Course Name: 3EP01 Engineering Mathematics - IIIdescoet.co.in/assets/img/copopso/ee/COEE.pdf3EP03.5 Demonstrate the knowledge of Ocean and Tidal Energy Generating System. 3EP03.6 Explain

Course Name: 3EP01 Engineering Mathematics - III

Course Outcomes:

Students shall be able to:

3EP01. 1 Solve the ordinary differential equations Higher order with constant coefficients andits applications

3EP01.2 Apply definition of Laplace transform and determine the Laplace transform of various function

3EP01.3 . Apply Laplace transform to solve differential equations

Define and determine Fourier transform

3EP01.4 Identify and solve the certain forms of difference equation as applied to various system .Solve difference Equation by using Z- transform method

3EP01.5 Classify Scalar and vector point functions and apply vector calculus to Differentiation of vectors, Curves in space, Gradient of a scalar point function, Directional derivatives, Divergence and curl of a vector point function

3EP01.6 Apply fundamental theorem of line integral , Divergence, Stock theorem to evaluatethe integral

Name: Prof. A. S. ShindeDeptt: Mathematics

COURSE NAME : 3EP02 NETWORK ANALYSIS (TH)

COURSE OUTCOMES:

After Completion of this Course Student will be able to-

3EP02.1 Understand the the concept of V-I relationship for Independence voltage and

current sources and Apply mesh and nodal analysis for DC circuits.3EP02.2 Develop the basic skills in solving DC and AC circuits using network

theorems3EP02.3 Understand the concept of time domain analysis of circuits

3EP02.4 Understand the concept of Laplace transforms for solve initial and final

value of periodic signal by analyze partial fraction convolution theorems. 3EP02.5 Understand the concept of flourier series for for Steady State Solution of

Circuits.3EP02.6 Understand the concept of two port network and solve by using impedance,

admittance, hybrid and transmission parameters.

Name: Prof. S. J. TikheDeptt : Electrical Engineering

COURSE NAME : 3EP03 ENERGY RESOURCES & GENERATION

COURSE OUTCOMES:


3EP03.1Analyze the fundamental of solar radiation geometry, measurements and estimation.

3EP03.2Analyze the convertion principle of solar energy and can describe the concept of solar energy storage system.

3EP03.3 Explain the different application of solar energy

3EP03.4Demonstrate the concept of wind energy : conversion, selection site , storage and application.

3EP03.5 Demonstrate the knowledge of Ocean and Tidal Energy Generating System.

3EP03.6 Explain in brief about other non conventional energy sources

Name: Prof. S.R.GawandeDeptt.: Electrical Engineering

COURSE NAME: 3EP04 ELECTRONICS DEVICES & CIRCUIT (TH)

COURSE OUTCOMES:

After Completion of this course students will:

3EP04.1Describe the PN junction, PN junction diodes, Zener diodes understandcharacteristics

3EP04.2Describe Dc and ac analysis of the basic electronic circuits useful to concludeincluding BJT an application based on operation

3EP04.3Understand the concept of different typical transistor amplifier circuits and employ of BJT approach in electronic circuits for practical approach.

3EP04.4 Classify the Power amplifiers and its classification Identify types and methods ofPositive and Negative amplifiers and calculate various parameters

3EP04.5Describe the construction and operations of various diodes and analyze theapplications in various fields

3EP04.6Understand the concept of MODFET and FET and illustrate characteristics ofFET and MOSFET

Name: Prof. M. D. GhatoleDept: Electrical Engineering

COURSE NAME : 3EP05 ELECTRICAL MEASUREMENT ANDINSTRUMENTATION (TH)

COURSE OUTCOMES:


3EP05.1Understand the necessities of measuring instruments. Analyze various instruments used for a measurement of electrical parameters and elements.

3EP05.2Understand the concept of Blondels Theorem and Articulate the knowledgeof it for measurement of power.

3EP05.3Explicate the function of instrument transformer in measuring instruments toextend the range of instruments.

3EP05.4 Understand the working principle of measuring instruments and Apply it to the special measuring instruments.

3EP05.5Demonstrate the concept of AC and DC bridges to Analyze various circuit parameters.

3EP05.6Collaborate the generalize instrumentation system and measurement of non-electrical quantities.

Name: Prof. P. V. RautDeptt.: Electrical Engineering

COURSE NAME: 3EP06 NETWORK ANALYSIS (PR)

COURSE OUTCOMES:


3EP06.1 Calculate current in any branch of multi source circuit using superpositiontheorem.

3EP06.2 Calculate Thevenin's equivalent circuit and verify Thevenin's theorem.

3EP06.3 Calculate Norton's equivalent circuit and verify Norton's theorem.

3EP06.4 Measure power absorbed in a load and verify maximum power transfertheorem only when load resistance is equal to the source resistance.

3EP06.5 Measure current in the branch containing voltage source after shifting it toother branch and verify the reciprocity theorem.

3EP06.6 Find the Z parameter in series connection of two port network

Name: Prof. S. J. Tikhe Deptt: Electrical Engineering

COURSE NAME: 3EP07 Electronics Devices & Circuit (Pr)

Course Outcomes:

After Completion of this course students will able to

3EP07.1Observe and draw the forward and reverse bias V-I characteristics of a P-Njunction and Zener diodes and FET

3EP07.2Examine the I/P and O/P characteristics of transistor connected in CEconfiguration

3EP07.3 Examine the I/P and O/P Waveform of Half Wave and Bridge Rectifier

5EP07.4 Measure resistance and inductance and capacitance parameters

3EP07.5 Determine the frequency of oscillation of colpitts and Hartley oscillator

Name: Prof. A. K. Agawani Deptt.: Electrical Engineering

COURSE NAME: 3EP08 ELECTRICAL MEASUREMENT AND INSTRUMENTATIONLAB (PR)

COURSE OUTCOMES:

After Completion of this Practicals Student will be able to-

3EP08.1Discriminate no. of Bridges for a measurement of various electrical

parameters.

3EP08.2 Recognize methods for measurement of different Categorize of resistance.

3EP08.3Understand the measurement of three phase power by two wattmeter method.

3EP08.4 Evaluate the working of Synchroscope.


COURSE NAME : 4EP01 ELECTRICAL MACHINE-I (TH)

COURSE OUTCOMES:


4EP01.1 Understand the concept of D.C. Machines Construction and principle of operation.

4EP01.2 Understand the concept of D.C. Generator Construction and principle of operation.

4EP01.3 Explain the D.C. Motors Characteristics and Identify starting and speed control ofmotor.

4EP01.4 Understand the concept of Single phase Transformer.

4EP01.5 Understand the concept of three phase transformer and Explain the Constructionand working of transformer.

4EP01.6 Explain phase conversion and identify Wave forms of no-load current and inrushcurrent phenomenon

Name: Prof. S. J. Tikhe

Deptt.: Electrical Engineering

COURSE NAME: 4EP02 ELECTROMAGNETIC THEORY (TH)

Course Outcomes: After Completion of this course students will able to

4EP02.1 Understand basic concept of Cartesian cylindrical and sphericalco-ordinate systems and evaluate vector algebra and vector calculus and theorems

4EP02.2Have the Knowledge of Coulomb’s law electric field Gauss fluxtheorem and describe Electrostatics potential Poison and Laplace equations

4EP02.3Understand the concept of electric dipole polarization and describe P and D vectors boundary conditions and calculate Capacitance andelectrical energy

4EP02.4Understand the concept of Biot-Stewart law Ampere’s law in integraland differential form and applying it to solve Continuity equation time ofrelaxation Vector and Scalar magnetic potential electric current J- vector

4EP02.5

Describe the magnetic dipole equivalent volume and plane section curve andIllustrate the H vector magnetization vector M boundary conditions betweenmagnetic materials inductance Electromagnetic Energy

4EP02.6

Understand the Maxwell equations and wave equations and applying it to solveDisplacement Current time varying fields and Maxwell’s equations, planeuniform magnetic waves also calculate the Depth of penetration poyntingvector

Name: Prof. M. D. GhatoleDeptt:Electrical Engineering

COURSE NAME: 4EP03 ANALOG AND DIGITAL CIRCUIT (TH)

Course Outcomes:


4EP03.1Describe Characteristics of IC components Operation amplifier understandOPAMP IC 741

4EP03.2Describe Linear and Non-linear Application of Op-amplifiers examine the multi vibrator using op-amps

4EP03.3Understand the concept of linear IC’s in detail and timer IC and evaluate the numerical base on application

4EP03.4 Describe the Basic Logic Circuits and analyze the concept of CMOS and logicfamily

4EP03.5Describe the concept Combinational Digital Circuits and Binary adder Arithmetic Digital comparator Decoder demultiplexer

4EP03.6 Understand the concept Sequential Circuits and Design using filp-flops

Name: Prof. M. D. GhatoleDeptt: Electrical Engineering

COURSE NAME: 4EP04 ENGINEERING MATHEMATICS- IV

Course Outcomes: After Completion of this course students will able to

4EE04.01 Students shall be able to Comprehend knowledge in term of complex variable,harmonic function and conformal mapping

4EE04.02 Students shall be able to used theory of counter integration to formulate singularpoints, Taylor’s series, Laurent’s series, Cauchy’s integral theorem and Cauchy’s integralformula. Residue: Cauchy’s residue theorem. Contour integrals. Integration forms: f(x) dx, f(sinx, cos x) dx

4EE04.03 Students shall be able to solve the Partial differential equations, Higher order with constant coefficients.

4EE04.04 Students shall be able to Evaluate solution of Legendre’s and Bessel’s equations by Frobensious method, power series method

4EE04.05

Students shall be able to extend the concept of basic probability and apply for probability distributions: Binomial, Possion and Normal.

4EE04.06 Students shall be able to apply method least square, matrix theory to construct equation of straight line, parabola, solution of differential equation

Name: Prof. U. T. ArbatDeptt: Mathematics

COURSE NAME: 4EP05 NUMERICAL METHODS AND COMPUTERPROGRAMMING (TH)

COURSE OUTCOMES:

After completion of this course, student will:

4EP05.1Understand Floating point number representation, errors, accuracy; find theroots of Algebraic & Transcendental equations by applying Bracketing & Openmethods; Implement these methods in C.

4EP05.2Gain the Knowledge of Iterative methods & Direct methods to EvaluateSimultaneous Algebraic equations; Determine Eigen values of a matrix & largestEigen value and Implement these methods in C.

4EP05.3Understand Interpolation and solve the interpolation problems by ApplyingLagrange’s method & Interpolation with Cubic splines and Implement thesemethods in C.

4EP05.4Understand Numerical differentiation & Integration and solve the problems byApplying various methods; Implement these methods in C.

4EP05.5Understand ordinary differential equations, obtain their solutions by applyingR-K, Euler’s Method and Implement these methods in C.

4EP05.6Understand Principles of Object Oriented Programming and its differentTerminologies.

Name: Prof. A. B. Nagdewate Deptt: Electrical Engineering

COURSE NAME : 4EP06 ELECTRICAL MACHINE-I (PR)

COURSE OUTCOMES:


4EP06.1 Determine the load test on DC shunt generator and plot the performancecharacteristics

4EP06.2 Determine the load test on DC series generator and plot the performancecharacteristics

4EP06.3 Observe speed control of DC shunt motor by armature control method

4EP06.4 Observe speed control of DC shunt motor by field control method

4EP06.5 Observe performance parameters like efficiency and torque

4EP06.6 Convert three phase AC supply in two phase supply by using ScottConnection

Name: Prof. S. J. TikheDeptt: Electrical Engineering

COURSE NAME: 4EP07 Analog and Digital Circuit (PR)

Course Outcomes:


4EP07.1 Understand Operational amplifier inverting and non inverting

4EP07.2Understand the concept of voltage follower and calculate practical andtheoretical gain

4EP07.3 Implement a stable multi vibrator on frequency duty cycle

4EP07.4To design single and four bit comparator using k map and understand thefunction of table IC 7285

4EP07.5Understand the concept of de multiplexer using IVC 74154 and implementthe counter using IC 7490


COURSE NAME: 4EP08 NUMERICAL METHODS AND COMPUTERPROGRAMMING (PR)

COURSE OUTCOMES:

After completion of this course, student will be able to:

4EP08.1Write a C- Langauge Program to Find the roots of any algebraic &transcendental Equation.

4EP08.2 write a C- Langauge Program to Solve the simultaneous Equations

4EP08.3Write a C- Langauge Program to solve Interpolaton Problem by applyingLagranges Interpolation Method

4EP08.4 Write a C- Langauge Program to Evaluate Numerical integration by

4EP08.5 Write a C- Langauge Program to Solve Ordinary Differential Equations

4EP08.6 Understand object oriented Programming

Name: Prof. A. B. NagdewateDeptt: Electrical Engineering

COURSE NAME : 5EP01 CONTROL SYSTEM - I (TH)

COURSE OUTCOMES:


5EP01.1Understand the basic concept of control system and transfer function. Apply various techniques to solve control system problems.

5EP01.2Analyze and Design theControl System Components to find out transfer function of system.

5EP01.3 Predict the time response analysis for first and second order system.

5EP01.4Understand the concept of stability and Adapt various methods to find out the stability of a system for graph plotting.

5EP01.5Evaluate frequency response methods to Deterrmine the stability of transferfunction.


COURSE NAME: 5EP02 MICROPROCESSOR AND MICROCONTROLLER(TH)

COURSE OUTCOMES:

After Completion of this course students will able to:

5EP02.1Understand the architecture memory register structure addressing modes andDescribe the various instructions of 8085 microprocessor Illustrate the timingdiagram

5EP02.2 Define interrupt structure and evaluate the various assembly language programs

5EP02.3Understand concept of stack structure, memory interfacing 8255 modes of operation explain the PPI 8255 PIC 8259 USART 8251

5EP02.4 Describe peripheral interface IC's 8255 & 8253 Understand the Architecture of8086

5EP02.5Discuss the microprocessor based applications and explain Measurementtechniques

5EP02.6Understand the concept microcontroller 8051 and discuss instructions to writeALP programs


COURSE NAME : 5EP03 ELECTRICAL MACHINE-II (TH)

COURSE OUTCOMES:


5EP03.1 Understand the fundamentals of AC rotating machines.5EP03.2 Explain the construction &working principle of Synchronous Generators And

Identify parameters of the circuit models to determining regulations andefficiencies.

5EP03.3 Explain the construction &working principle of Synchronous motor and Analyzethe concept of synchronization.

5EP03.4 Explain the construction &working principle of three phase induction motor andanalyze performance equations direct and indirect testing-circle diagram

5EP03.5 Understand the different methods of starting and speed control of 3 phase IM

5EP03.6 Explain the construction &working principle of special type of single phase IM


COURSE NAME: 5EP04 Signal & System (TH)

COURSE OUTCOMES:

After Completion of this course students will able to-

5EP04.1 Acquire the knowledge of basic concepts of signals and systems

5EP04.2 Understand and Apply the concept of Fourier transform

5EP04.3 Understand and Analyze LTI discrete time signals

5EP04.4 Understand and Apply the concept of Sampling of continuous time signal

5EP04.5Gain fundamental knowledge of Z- Transform and solve problems based on the same concept

5EP04.6Understand and apply the concept of Discrete Fourier Transform and Fast Fourier Transform

Name: Prof. A. K. Agawani Deptt: Electrical Engineering.

COURSE NAME: 5EP06.1T (Communication Skills- 5EP06) (TH)

Course Outcomes: After Completion of this course, students will able to5EP06.1 Apply vocabulary-building strategies to improve their analysis of readings,

Demonstrate a literal comprehension of readings, through identification andanalysis of main ideas, supporting details and rhetorical patterns oforganization and development as well as gain knowledge of grammar to facecompetitive examinations to pursue master degree.

5EP06.2 Demonstrate the skills needed to participate in a conversation that buildsknowledge collaboratively: listening carefully and respectfully to others’viewpoints; articulating their own ideas and questions clearly; and situatingtheir own ideas in relation to other voices and ideas as well as able to prepare,organize, and deliver an engaging oral presentation.

5EP06.3 Recognize, explain, and use the rhetorical strategies and the formal elementsof these specific genres of technical communication: technical abstracts, databased research reports, instruction manuals, technical descriptions,applications, notices, minutes, quotations, orders, enquiries andcorrespondence.

Name: Dr. F. C. Pathan Deptt: Basic Science Engineering.

COURSE NAME: 5EP07 Control System (Pr)

Course Outcomes:

After completion of this course student will be able to :-

5EP07.1 Use potentiometers and Synchros as error detectors5EP07.2 Understand time domain analysis of a second order system5EP07.3 Examine the performance characteristics of a DC motor and study speed

control of DC motor5EP07.4 Find Root-locus, Nyquist plot and Bode- plots in MATLAB

Name: Prof. A. K. AgawaniDeptt.: Electrical Engineering

COURSE NAME: 5EP08 Microprocessor and Microcontroller (PR)

Course Outcomes:


5EP08.1Describe the architecture of 8085 microprocessor discuss the function ofvarious blocks

5EP08.2 Evaluate the assembly language programs of microprocessor 8085

5EP08.3 Understand the opcode and operand of the instructions

5EP08.4Understand the assembly language programs and develop the programs forvarious applications

5EP08.5Describe the architecture of 8051 microcontroller discuss the function ofvarious blocks

5EP08.6 Evaluate the assembly language programs of microcontroller 8051


COURSE NAME : 5EP09 ELECTRICAL MACHINE-II (PR)

COURSE OUTCOMES:


5EP09.1 Determine the percentage regulation and impedance of a synchronousgenerator by Open Circuit and Short circuit test.

5EP09.2 Understand the performance characteristics of three phase induction motor.

5EP09.3 Determine performance characteristics from the circle diagram.

5EP09.4 Determine the characteristics of single phase induction motor at no load andblocked rotor test.

5EP09.5 Determine the regulation of three phase Alternator by direct loading

5EP09.6 Determine the regulation of three phase Alternator by OC and SC test.


Course Name: 5EP10 Communication Skills (PR)

Course Outcomes:

The Student will be able to :

5EP10.1Apply knowledge of vocabulary commonly used in college reading, writing,and speaking.

5EP10.2 Acquire the skills of conversation.5EP10.3 Challenging ideas – both their own and others with the goal of arriving at a

more complete understanding, develop ideas – using the ideas of others toimprove their own thinking and acquire ideas – using discussion as a way ofcollecting ideas alongwith check ideas – making sure that their ideas werethe right ones; that they were learning the right things

5EP10.4 Understand and develop the techniques of Interview and hence face job interviews more confidently.

5EP10.5 Able to prepare, organize, and deliver an engaging oral presentation.5EP10.6 Acquire language skills required to write their business, Job and business

Correspondence 5EP10.7 Develop effective communication by the utilizing the proper non verbal

codes in regard to body language.

Name: Dr. F. C. PathanDeptt: Basic Science & Engg.

COURSE NAME: 6EP01 ELECTRICAL POWER-I (TH)

COURSE OUTCOMES:


6EP01.1

Understand skin effect and proximity effect, double circuit lines, bundled conductors; &Determine Transmission line parameters by applying G.M.D. & G.M.R. methods,Evaluate effect of earth on inductance and capacitance, interference with communicationlines.

6EP01.2Gain the knowledge of Electrical characteristics of transmission line, Ferranti effect &corona phenomenon; Determine effect of corona and power loss due to corona andRepresent power systems in per unit system and one-line reactance diagrams.

6EP01.3Understand Voltage control and power factor improvement & automatic voltage control;Use of static VAR generators and synchronous phase modifiers; Determine Analyticaland graphical methods.

6EP01.4Get knowledge of load flow problem, different buses & its classification; Apply GaussSeidel method & Newton Raphson method for load flow analysis.

6EP01.5Understand Mechanical design of Transmission Line, different insulator types, linesupports for LV, HV and EHV and string efficiency and Apply methods of increasingstring efficiency; Calculate Sag.

6EP01.6Understand Parameters of underground cable, different types of cables and theirmanufacture., Explain Underground cables.

Name: Prof. A. B. Nagdewate

Deptt: Electrical Engineering

COURSE NAME: 6EP02 OPTIMISATION TECHNIQUES (TH)

COURSE OUTCOMES:


6EP02.1

Understand engineering applications of optimization; Formulate anoptimization problem; Apply optimization techniques; Evaluate single andmulti variable optimization with and without constraints using Classicaloptimization techniques.

6EP02.2Understand basic concepts of linear programming & by applying linearprogramming techniques, solve & evaluate different complex real lifeproblem of optimum resource allocation

6EP02.3Gain the Knowledge of transportation Problems for optimize transportationcost.

6EP02.4Understand different methods of non linear programming techniques & byapplying it solve the constraints problems.

6EP02.5Understand the graphical representation of project and Differentiatebetween CPM and PERT and by applying it evaluate the project foroptimum completion of it.

6EP02.6Understand dynamic programming techniques to solve the complexengineering Problems for resource allocation.

Name: Prof. B. S. Rakhonde Deptt: Electrical Engineering

COURSE NAME: 6EP03 POWER ELECTRONICS (TH)

COURSE OUTCOMES:


6EP03.1 Understand structure, characteristics and applications etc. of power semiconductor devices

6EP03.2 Tell different triggering, commutation and other methods of thyristors

6EP03.3 Analyse single phase and three phase Rectifiers with different types of load

6EP03.4 Enumerate single phase and three phase inverter with different loads and PWM techniques

6EP03.5 Discuss types, operations and control techniques of choppers

6EP03.6 Evaluate the controlling parameters of DC and AC motors


COURSE NAME : 6EP04 COMPUTER AIDED MACHINE DESIGN (TH)

COURSE OUTCOMES:


6EP04.1 Understand the transformers and three phase induction motors 6EP04.2 Understand the Transformer Design using Magnetic Circuit and Calculate core

loss from design data.6EP04.3 Understand the Transformer Design using Electric circuit and Calculate primary

and secondary winding resistances and leakage reactants from design data.

6EP04.4 Explain motor stator design and analyzespecific electric and magnetic loadingsselection

6EP04.5 Explaincage rotor winding design and cage rotor winding design and Compare it

6EP04.6 Explain the Induction motor parameters And Calculate the stator and rotorwinding resistances and leakage reactants from design data


COURSE NAME : 6EP06 ELECTRICAL ENERGY UTILISATION (TH)

COURSE OUTCOMES:


6EP06.1Understand the fundamental concepts of drives and types of drives used in mills and industry.

6EP06.2Analyze the accessing techniques for braking system implementation in electrical motor.

6EP06.3 Understand and Design trapezoidal and quadrilateral speed time curves of electrical motor.

6EP06.4 Design ideal electrical traction system.

6EP06.5 Articulate different types of Electric Heating, welding and Illumination.

Name: Prof. P. V. Raut


COURSE NAME: 6EP07 Power Electronics (Pr)

Course Outcomes:

After completion of this course student will be able to :-

6EP07.1 Understand V-I characteristics of SCR, DIAC and TRIAC and Find latching and holding currents of SCR and TRIAC

6EP07.2 Acquire the basic knowledge of speed control of DC motor using SCR 6EP07.3 Compute MATLAB simulation of single phase half wave controlled converter and

single phase half wave and full wave fully controlled bridge converter6EP07.4 Compute MATLAB simulation of three phase bridge inverter for 180 degree

conduction mode

Name: Prof. A. K. AgawaniDeptt.: Electrical Engineering

COURSE NAME : 6EP08 COMPUTER AIDED MACHINE DESIGN (PR)

COURSE OUTCOMES:


6EP08.1 Implement least square error method of curve fitting

6EP08.2 Calculate the KVA rating of 1 phase and 3 phase transformers

6EP08.3 Determine the phase transformer design parameters

6EP08.4 Determine regulation of three phase transformer

6EP08.5 Design the thermal circuit of a three phase transformer

6EP08.6 Calculate magnetizing current of 3 phase induction motor


COURSE NAME : 6EP09 ELECTRICAL ENERGY UTILISATION (PR)

COURSE OUTCOMES:

After Completion of this Practicals Student will be able to-

6EP09.1 Determine the performance characteristics electrical motor by load test.

6EP09.2 Apply various braking techniques on electrical motors.

6EP09.3Understand and Design speed control characteristics of AC motor by rotor resistance control.

6EP09.4Understand and Design speed control characteristics of DC motor by armature and field control.

6EP09.5 Analyze various methods for electrical heating.6EP09.6 Understand the concept of illumination.

Name: Prof. P. V. Raut


COURSE NAME: 7EP01 CONTROL SYSTEM-II (TH)

COURSE OUTCOMES:


7EP01.1Apply the fundamentals of compensation techniques to uncompensated control systems

7EP01.2 Understand the concept of state space techniques and obtain STM, SRM etc.

7EP01.3 Acquire the knowledge of controllability and observability

7EP01.4Gain the knowledge of sampled data control system and understand its importance

7EP01.5 Evaluate and analyze fundamentals of non-linear systems

7EP01.6Understand and Apply the concepts of non-linear systems in modern control system


COURSE NAME: 7EP02 POWER SYSTEM OPERATION & CONTROL

COURSE OUTCOMES:

7EP02.1Understand the UCP and LSP to get Knowledge of Economic Operation;

Evaluate Optimum scheduling of generation between different units.

7EP02.2Describe operation and functions of automatic load dispatch & expressTransmission loss as a function of plant generation to determine Incrementaltransmission loss.

7EP02.3Explain Effect of real and reactive power on system parameters to developAutomatic Voltage Regulator and Represent block diagram & TransferFunction of AVR Loop.

7EP02.4Understand Automatic Load Frequency Control to Evaluate Closing ofALFC loop.

7EP02.5Gain Knowledge about Primary & Secondary ALFC loop to evaluateIntegral Control & Pool operation.

7EP02.6 Explain Steady-State Instabilities

Name: Prof. B. S. Rakhonde Deptt: Electrical Engineering

COURSE NAME : 7EP03 ELECTRICAL POWER –II (TH)

COURSE OUTCOMES:


7EP03.1Analyze the structure of electrical power and find the symmetrical

components.

7EP03.2Analyze the system components modeling, representation and designing of

transmission line parameter used in power system

7EP03.3 Synthesize the Elementary distribution scheme.

7EP03.4 Calculate the short circuit faults in system.

7EP03.5 Analyze the concept of load flow analysis.

7EP03.6 Analyze the concepts of real and reactive power control.

Name: Prof. S.R.Gawande


COURSE NAME: 7EP04 SWITCH GEAR AND PROTECTION (TH)

COURSE OUTCOMES:


7EP04.1 Understand Circuit Interruption; Explain AC circuit breakers.

7EP04.2 Gain knowledge of Fuses & classify its Types; Classify Circuit Breakers &Understand its operation and application.

7EP04.3Gain the knowledge about Testing, Installation and Maintenance CircuitBreakers.

7EP04.4 Understand Relaying Principle & CT’s and PT’s; Classify Relays; Apply Electromagnetic Relays in the system.

7EP04.5 Understand protection of Transmission Line by Applying differentRelaying schemes

7EP04.6 Understand Protection of Transformers, Motors, Generators and Buses;Static Relaying; Introduce Microprocessor based relay.


7EP05 / 7EL05 / 7EE05 PROFESSIONAL ELECTIVE - I COURSE NAME : (3) COMPUTER METHODS IN POWER SYSTEM

ANALYSIS COURSE OUTCOMES:

After completion of this course, student will :

7EP05.1Gain the knowledge of the power system (components) for computerizedanalysis by representing it in terms of mathematical modeling.

7EP05.2Understand Graph Theory concepts of power system and formulate network &incidence matrices by applying network topology also Evaluate networkmatrices using singular & non-singular transformation.

7EP05.3Knowledge of bus impedances and admittances matrices; find Z & Y matrix byalgorithm, Modification in bus impedance and admittance matrix and obtainloop impedance matrix

7EP05.4Understand Three phase networks, Symmetrical components; apply Thevenin’stheorem for short circuit analysis using bus impedance matrix. Short circuitcalculations for balanced three phase networks using bus impedance matrix.

7EP05.5Understand load (power) flow, load flow problems & Sparsity Technique; Byapplying Gauss Seidel method, Newton Raphson method, decoupled method, fastdecoupled methods obtain load flow analysis.

7EP05.6

Understand Transient stability & represent mathematical model formultimachine system stability analysis, Formation of equations and methodsof solutions; Transient stability analysis. Apply modified Euler method andRunge Kutta 4th order Approximation method to evaluate Solution of stateequation.


COURSE NAME : 7EP07 ELECTRICAL POWER -II(Pr)

COURSE OUTCOMES(PR):

After Completion of this Course Student will be able to

7EP07.1Understand zero , positive and negative sequence impedance in power

system

7EP07.2 Analysis balance three phase fault system in power system.

7EP07.3 Understand overvoltage protection.

7EP07.4Understand the construction & working of FACT system

Name: Prof. S.R.Gawande


COURSE NAME: 7EP08 SWITCH GEAR AND PROTECTION (PR)

COURSE OUTCOMES:

After completion of this course, student will:

7EP08.1 Understand Relaying components and control circuit for main supply controlpanel & direction control of induction motor

7EP08.2 Find the characteristics of rewirable fuse & M.C.B and plotting it.

7EP08.3Find the Operating characteristics of inverse time & numerical based overcurrentrelay and plotting it.

7EP08.4 Demonstrate Protection of three phase induction motor.

7EP08.5 Determine ratio & phase angle of C.T. and P.T.

7EP08.6 Gain the Knowledge of Air Break, Air Blast, Vacuum & SF6 Circuit Breaker


COURSE NAME: 8EP01POWER SYSTEM STABILITY

COURSE OUTCOMES:


8EP01.1 Apply steady state stability analysis of single, two and multi machine system

8EP01.2 Solve transient stability problem

8EP01.3Understand voltage stability problem & preventive methods for voltagecollapse

8EP01.4 Apply different method to improve stability of power system

8EP01.5 Understand the swing equation & their uses.

8EP01.6 Understand the types of exciter & their description.

Name: Prof. S.R.GawandeDeptt: Electrical Engineering

COURSE NAME: 8EP02 High Voltage Engineering (TH)

COURSE OUTCOMES:


8EP02.1Explain the concept of solid,liquid, gaseous insulating medium breakdown phenomenon

8EP02.2 Tell various methods of generation of high voltages

8EP02.3 Describe various methods of measurement of high voltages

8EP02.4 Learn voltage phenomenon & concepts of insulation coordination

8EP02.5 Understand the importance of testing of power apparatus

8EP02.1Explain the concept of solid,liquid, gaseous insulating medium breakdown phenomenon

Name: Prof. A. K. AgawaniDeptt: Electrical Engineering

COURSE NAME: 8EP03 Digital Signal Processing (TH)

COURSE OUTCOMES:


8EP03.1 Understand basic concept of digital signal processing describe the frequency domain of signals & systems and Evaluate numerical of linear difference equations

8EP03.2Describe Fourier transform of Discrete Time Signal and its properties computenumerical on circular and linear convolution

8EP03.3Understand the concept of Sampling of signal describe the A/D converter and of D/A converter

8EP03.4 Classify the Filter with different forms and design a filter using various methods

8EP03.5Describe Analog filter types Illustrate the Methods to convert analog filter into IIRdigital filter and Evaluate Mapping of differential Impulse invariant Bilineartransformation

8EP03.6Understand the concept of DSP Processors and describe DSP Microprocessorsarchitectures with fixed point floating point precision


COURSE NAME : 8EP04 PE-II POWER QUALITY (TH)

COURSE OUTCOMES:


8EP04.1Understand the meaning of power quality and Classify the power quality problems.

8EP04.2 Analyze power quality characteristics and suggest preventive techniques.

8EP04.3 Explicate the power quality standards.

8EP04.4Understand reasons for grounding and describe the wiring & grounding problems and solutions.

8EP04.5Identify the power quality measurement tools &Estimate power quality surveys.

Name: Prof. P. V. RautDeptt: Electrical Engineering

COURSE NAME: 8EP06 Digital Signal Processing (PR)

Course Outcomes:


8EP06.1 Understand the basic signals sequence using MATLAB

8EP06.2 Observe the folding of signal using MATLAB code

8EP06.3 Illustrate the MATLAB programs of interpolation process

8EP06.4 Develop the code for filter design using different windows

8EP06.5 Evaluate the frequency response of the system


Documents

Course Name: 3EP01 Engineering Mathematics - IIIdescoet.co.in/assets/img/copopso/ee/COEE.pdf3EP03.5 Demonstrate the knowledge of Ocean and Tidal Energy Generating System. 3EP03.6 Explain