S.No. |
Category |
Course Code |
Course Title |
BOS |

1 | ES | GR14A1018 | Basic Electrical Engineering | EEE |

2 | ES | GR14A2004 | Electrical Technology | EEE |

3 | ES | GR14A2026 | Electrical and Electronics Technology | EEE |

4 | ES | GR14A2032 | Electrical and Electronics Technology Lab | EEE |

5 | ES | GR14A2034 | Electromagnetic Fields | EEE |

6 | ES | GR14A2035 | Network Theory | EEE |

7 | ES | GR14A2036 | DC Machines and Transformers | EEE |

8 | ES | GR14A2037 | DC Machines Lab | EEE |

9 | ES | GR14A2038 | Multism / Networks Lab | EEE |

10 | ES | GR14A2039 | Lab View / Matlab Lab | EEE |

11 | ES | GR14A2040 | Power Generation and Distribution | EEE |

12 | ES | GR14A2041 | AC Machines | EEE |

13 | ES | GR14A2042 | Control Systems | EEE |

14 | ES | GR14A2044 | AC Machines Lab | EEE |

15 | ES | GR14A2045 | Control Systems Lab | EEE |

16 | ES | GR14A2046 | Analog and Digital Electronics Lab | EEE |

17 | ES | GR14A2105 | Principles of Digital Electronics | EEE |

18 | ES | GR14A3015 | Op Amps | EEE |

19 | ES | GR14A3016 | Power Transmission System | EEE |

20 | ES | GR14A3017 | Electrical Measurements and Instrumentation | EEE |

21 | ES | GR14A3018 | Power Electronics | EEE |

22 | ES | GR14A3019 | Sensors/ Measurements and Instrumentation Lab | EEE |

23 | ES | GR14A3020 | Power Electronics Lab | EEE |

24 | ES | GR14A3021 | Computer Methods in Power Systems | EEE |

25 | ES | GR14A3022 | Switch Gear and Protection | EEE |

26 | ES | GR14A3023 | Utilization of Electrical Energy | EEE |

27 | ES | GR14A3024 | Non-Conventional Sources of Energy | EEE |

28 | ES | GR14A3025 | Power Systems Lab | EEE |

29 | ES | GR14A4021 | Digital Signal Processing | EEE |

30 | ES | GR14A4022 | Power Semiconductor Drives | EEE |

31 | ES | GR14A4023 | Power System Operation and Control | EEE |

32 | ES | GR14A4024 | High Voltage DC Transmission Systems | EEE |

33 | ES | GR14A4025 | Neural and Fuzzy Systems | EEE |

34 | ES | GR14A4026 | Electrical Distribution Systems | EEE |

35 | ES | GR14A4027 | DSP Based Electrical Lab | EEE |

36 | ES | GR14A4028 | Power Systems Simulation Lab | EEE |

37 | ES | GR14A4029 | Power Electronic Drives Lab | EEE |

38 | ES | GR14A4030 | Programmable Logic Controllers | EEE |

39 | ES | GR14A4031 | Power Systems Automation | EEE |

40 | ES | GR14A4032 | FACTS | EEE |

41 | ES | GR14A4034 | DSP Based Electro Mechanical Systems | EEE |

42 | ES | GR14A4035 | EHV AC Transmission | EEE |

43 | ES | GR14A4036 | Modern Power Electronics | EEE |

44 | ES | GR14A4037 | Advanced Control Systems | EEE |

45 | ES | GR14A4038 | PLC-Lab | EEE |

**Course Outcomes**

**Basic Electrical Engineering – ****GR14A1018**

- Comprehend the basics of Electrical Engineering and practical implementation of Electrical fundamentals.
- Develop numerical solutions to fundamental electrical engineering.
- Make use of basic principles involved in electrical engineering concepts.
- Examine the methods to solve AC circuits.
- Analyse various circuits using network theorems.
- Know the basics of electric machines used in industries.
- Summarize the different applications of commonly used electric machinery.

**Electrical Technology – ****GR14A2004**

- Learn how to develop and employ circuit models for elementary electronic components.
- Know the application of ohms law & Kirchhoff’s laws.
- Will be familiar with ac and dc circuits solving.
- An ability to find role of electrical machinery in simple & complex applications.
- To demonstrate the designing and conducting experiments, to analyze and interpret data, and also provides the ability to visualize and work on laboratory and multidisciplinary tasks.
- The student will be able to measure the fundamental electrical quantities using oscilloscope.
- Ability to know about fundamental principles of electrical machines.

**Electrical and Electronics Technology – ****GR14A2026**

- Apply knowledge of DC generators and motors in various applications and able to know the uses of three point starter.
- Calculate Transformer EMFs, Losses, Efficiency and regulation
- Apply knowledge of alternators and induction motors in various applications.
- Learn to use Semiconductors and pn Junction Diodes in daily life and know about their switching characteristics.
- Apply knowledge of diodes for implementation of Half wave, Full wave and Bridge rectifiers.
- Develop various applications by using special diodes.
- Know how to use BJT as an amplifier and its stabilizing and biasing techniques.

**Electrical and Electronics Technology Lab – GR14A2032**

- Understand The Concept Of Theorems.
- Solve AC And DC Circuits
- Conduct Open and Short Circuit Test On Transformers.
- Conduct Experiment On Alternator To Find The Characteristics.
- Conduct Experiment On Induction Motor.
- Perform Test On DC Motors.
- Perform Test On DC Generators.

**Electro Magnetic Fields – ****GR14A2034**

- Solve the problems in different EM fields
- Design a programming to generate EM waves subjected to the conditions
- Applications of EM Waves in different domains and to find the time average power density
- Solve Electromagnetic Relation using Maxwell Formulae
- Solve Electro Static and Magnetic to Static circuits using Basic relations
- Analyze moving charges on Magnetic fields
- Design circuits using Conductors and Dielectrics.

**Network Theory – ****GR14A2035**

- Measure Three phase voltages and currents, active, reactive powers.
- Express given Electrical Circuit in terms of A,B,C,D and Z,Y Parameter Model and solve the circuits.
- Solve Circuits using Cut set ,Tie Set Methods.
- Find dc and ac transient analysis for given circuit.
- Analyse LP, HP, BS and BP filters.
- Apply dot convention and to find out self and mutual inductance for a given circuit.
- Ability to know poles and zeros of a given transfer function.

**DC Machines and Transformers – ****GR14A2036**

- Understand energy conversion principles in DC machines & Transformers.
- Find role of electrical machinery in simple & complex applications.
- Articulate importance of extensive research in electrical machines.
- Design real time applications.
- Model DC Machine for given specification.
- Draw armature winding for DC Machines
- Find voltages , currents, torque and speed of given machine.

**DC Machines Lab – ****GR14A2037**

- Have knowledge of various parts of a electrical machine.
- Develop knowledge helpful for application of dc machines.
- Ability to conduct speed control of different types of DC Motors.
- Ability to test for characteristics of various generators depending on their type of field excitation.
- Ability to understand the concept of different types of windings viz lap and wave for armature.
- Ability to Perform test on Motor-Generator Set.
- To know the concept of commutation dc machines for conversion of Ac to Dc or Dc to Ac.

**Electrical Networks Lab – ****GR14A2038**

- Demonstrate knowledge of mathematics, science and engineering.
- Demonstrate the ability to identify, formulate and solve engineering problems.
- Demonstrate the ability to analyze and design basic lumped circuits.
- Participate and try to succeed in competitive examinations.
- Demonstrate the ability to simulate network circuits in MULTISIM.
- Use techniques, skills and modern engineering tools necessary for engineering practice.
- Demonstrate the ability to connect hardware components practically on breadboard.

**Electrical Systems Lab – ****GR14A2039**

- Express programming and simulation for engineering programs.
- Find importance of these software’s for lab experimentation.
- Articulate importance of software’s in research by simulation work.
- In-depth knowledge of providing virtual instruments on Lab VIEW Environment.
- Simulate basic electrical circuit in Mat lab Simulink.
- Solve and execute complex algorithms in real time.
- Integrate hardware and their corresponding software

**Power Generation and Distribution – ****GR14A2040**

- Articulate power system concepts required to engineering problems.
- Design power system components for a specified system and application
- Ability to discuss various power sources for generation of power merit/Demerits
- Formulate A.C and D.C distribution networks for necessary variable calculation
- Ability to calculate usage of electrical power
- Ability to plot the power/energy demand in the form of graph
- Ability to discuss functions of substations

**AC Machines – ****GR14A2041**

- Find role of electrical machinery pertaining to Synchronous machines, Single phase motors in simple & complex applications.
- Express importance of extensive research in electrical machines.
- In-depth knowledge of applying the concepts on real time applications.
- Articulate rotating magnetic generation
- Calculate machine variables in direct and quadrature axis form
- Express working of single and three phase AC Machines
- Know the concept of harmonics created in supply systems, need for reduction and design of synchronous machines for reducing them.

**Control Systems – ****GR14A2042**

- Express the basic elements and structures of feedback control systems.
- Represent the mathematical model of a system.
- Apply Routh-Hurwitz criterion, RootLocus, Bode Plot and Nyquist Plot to determine the domain of stability of linear time-invariant system.
- Determine the steady-state response, errors of stable control systems and design compensators to achieve the desired performance.
- Analyse the stability of the system.
- Design lead, lag, lead-lag compensators.
- Express control system models on state space models, to express state transition matrix and calculation of variables.

**AC Machines Lab – ****GR14A2044**

- Have knowledge of various parts of a electrical machine.
- Calculate the parameters of equivalent circuit of single phase induction motor.
- Conduct open circuit/ short circuit test on transformer.
- Conduct experiments on Ac Machines to find the characteristics.
- Draw the various characteristics of three phase induction motor.
- Perform test on synchronous Machine to find Direct and quadrature axis reactance.
- Conduct No Load and Full load tests on transformers/Induction Motor.

**Control Systems Lab – ****GR14A2045**

- Have a strong knowledge of MATLAB software
- Do various engineering projects.
- Formulate transfer function for given control system problems.
- Find time response of given control system model.
- Plot Root Locus and Bode plots for given control system model
- Design Lead, Lag, Lead-Lag systems in control systems
- Design PID controllers for given control system model

**Analog and Digital Electronics Lab – ****GR14A2046**

- Recall the working operation of Operational Amplifiers, 555 Timer and their applications
- Compare the Digital and Analog IC’s
- Practice the amplifiers, waveform generators and oscillator circuits
- Differentiate the integrators and differentiators working operation
- Judge the different waveforms and their applications
- Predict the circuit output waveform and its value.
- Construct the Digital Logic Function and analog circuits.

**Principles of Digital Electronics – ****GR14A2105**

- Identify the different types of number systems and their use.
- Explain the principle concepts of Digital Logic Design.
- Implement the logic circuits using Combinational Logic IC’s.
- Distinguish between the Sequential and Combinational Logic Circuits.
- Reconstruct the Logic Circuits for real time applications with Combinational Circuits
- Formulate the Digital Logic Circuit function.
- Design the Logic Circuit using Combinational and Sequential Circuits

**OP-Amps – ****GR14A3015**

- Recognize the Operational Amplifier and describe their working operation
- Outline different types of applications designed with Operational Amplifiers, 555 timer, ADC and DAC
- Identify the circuits used for different applications implemented with Operational Amplifiers.
- Prioritize the sequence of steps required while designing a circuit
- Analyze the working operation of PLL
- Determine the components used in different applications using Operational Amplifiers, 555 timer, PLL, ADC and DAC
- Develop the basic applications using the IC’s.

**Power Transmission System – ****GR14A3016**

- Exposure on transmission system.
- Find calculation of resistance, Inductance and Capacitance of Transmission Lines.
- Do calculation of power system Transients.
- Discuss various factors governing the performance of Transmission Line.
- Discuss construction of Underground Cables.
- Understand the sag and tension calculations of transmission line.
- Know the different types of overhead line insulators.

**Electrical Measurements and Instrumentation – ****GR14A3017**

- Analyze the techniques and skills for electrical projects.
- Design a system, component or process to meet desired needs in electrical engineering.
- Show measurement of R,L,C ,Voltage, Current, Power factor , Power, Energy
- Calculate unknown values in Bridges.
- Indicate frequency, phase with Oscilloscope.
- Know the usage of Digital voltmeters.
- Formulate strain, displacement, Velocity, Angular Velocity, temperature, Pressure ,Vacuum, and Flow .

**Power Electronics – ****GR14A3018**

- Discuss the basics of power electronic devices.
- Construct the design and control of rectifiers, inverters.
- Discover of power electronic converters in power control applications.
- Compare characteristics of SCR, BJT, MOSFET and IGBT.
- Demonstrate communication methods.
- Experiment the design of AC voltage controller and Cyclo Converter.
- Construct the Chopper circuits.

**Sensors/Measurements and Instrumentation Lab – ****GR14A3019**

- Measure common physical quantities using common sensors and differentiate between the types of transducers available
- Measure the power ,power factor from the given circuits
- Construct basic programs for computer controlled measurement and transfer of data across the sensor network.
- Establish competence in laboratory reporting in addition to the proper instrumentation of test systems and appropriate capture and interpretation of experimental test data.
- Apply the statistics and uncertainty analysis to measuring instruments and record measuring data
- Define various types of bridges in measurements, analyze and process the obtained measures
- Design and create novel products and solutions for real time applications

**Power Electronics Lab – ****GR14A3020**

- Design and conduct simulation and experiments.
- Use the techniques, skills and modern engineering tools necessary for engineering practice.
- Identify, formulate & solve engineering problems with simulation.
- Simulate characteristics of SCR, MOSFET, IGBT.
- Simulate Rectifiers, Choppers, AC voltage controller, Inverter, Cyclo-converter circuits
- Perform cyclo converter circuits on hardware kits.
- Demonstrate working of AC voltage controller circuit on hardware kit.

**Computer Methods in Power Systems – ****GR14A3021**

- Form different network matrices based on graph theory.
- Develop different algorithms for power flow solutions.
- Solve the non-linear power flow equations using numerical methods.
- Calculate short circuit current and MVA capacity.
- Solve unsymmetrical faults using symmetrical components.
- Understand the concepts of steady state stability and its significance.
- Analyze the transient stability of power system.

**Switch Gear and Protection – ****GR14A3022**

- Know different Protective Equipments in Power Systems
- State the terms used for Switchgear and Protection.
- Summarize different techniques for relays and circuit breakers in power systems
- Analyze the types, characteristics and applications of Distance, OverCurrent and Differential relays.
- Identify various protective schemes for Generators, Transformers, Transmission lines and Busbars.
- Illustrate effects and types of Grounded and Ungrounded systems.
- Generalize protection against over voltages for Power System equipment

**Utilization of Electrical Energy – ****GR14A3023**

- Underlying concepts of electrical traction drives
- Introduction to different types of drives used in traction
- A good engineering breadth so as to analyze different Train movements and speed time curves
- Categorization of different types of Electrical Heating and Electrical welding
- Ability to discuss about street lighting and flood lighting
- Assessment of Specific Energy Consumption of a train
- Skill to explain about the different types of Illumination

**Non Conventional Sources of Energy – ****GR14A3024**

- Define the advances in spectral distribution of energy.
- Evaluate the design and Principles of MHD power generation.
- Articulate MHD technology in power control applications.
- Evaluate the Application of OTEC systems
- Know the techniques for principles of EMF generation
- Evaluate Global energy position and environmental effects.
- Know the techniques for energy storage

**Power Systems Lab – ****GR14A3025**

- Know the power systems hardware.
- Analyse the characteristics of various relays.
- Design and analyse the transmission line.
- Analyse various types of faults and its protection.
- Implement various power factor correction systems.
- Perform load flows,short circuit analysis for power generation, transmission and distribution networks.
- Integrate software for applications that provides intelligent power monitoring, energy management, system optimization, advanced automation, and real-time prediction.

**Digital Signal Processing – ****GR14A4021**

- Analyze and process signals in the discrete domain
- Represent the discrete-time signals in the frequency domain.
- Analyze digital signal processing systems using Z-transform and the DTFT.
- Analyze the encoded and decoded information of signals
- Analyze and implement digital systems using the DFT and FFT.
- Design IIR filters to suit requirements for specific applications.
- Design FIR filters to suit requirements for specific applications.

**Power Semiconductor Drives – ****GR14A4022**

- To apply solid foundation in controlling method of different electrical appliances
- Interpret power electronics applications in control of speed, torque and other components
- Develop control Dc motor by Single phase converters.
- Construct control DC Motor by Three Phase Converters
- Able to solve four quadrant operation of DC drives.
- Able to build control DC motors by Choppers
- Able to model the control of Induction motor through system voltage.

**Power System Operation and Control – ****GR14A4023**

- Analyse the steady and dynamic response of LFC control.
- Understand the Economic operation of power system
- Discuss about thermal and hydro power plants operation in meeting the load demand optimally. (State and central wide installation).
- Understand the unit commitment problems and methods to solve the problems.
- Understand how to model turbine, generator and automatic controllers.
- Express the importance of reactive power control through seminars.
- Solve problems (numerical problems at present) by posing different problem models related to Economic Load Dispatch, Load Frequency Control and reactive power control.

**High Voltage DC Transmission Systems – ****GR14A4024**

- Understand the importance of Transmission power through HVDC.
- Analyse the HVDC Converter operation.
- Discuss firing angle control of 6 pulse,12 pulse circuits.
- Discuss harmonics in
- Identify the importance of filters for HVDC system.
- Analyse the impact of AC system faults on DC system operation.
- Identify the need for propoer grounding for HVDC operation.

**Neural and Fuzzy Systems – ****GR14A4025**

- Define the advances in neural networks
- Evaluate the design and control of fuzzy systems.
- Articulate the applications of fuzzy control block sets.
- Evaluate the design of various models in neural networks
- analyze the techniques of various types of neural networks
- Evaluate the design and control of associative memories
- Design fuzzy logic system.

**Electrical Distribution Systems – ****GR14A4026**

- Perform load modeling and analyse the characteristics of loads .
- Articulate the design concepts of primary and secondary systems.
- Understand substation bus schemes and know the difference between 4&6 feeder patterns.
- Apply Knowledge of SCADA concepts for functioning of substations.
- Understand the coordination procedure of various protective devices.
- Determine the optimum capacitor location and can understand the applications of capacitors in distribution systems .
- Understand the importance of voltage control and know the equipment used for it.

**DSP Based Electrical Lab – ****GR14A4027**

- Execute programs in Code Composer Studio.
- Understand TMS320F2812 EzDSP architecture.
- Program and analyse the functions of ADC and Event manager.
- Explain how Digital Signal Processors are used in engineering applications.
- Program and generate PWMs of desired frequency
- Develop DSP based applications on DSP processors.
- Apply programing knowledge in developing projects related to Lab experiments.

**Power Systems Simulation Lab – ****GR14A4028**

- Understand power industry practices for design, operation, and planning.
- Use mathematical tools that are essential for system analysis and design.
- Use commercial software packages in designing solutions to problems.
- Have group participation in design and problem solving.
- Analyse the performance of synchronous machine.
- Apply knowledge of load flows for planning and future expansion of existing as well as non-existing power systems.
- Do modelling of transmission lines.

**Power Electronic Drives Lab – ****GR14A4029**

- To apply solid foundation in controlling method of different electrical appliances
- Interpret power electronics applications in control of speed, torque and other components
- Develop control Dc motor by Single phase converters.
- Construct control DC Motor by Three Phase Converters
- Able to slove four quadrant operation of DC drives.
- Able to build control DC motors by Choppers
- Able to model the control of Induction motor through system voltage.

**Programmable Logic Controllers – ****GR14A4030**

- Perform different types of PLC programming schemes.
- Implement ladder diagrams for process control.
- Control the robots using PLC.
- Tune the PLC for different applications.
- Analyze the PLC internal architecture.
- Extend knowledge of PLC in analogue operations, arithmetic, logic functions, PID etc.
- Interface PLC with other technologies like SCADA, HMI, etc.

**Power System Automation – ****GR14A4031**

- Understand the automation systems in power systems.
- Explore the SCADA communication systems.
- Get acquainted with the SCADA and smart grid protocols.
- Understand new smart devices for substation automation.
- Extend knowledge of substation automation functions and benefits of data warehousing .
- Interpret the load forecasting and transmission operations and management in real time applications.
- Integrate DMS framework and real time DMS applications.

**FACTS – ****GR14A4032**

- Express different types of FACTS controllers and their role in improving power system performance.
- Understand the operating principles of various FACTS devices.
- Relate the performance and applications of VSI & CSI.
- Know the importance of compensation methods in power system network.
- Extend the knowledge of active & reactive power and voltage control with FACTS devices.
- Analyse role of SVC&STATCOM in improving the power system dynamics.
- Analyze the use of control schemes of TCSC,TSSC,GSC in improving the power quality.

**DSP Based Electro Mechanical Systems – ****GR14A4034**

- Explain the architecture and the functioning of different peripherals of F2407.
- Design different types of applications with DSP F2407.
- Apply the sequence of steps required for designing the circuit.
- Understand the various types of Interrupt control registers.
- Analyse the function of various peripherals of DSP for motor control applications.
- Implement the DSP based DC-DC buck-boost converters.
- Design the speed control circuit of stepper motor using DSP F2407

**EHV AC Transmission – ****GR14A4035**

- Understand the importance of estimating the line parameters of EHV AC transmission lines.
- Do the calculation of electrostatic field of AC lines and able to understand their effect on voltage gradients.
- Identify the impact of overvoltages on transmission lines.
- Get the knowledge of energized & un-energized lines and able to understand the requirement of VAR compensation.
- Emphasize on the effect of corona with respect to its characteristics, properties and losses.
- Understand the information of radio noise generation in transmission lines.
- Get the awareness of the design of EHV lines with respect to steady & transient limits.

**Modern Power Electronics – ****GR14A4036**

- Define the advances in power electronic devices.
- Articulate power electronic resonant converters in power control applications.
- Techniques for analyzing and design of resonant inverters
- Evaluate the design and control of multi level inverters.
- Articulate DC power supplies in Power electronic applications
- Evaluate the design and control of AC power supplies
- Evaluate the design and control of uninterruptable power supplies.

**Advanced Control Systems – ****GR14A4037**

- Construct the trajectory for the system with nonlinear element for any initial condition
- Derive the describing Function for non-linearities.
- Identify systems using various identification methods.
- Analyze off-line and on-line identifications of plant dynamics
- Design and implement controller to regulate and control various processes and systems.
- Design pole-assignment controller and the specific design procedures
- Design sliding mode controller for non-linear systems

**PLC Lab – ****GR14A4038**

- Perform PLC programming in software
- Implement ladder diagrams in hardware.
- Control the robots using PLC.
- Implement applications in different types of PLC (Millenium Crouzet , Siemens ,ABB).
- Develop different applications of PLC in control systems.
- Extend knowledge of PLC in analogue operations, arithmetic, logic functions, PID etc.
- Interface PLC with other technologies like SCADA, HMI, etc.