMENTATION
CO Statement
4EP02.1 Understand the details of different bridges used for measurement of RLC.
4EP02.2 Identify the appropriate instrument that is used for measurement purposes.
4EP02.3 Study the generalized instrumentation system with the help of a block diagram.
4EP02.4 Calculate the parameters related to measurement.
4EP02.5 Know the transducers and their use in measurement of force, torque, velocity, and acceleration.
4EP02.6 Understand the basic idea about measurement of temperature, pressure, and flow.
CONTROL SYSTEM-I
CO Statement
4EP03.1 Studied different types of control systems.
4EP03.2 Understand and solve the transfer function, block diagram, signal flow graphs numerically.
4EP03.3 Understand time response analysis.
4EP03.4 Understand stability and check stability using Routh-Hurwitz criterion and root locus.
4EP03.5 Understand frequency response methods.
4EP03.6 Understand stability analysis from frequency response.
NUMERICAL METHODS AND COMPUTER PROGRAMMING
CO Statement
4EP04.1 Solve algebraic and transcendental equations using different methods.
4EP04.2 Solve simultaneous algebraic equations using iterative and direct methods.
4EP04.3 Understand interpolation and evenly spaced points.
4EP04.4 Understand numerical differentiation and integration.
4EP04.5 Solve ordinary differential equations using different methods.
4EP04.6 Understand the basic concept and benefits of object-oriented programming.
ANALOG AND DIGITAL CIRCUITS
CO Statement
4EP05.1 Understand the characteristics and operation of different analog ICs.
4EP05.2 Comprehend the knowledge of basic concepts and performance parameters of Op-Amp.
4EP05.3 Use Op-Amp for implementation of linear and non-linear applications.
4EP05.4 Comprehend the knowledge of PLL, its applications and data converters.
4EP05.5 Understand digital logic families and their characteristics.
4EP05.6 Identify, analyze and design combinational and sequential circuits.
4EP05.7 Use the knowledge of semiconductor memories and programmable logic devices in digital design.

5th Semester - Course Outcomes (COs)

POWER SYSTEM - I
CO Statement
5EP01.1 Compare Overhead Conductor and Underground cable.
5EP01.2 Explain the parameter of transmission line and their importance.
5EP01.3 Explain voltage control & Power factor improvement methods.
5EP01.4 Understand the effect of losses on transmission line.
5EP01.5 Calculate Load flow problem & Understand classification of buses.
5EP01.6 Explain types of insulators & Their Materials.
5EP01.7 Explain representation of power systems.
MICROPROCESSORS & MICROCONTROLLERS
CO Statement
5EP02.1 Comprehend fundamentals of Microprocessor (8085 & 8086) and Microcontroller.
5EP02.2 Understand architectural difference between Microprocessor and Microcontroller.
5EP02.3 Develop Assembly Language Programming concepts of Microprocessor.
5EP02.4 Interface different peripheral devices with Microprocessor.
5EP02.5 Understand applications of Microprocessor and Microcontroller.
5EP02.6 Develop skill of writing programs in ALP for various applications of 8085.
5EP02.7 Evaluate assembly language programs theoretically and practically by single step execution.
ELECTRICAL MACHINES - II
CO Statement
5EP03.1 To impart the knowledge on fundamentals of AC rotating machine.
5EP03.2 To impart the knowledge on constructional details, principle of operation of 3-phase alternator and synchronous motor.
5EP03.3 To impart the knowledge on constructional details, operation, performance, starter, speed control and braking of 3-phase induction motor.
5EP03.4 To impart the knowledge on constructional details, operation, types of 1-phase induction motor and special machines.
5EP03.5 To find the application of every electrical AC machine.
5EP03.6 Describe different small machines like single phase Induction, hysteresis, and reluctance type motor.
SIGNALS AND SYSTEMS
CO Statement
5EP04.1 Characterize & analyze the properties of CT & DT signals & systems.
5EP04.2 Analyze CT & DT systems in time domain using convolution.
5EP04.3 Represent CT systems in frequency domain using Fourier analysis tools like CTFS, CTFT.
5EP04.4 Represent DT systems in frequency domain using Fourier analysis tools like DTFS, DTFT.
5EP04.5 Describe the effects of sampling a CT signal.
5EP04.6 Analyze CT & DT systems using Z Transform.

6th Semester - Course Outcomes (COs)

POWER ELECTRONICS
CO Statement
6EP03.1 Explain structure and working of power devices.
6EP03.3 Calculate different parameters of uncontrolled rectifier.
6EP03.4 Calculate different parameters of chopper circuit.
6EP03.5 Demonstrate applications of power electronics devices.
6EP03.6 Explain different inverters and application circuits.
6EP03.7 Design & develop power electronics circuit for various applications.
COMPUTER AIDED MACHINE DESIGN
CO Statement
6EP04.1 Able to classify the machine.
6EP04.2 Able to design the electrical parameters of machine.
6EP04.3 Able to select the appropriate rating for any application.
6EP04.4 Can correlate manual methods to obtain machine parameters with computer methods.
6EP04.5 Have the basic knowledge about machine programming.
6EP04.6 Design stator & rotor circuit of Induction Motor.
UTILISATION OF ELECTRICAL ENERGY
CO Statement
6EP06.1 Understand basic illumination and design of lighting schemes for various applications.
6EP06.2 Understand use of electrical energy for industrial heating and welding.
6EP06.3 Maintain electric drives used in industries.
6EP06.4 Figure out different traction schemes and their main components.
6EP06.5 Analyze and solve various problems and issues in electric power utilization.
6EP06.6 Create awareness of energy conservation.

7th Semester - Course Outcomes (COs)

POWER SYSTEM - II
CO Statement
7EP03.1 Understand the basics of power system.
7EP03.2 Analyze and solve problems on symmetrical & unsymmetrical faults, and stability.
7EP03.3 Understand the concept of High Voltage DC Transmission.
7EP03.4 Understand the concept of steady state and transient stability.
7EP03.5 Understand the concept of FACTS.
7EP03.6 Understand economy of operation and types of grounding.
DIGITAL SIGNAL PROCESSING
CO Statement
7EP03.1 Understand Digital Signal Processing.
7EP03.2 Introduction to Fourier Transform.
7EP03.3 Understand Sampling.
7EP03.4 Solve problems of filter categories and FIR filter design.
7EP03.5 Understand the analog filter types.
7EP03.6 Apply DSP processors in real-world applications.
ENTREPRENEURSHIP AND PROJECT MANAGEMENT
CO Statement
7EP02.1 Express economic operation of power system and importance of LFC control.
7EP02.2 Solve problems on Economic Load Dispatch, Load Frequency Control, and reactive power control.
7EP02.3 Discuss single area and two area load frequency control.
7EP02.4 Model and design turbine and Automatic controllers.
7EP02.5 Express variation of frequency in power system with changing load.
7EP02.6 Evaluate AGC loops and model AVR transfer functions.

8th Semester - Course Outcomes (COs)

POWER SYSTEM PROTECTION
CO Statement
8EP04.1 Identify the basic components of protection systems.
8EP04.2 Recognize the main types of circuit breakers.
8EP04.3 Classify the main types of electromagnetic and static relays.
8EP04.4 Design overcurrent and distance protection schemes for transmission lines.
8EP04.5 Develop transformer and bus bar protection schemes.
8EP04.6 Develop generator and motor protection schemes.
COMPUTER METHODS IN POWER SYSTEM ANALYSIS
CO Statement
8EP05.1 Design the rating of loads.
8EP05.2 Analyze the electrical power system.
8EP05.3 Compare manual methods with computer methods.
8EP05.4 Perform short circuit analysis.
8EP05.5 Design protective schemes for power systems.
8EP05.6 Examine load flow problems using different techniques.
HIGH VOLTAGE ENGINEERING
CO Statement
8EP02.1 Understand causes of overvoltage in power systems and protection methods.
8EP02.2 Understand insulation coordination and design of insulation levels.
8EP02.3 Illustrate methods for high voltage and current measurements and design circuits.
8EP02.4 Understand dielectric properties and aging under high voltage stresses.
8EP02.5 Gain knowledge of high voltage applications and general concepts.
8EP02.6 Design Gas Insulated Substation layouts and apply insulation coordination.
POWER QUALITY
CO Statement
8EP04.1 Understand the need for power quality and classify different types of loads.
8EP04.2 Solve power quality issues faced by users.
8EP04.3 Understand the role of various organizations in power quality.
8EP04.4 Identify power quality problems in electrical devices.
8EP04.5 Gain knowledge of wiring and grounding practices.
8EP04.6 Conduct and interpret power quality surveys.