Learning Outcomes

Programme Outcomes (POs)

Students are expected to know and be able –

  • Engineering Knowledge:Apply the knowledge of mathematics, science, engineering fundamentals and an engineering specialization to the solution of complex engineering problems.
  • Problem Analysis:Identity, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics,natural sciences, and engineering sciences.
  • 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 the public health and safety, and the cultural, societal, and environmental considerations.
  • 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.
  • 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.
  • 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.
  • 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.
  • Ethics:Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
  • Individual and team work:Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
  • 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.
  • 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.
  • 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.

 

Programme Specific Outcomes (PSOs)

Electrical Engineering graduates will be able to

  • Design, develop and test AC-AC, AC-DC and DC-DC converters, variable DC power supply by using power electronics components to fulfill electrical engineering requirements.
  • Design and develop LT distribution and PLC control panel using suitable switchgears, sensors, Push buttons, Selector switches as per IEC standards and integrate it in smart automation.

 

Course Outcomes (COs)

First Year Engineering

Course Code and Name:103004 - Basic Electrical Engineering

103004.1

Understand the fundamentals of e.m.f, potential difference, current, resistance and energy conversions from one form to another. They should be able to calculate cost of energy consumption.

103004.2

Understand the basics of magnetic circuits and Identify the relationship between current and magnetic fields with application to determination of inductance.

103004.3

Apply the concept of electromagnetism to understand transformer operation and interpret the relationship between charge and electric fields with its application.

103004.4

Understand basic knowledge of sinusoidal quantities and phasors with their behavior and apply it to purely resistive, inductive and capacitive circuits.

103004.5

Analyze A. C. circuits, interpret relationship between voltage, current and power, examine concept of resonance, and analyze balanced three phase circuits.

103004.6

Analyze and solve D. C. networks by applying various laws and theorems.

Second Year Engineering

Course Code and Name:203141 - Power Generation Technologies     

203141.1

Explain the operations of thermal power plant with all main parts and cycles.

203141.2

Be aware of the principle of operation, components, layout, location, environmental and social issues of nuclear, diesel and gas power plant.

203141.3

Identify and demonstrate the components of hydro power plant. Explain operation of hydro power plant.

203141.4

Find the importance of wind based energy generation along with its design, analysis and comparison.

203141.5

Apply solar energy in thermal and electrical power generation considering energy crisis, environmental and social benefits.

203141.6

Understand the operation of electrical energy generation using biomass, tidal, geothermal, hydel plants, fuel cell and interconnection with grid.

Course Code and Name:207006 - Engineering Mathematics - III     

207006.1

Solve higher order linear differential equation using appropriate techniques for modelizing and analysing electrical circuits

207006.2

Solve problems related to Laplace transform, application to signal processing and control systems

207006.3

Understand Fourier transform, Z-Transform and application to signal processing and control systems

207006.4

Understand Vector differential calculus.

207006.5

Perform vector differentiation and integration analyze the vector field and electromagnetic

207006.6

Analyze conformal mappings, transformations and perform contour integration of complex function in the study of electrostatics and signal processing.

Course Code and Name:203142 - Material Science   

203142.1

Explain properties of dielectric material

203142.2

Explain and summarize properties and applications of insulating material

203142.3

Explain and summarize properties and applications of magnetic material

203142.4

Explain and summarize properties and applications of conducting material

203142.5

Explain and describe the knowledge of nanotechnology, batteries and solar cell materials.

203142.6

To understand the method of testing of different classes of materials as per IS

Course Code and Name:203143 - Analog and Digital Electronics

203143.1

Understand conversion of number system, perform binary arithmetic and reduce Boolean expressions by K- Map.

203143.2

Demonstrate basics of various types of Flip flops, design registers and counter.

203143.3

Analyze parameter of Op-amp and its applications.

203143.4

Apply the knowledge of Op-amp as wave form generators & filters.

203143.5

Use BJT as amplifier with various configurations.

203143.6

Analysis of uncontrolled rectifier.

Course Code and Name:203144 - Electrical Measurements and Instrumentation

203144.1

Write various characteristics of measuring instruments, their classification and range extension technique.

203144.2

Classify resistance, apply measurement techniques for measurement of resistance, inductance.

203144.3

Write construction, working principle and use of dynamometer type wattmeter for measurement of power under balance and unbalance condition.

203144.4

Explain Construction, working principle of 1-phase and 3-phase induction, static energy meter and calibration procedures.

203144.5

Use of CRO for measurement of various electrical parameters, importance of  transducers, their classification, selection criterion and various applications

203144.6

Understand measurement of various physical parameters using transducers.

Course Code and Name:203151 - Soft Skills     

203151.1

Do SWOT analysis

203151.2

Develop presentation and take part in group discussion

203151.3

Understand and implement etiquettes in workplace and in society at large

203151.4

Work in team with team spirit

203151.5

Utilize the techniques for time management and stress management

203151.6

Utilize the techniques for time management and stress management

Course Code and Name:203154 - Audit Course I     

203154.1

Identify potential impact and role for solar thermal system in energy systems.

203154.2

Explain different types of Solar collectors

Course Code and Name:203145 - Power System I

203145.1

Recognize different patterns of load curve , calculate different tariff, its desirable characteristic, different types and concept of TOD

203145.2

Identify the major electrical equipment in power stations and selection of overhead insulators

203145.3

Analyze and apply the knowledge of electrical, mechanical design of overhead lines and underground cables.

203145.4

understand resistance and inductance of transmission line (single phase and three phase)

203145.5

Understand capacitance of transmission line and concept of GMR & GMD for capacitance calculations.

203145.6

Analyze short, medium and long transmission line & calculate efficiency and regulation of short and medium lines.

Course Code and Name:203146 - Electrical Machines-I   

203146.1

Understand the construction and working of single phase transformer with its efficiency.

203146.2

Explain connections of three phase transformer and parallel operation of single phase transformer.

203146.3

Understand the construction and working of DC machine (DC Generator and DC Motor) and types of DC generator and DC motor.

203146.4

Understand commutation process of DC machine and starters required for DC motor.

203146.5

Understand construction, working and performance of three phase induction motor

203146.6

Understand the necessity of starter for three phase induction motor and types of starter.

Course Code and Name:203147 - Network Analysis    

203147.1

Define basic terms and solve network equations with verity of network elements and source combinations

203147.2

Apply different network analysis and simplification theorems to dc and ac circuits and verify the solutions using modern tools for lifelong learning

203147.3

Solve network equations using classical methods and verify the solutions using modern tools for lifelong learning

203147.4

Apply Laplace Transformation technique for solution of network equations

203147.5

Calculate two port parameters and analyze network functions to decide stability of networks

203147.6

Define basic terms related with filters and design low pass/high pass passive filters

Course Code and Name:203148 - Numerical Methods and Programming     

203148.1

Develop algorithms and implement programs using C language for various numerical methods

203148.2

Demonstrate types of errors in computation and their causes of occurrence

203148.3

Identify various types of equations and apply appropriate numerical method to solve different equations

203148.4

Apply different numerical methods for interpolation, differentiation and numerical integration

203148.5

Apply and compare various numerical methods to solve first and second order ODE

203148.6

Apply and compare various numerical methods to solve linear simultaneous equations

Course Code and Name:203149 - Fundamentals of Microcontroller and Applications    

203149.1

Describe the architecture and features of various types of microcontroller

203149.2

Demonstrate programming proficiency using the various addressing modes and all types of instructions of the target microcontroller

203149.3

Program using the capabilities of the stack, the program counter the internal and external memory, timer and interrupts and show how these are used to execute a programme.

203149.4

Write assemble assembly language programs on PC and download and run their program on the training boards.

203149.5

Design electrical circuitry to the Microcontroller I/O ports in order to interface with external devices.

203149.6

Write assembly language programs and download the machine code that will provide solutions real-world control problems such as fluid level control, temperature control, and batch processes.

Third Year Engineering

Course Code and Name:311121 - Industrial and Technology Management  

311121.1

Possess knowledge of types of business, organizations; explore the fundamentals of economics and management.

311121.2

Understand the basic concepts of Technology management and Quality management

311121.3

Analyze and differentiate between marketing management and financial management

311121.4

Recognize the importance of motivation, Group dynamics, Team work, Leadership skills and Entrepreneurship.

311121.5

Explain the fundamentals of Human Resource Management.

311121.6

Identify the importance of IPR and understand the concept of patents, copy rights and trademarks.

Course Code and Name:303141 - Advance Microcontroller and its Applications   

303141.1

Difference between Microcontroller and microprocessor, RISC & CISC architecture and PIC 18F microcontroller internal architecture.

303141.2

Learn and apply the suitable instructions and addressing modes for assembly language programming for different PIC18F458 microcontroller ports.

303141.3

Understand and explain the logic to write, debug and execute the Embedded c program using PIC18F timers, counters and delay.

303141.4

Analyze the various types of interrupts and their priorities to perform a specific task and switching between the normal program and ISR routine with the sample programs.

303141.5

Learn the basics of interfacing using PIC18F for peripheral devices and evaluate the result of interfacing using various Data communication protocols

303141.6

Apply the programming logic skills to interface various peripheral devices by using interfacing circuit programming to evaluate the appropriate result and to judge their application in various domains.

Course Code and Name:303142 - Electrical Machines II   

303142.1

Explain construction and working principle of three phase synchronous machines

303142.2

Calculate regulation of alternator by direct and indirect methods

303142.3

Demonstrate operation of synchronous motor at constant load and variable excitation (V curve and inverted V curves) and constant excitation and variable load.

303142.4

Explain speed control methods of three phase induction motor

303142.5

draw circle diagram of ac series motor

303142.6

Calculate the equivalent circuit of single phase induction motor by performing no load and blocked rotor test.

Course Code and Name: 303143 - Power Electronics  

303143.1

Develop characteristics of different power electronic switching devices

303143.2

Reproduce working principle of power electronic DC converters and use the modern tools to demonstrate it.

303143.3

Explain and analyze the performance of power electronic AC-DC converters and use the modern tools to demonstrate it.

303143.4

Explain the power electronic AC-DC & AC-AC converters and use the modern tools to demonstrate it.

303143.5

Analyze the performance of power electronic single phase DC-AC converters and use the modern tools to demonstrate it.

303143.6

Determine the performance of power electronic three phase DC-AC converters

Course Code and Name:303144 - Electrical Installation Maintenance and Testing   

303144.1

To understand the basic concepts, design and estimation of distribution systems, substation

303144.2

To enable candidate to design earthing system for residential and commercial

303144.3

To understand practical aspects of condition monitoring transformers

303144.4

To understand practical aspects of condition monitoring induction motors

303144.5

To learn the testing of various electrical distribution schemes and equipment

303144.6

Understand electrical safety while working in plants

Course Code and Name:303145 - SEMINAR   

303145.1

To review literature which includes current technology and innovation in Electrical Engineering, identify the problem statement and present possible solution.

303145.2

To develop documentation, presentation and communication skills and improve competence of students as needed by professional in the field

Course Code and Name: 303152 - Audit Course III   

303152.1

To understand the environmental impact, economics and maintenance of WEG

303152.2

To simulate a model to understand the Working of Wind Energy Generation

Course Code and Name:303146 - Power System II

303146.1

Evaluation of ABCD constants, power flow using generalized constants and receiving end circle diagram for transmission line

303146.2

Solve problems involving modelling, design and performance evaluation of EHVAC power transmission lines

303146.3

Understand per unit system and load flow analysis for power system

303146.4

Calculate currents and voltages in a faulty power system under symmetrical fault conditions and relate these fault currents to CB ratings

303146.5

Calculate currents and voltages in a faulty power system under unsymmetrical fault conditions and relate fault currents to CB ratings

303146.6

Understand HVDC transmission and its control methods, HVDC systems in India and recent trends related to HVDC systems

Course Code and Name: 303147 - Control System - I    

303147.1

Understand the basic concept, types and models of the control system. Also need to understand various methods to find the TF of the control system.

303147.2

Understand the behaviour of the system when excited by step input on the basis of steady state and transient response of it.

303147.3

Apply the different tests to judge the stability of the of the control system and to check the dynamic behaviour of the system by plotting Root Locus plots.

303147.4

Understand the concept and difference between time domain and frequency domain approach study of control system and to study various stability methods in frequency domain.

303147.5

Implement Bode plot theory to determine stability of the system in frequency domain system.

303147.6

Understand the concept of various control strategies for design and implementation of time and frequency domain specifications. To understand various control system components.

Course Code and Name:303148 - Utilization of Electrical Energy   

303148.1

Recognize different methods of electric heating and welding, design of heating elements for resistance furnaces and analyze the performance of arc furnaces

303148.2

Explain different types of chemical processes and design electrical circuits for refrigeration and air conditioning applications

303148.3

Define basic terms used in illumination engineering, explain different sources of light and design simple indoor illumination schemes

303148.4

Distinguish between different types of traction systems and explain track electrification supply system constituents and equipment used in traction substation

303148.5

Analyze different types of speed time curves and define important terms used in traction mechanics like average speed, schedule speed, tractive effort, specific energy consumption and coefficient of adhesion

303148.6

Explain characteristics of traction motors, control of traction motors, electrical braking and railway signalling

Course Code and Name:303149 - Design of Electrical Machines

303149.1

Explain the functions of various parts, specifications of transformer and calculate the heating characteristics of the transformer

303149.2

Calculate main dimensions and Design parameters of single phase and three phase transformer with visualization of the transformer in AutoCAD

303149.3

Determine the parameters of transformer along with the understanding of computer aided machine design

303149.4

Calculate main dimensions and winding design parameter of three phase Induction motor along with development of the winding diagram in AutoCAD

303149.5

Select & calculate the design parameters of the three phase induction motor

303149.6

Calculate the performance parameters of the induction motor

Course Code and Name:303150 - Energy Audit and Management

303150.1

Get knowledge of BEE Energy policies, Electricity Acts.

303150.2

Use the principles and strategy of energy management.

303150.3

Enlist energy conservation and demand side measures for electrical, thermal and utility Systems.

303150.4

Use various energy measurement and audit instruments.

303150.5

Carry out preliminary energy audit of various sectors

303150.6

Solve simple problems on cost benefit analysis.

Course Code and Name:303151 - Electrical Workshop  

303151.1

Integrate electrical/electronic circuits for useful applications

303151.2

Acquire hardware skills to fabricate circuits designed, test and do fault finding to achieve result.

303151.3

Read and understand data sheets / manuals for various components used in the circuit and produce results of testing in report form.

Final Year Engineering

Course Code and Name: 403141 - Power System Operation and Control   

403141.1

Apply the theory of dynamics of rotating body to a synchronous machine and evaluate transient state stability of power system consisting of one machine connected to infinite bus bar using equal area criterion

403141.2

Define reactive power in ac circuits, describe necessity of its control and illustrate series and shunt compensations using capacitor, reactor and synchronous condenser

403141.3

Recognize problems in AC transmission system and describe SVC, TCSC, STATCOM and UPFC FACTs controllers with its evolution, principle of operation, circuit diagram and applications to overcome these problems

403141.4

Sketch schematic diagram for automatic voltage regulator and automatic frequency control employed to large size synchronous generator connected in single and two area system and interpret steady state and dynamic response for frequency and tie line power

403141.5

Solve the unit commitment, economic load dispatch problems and define interchange of power with reliability aspects

403141.6

Conduct investigations on Power System stability, load frequency control and economic load dispatch by experimenting in lab and using MATLAB at Individual and Team level and conclude with results to achieve Life-long Learning

Course Code and Name:403142 - PLC and SCADA  

403142.1

Define PLC and explain the overall PLC system including its components

403142.2

Demonstrate the use of ladder diagram programming using programming equipment

403142.3

Explain different digital and analog input/output devices which can be interfaced with PLC and summarize analog operation of PLC

403142.4

Illustrate different sensors and transmitters which can be interfaced with PLC and explain its applications

403142.5

Define SCADA system and explain its architecture along with various industrial applications

403142.6

Define SCADA protocol and explain various protocols used in the industry for communication

Course Code and Name:403143 - Elective I - (Power Quality)

403143.1

Identify importance of various power quality issues

403143.2

Carry out power quality monitoring

403143.3

List and explain various causes and effects of power quality problems

403143.4

Analyze power quality parameters and carry out power quality analysis

403143.5

Select cost effective mitigation technique for various power quality problems

403143.6

Use IEEE 519-2014 power quality standard for harmonic compliance

Course Code and Name:403144 - Elective II - (EHVAC)

403144.1

To understand the need of EHV and UHV systems

403144.2

To know problems encountered with EHV and UHV transmissions

403144.3

To understand the voltage gradient of conductors

403144.4

To describe the impact of such voltage levels on the environment

403144.5

To understand the phenomenon corona and its effect

403144.6

To know methods of governance on the line conductor design, line height and phase etc.

Course Code and Name:403144 - Elective II - (Restructuring and Deregulation)

403144.1

Enlist the functions of various key entities in India and explain the implications of various policies and acts on restructuring and deregulation.

403144.2

Describe the regulatory process in India along with various methods of regulations and list the components involved in tariff determination.

403144.3

Explain various concept of Power sector Economics

403144.4

Explain different power sector restructuring models

403144.5

Explain different types of electricity markets.

403144.6

State different transmission pricing methods and discuss congestion management

Course Code and Name:403145 - Control System - II   

403145.1

Understand the basic concept, types and models of the Digital Control System. Also need to understand sampling and reconstruction concept. To determine the TF of the ZOH and FOH function.

403145.2

Understand the significance of Z – transform and inverse Z – transform. To study the concept of pulse transfer function.

403145.3

Apply the different tests to judge the stability of the of the digital control system. Analyze realization of digital controller by different methods. To understand mapping between S-plane and Z-plane.

403145.4

Understand the concept of State space representation of a system. To analyze various state space model. Evaluate state model of armature controlled DC motor.

403145.5

To understand concept of diagonalization. To evaluate homogeneous and non-homogeneous of system. Evaluation of state transition matrix.

403145.6

Understand and implement the concept of controllability and observability. Design of system by pole placement technique and by full order observer.

Course Code and Name:403146 - Project   

403146.1

Review research literature related with the project title and apply the knowledge of basic science and engineering fundamentals in solving complex engineering problems by using appropriate hardware/software including demonstration of working prototype/s

403146.2

Design solutions to solve complex engineering problems taking into consideration the specific needs related with public health, safety, society, culture and environment leading to sustainable development

403146.3

Apply appropriate techniques, resources and modern engineering tools during the implementation of project with understanding of the limitations

403146.4

Communicate, comprehend and present effectively on complex engineering activities during the implementation of the project work by application of professional skills

403146.5

Demonstrate knowledge and understanding of engineering and management principles and function effectively as an individual and as a member or leader of a diversified team

403146.6

Execute a multidisciplinary project leading to the ability of engagement in lifelong learning and self-development

Course Code and Name:403147 - Switchgear and Protection    

403147.1

Describe the need of protective relaying and explain the operating principles of different types of relay

403147.2

Review the fundamentals of arc interruption and associated terms in circuit breakers

403147.3

Explain the ratings, construction, and working of varies types high voltage circuit breakers.

403147.4

Identify causes of over voltages in power system and methods of mitigation and summarize different relay characteristic using static and numerical principle.

403147.5

Describe different protection schemes for Alternator, Transformer, Transmission lines, Busbar and Induction Motor.

403147.6

Demonstrate to test the switchgear and different protection scheme at Individual and Team level.

Course Code and Name: 403148 - Power Electronic Controlled Drives   

403148.1

To understand the stable steady-state operation and transient dynamics of a motor-load system.

403148.2

To study and analyze the operation of the converter, chopper fed dc drive.

403148.3

To study and understand the operation of classical induction motor drives.

403148.4

To study and understand the operation of modern induction motor drives.

403148.5

To study and analyze the operation of PMSM and BLDC drives and to analyze and design the current and speed controllers for different drives.

403148.6

Discuss the industrial application of electrical drives.

Course Code and Name:403149 - Elective I - (High Voltage Engineering)

403149.1

Reproduce various concepts of breakdown phenomenon of solid, liquid and gaseous materials

403149.2

Understand various causes of overvoltage and protection from Over Voltages

403149.3

List out and reproduce various methods of generation and measurement of DC, AC and impulse high voltage

403149.4

Demonstrate an ability to carry various DC. AC and impulse testing on high voltage equipment and materials

403149.5

Apply safety measures, earthling, shielding for layout of HV apparatus required in High voltage laboratory.

403149.6

Understand the mechanisms of Generation of high Voltage and Current & Measurement of the Same.

Course Code and Name: Elective II:403150 - Smart Grid   

403150.1

Describe the concept of smart grid, compare it with conventional grid and demonstrate difference between them.

403150.2

Explain the devices used in smart technology (Remote Terminal Unit, Phase Measurement Unit etc.), concept of Smart substation and Smart storage technologies.

403150.3

Explain the smart meters, advanced metering infrastructure and outage management system.

403150.4

Understand the concept of Microgrid its application and issues related to interfacing with different devices.

403150.5

Understand Power Quality Management in smart grid and explain issues of grid connected renewable energy sources.

403150.6

Understand and explain Communication architecture of Smart Grid various technologies used along with cyber security.

Marathwada Mitra Mandal's College of Engineering

Survey No. 18, Plot No. 5/3, Near Vandevi Temple, Karvenagar, Pune 411052.

Follow us on