Electrical Engineering Department

Electrical Engineering

Powering innovation through cutting-edge technology

DEPARTMENT OF ELECTRICAL ENGINEERING

R.V. Parankar College of Engineering And Technology

ABOUT US

We have a graduate program in Electrical Engineering Department which is a brilliant rainbow of young minds from all over the country, with students coming from competitive pools and staff members who have good reputations for their work ethics.

The Department offers sound theoretical and practical training in state-of-the-art equipment. The Department is backed by good requirements of industries and establishments. The department offers B.E. course in Full time.

VISION

Our vision is to produce Electrical Engineers with dynamic well-rounded personalities adaptable to ever increasing demands of emerging technologies involving analytical and practical skills.

MISSION

To offer good quality Under-Graduate, Post-Graduate and Doctoral programmes in electrical and electronics engineering
To provide state-of-the-art resources that contribute to achieve excellence in teaching-learning, research and development activities
To bridge the gap between industry and academia by framing curricula and syllabi based on industrial and societal needs
To provide suitable forums to enhance the creative talents of students and faculty members
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
To inculcate moral and ethical values among the faculty and students

OUR LABS

Network Analysis Lab

Equipped with modern instruments for circuit analysis and network theorems

Electrical Machine Lab

Hands-on experience with generators, motors, and transformers

Department Of Electrical Engineering: We also have graduate program in Electrical Engineering Department which is a brilliant rainbow of young minds from all over the country, with the Students coming from the competitive pool and the staff members, who have good reputation for their work ethics. The Department offers sound theoretical and practical training in state of the art equipment. The Department is backed by a good requirements of industries and establishments. The department offers B.E. course in Full time. VISION : our vision is to produce Electrical Engineers with dynamic well rounded personalities adaptable to ever increasing demands of emerging technologies involving analytical and practical skills. MISSION • To offer good quality Under-Graduate, Post-Graduate and Doctoral programmes in electrical and electronics engineering • To provide state-of-the-art resources that contribute to achieve excellence in teaching-learning, research and development activities • To bridge the gap between industry and academia by framing curricula and syllabi based on industrial and societal needs • To provide suitable forums to enhance the creative talents of students and faculty members • 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 • To inculcate moral and ethical values among the faculty and students. Our lab: Network Analysis Lab:

Electrical Machine Lab:

Electrical Engineering (CBCS)
THIRD SEMESTER (CBCS)
Electrical Engineering Mathematics (BTCHEE301T)
CO1	Solution of Partial Differential Equations of First Order First Degree, Numerical Solution to Ordinary Differential Equations
CO2	Formulation and solving the systems with complex variable
CO3	Understanding the basics of various Transforms and converting the functions into required transforms, Laplace Transforms analysis and its application to solve differential equations
C04	Application of Differential equations and Laplace Transform for mathematical model formulation of the physical systems, Understanding the concept of transfer function
CO5	Understanding the concepts of Stochastic analysis and its application
Network Analysis (BTCHEE302T)
CO1	Apply mesh current and node voltage methods to analyze electrical circuit
CO2	Apply network theorems for the analysis of networks
CO3	Obtain transient and steady-state responses of electrical circuits
C04	Synthesize waveforms and apply Laplace transforms to analyze networks
CO5	Evaluate different Network Functions and understand two port network behavior
Electrical Measurement and Instrumentation (BTCHEE303T)
CO1	Various aspects of measurement and instrumentation
CO2	Different active and passive components measurement methods
CO3	Power and Energy measurement
C04	Instrument Transformers
CO5	Aspects and types of transducers
Analog Devices & Circuits (BTCHEE304T)
CO1	Design and Analyze rectifier circuits
CO2	Understand the characteristics and use of a transistor as amplifiers
CO3	Apply the knowledge of transistor for the analysis of power amplifiers and oscillators
C04	Understand OP/AMPs
CO5	Analyze and utilize OP-AMPs
Renewable Energy Studies (BTCHEE305T)
CO1	Memorize the fundamental of solar radiation geometry
CO2	Identify and analyse the process of power generation through solar photovoltaic
CO3	Highlighting the various applications of Solar Energy
C04	The time the requirement criteria for solid temperature and temperature of wind generators
CO5	Identifying non-conventional Energy sources such as Geothermal, MHD, Biomass, Fuel cell, Tidal, Ocean for generating Electricity
Introduction to Python Programming ( BTCHEE306T )
CO1	Identify different operators and execute different programs using loops
CO2	Analyze Strings, List, Tuples, Dictionary and Sets
CO3	Illustrate functions and utilize Date Time in programming language
Environmental Studies
CO1	Understand Environmental Pollution: Students will be able to explain the sources, effects, and control techniques of air, water, soil, and noise pollution, including natural degradation pathways and their impact on environmental cycles.
CO2	Apply Pollution Control Techniques: Students will demonstrate knowledge of conventional and advanced methods to control air and water pollution, including wastewater treatment processes and technologies like bioremediation and phytoremediation.
CO3	Evaluate Waste Management Strategies: Students will assess solid waste management techniques, such as composting, vermiculture, and hazardous waste treatment, and analyze the environmental impact and management of e-waste.
C04	Analyze Social and Legal Environmental Issues: Students will interpret the concept of sustainable development, environmental laws (e.g., Environment Protection Act, Wildlife Protection Act), and government initiatives like Swachh Bharat Abhiyan, while evaluating challenges in their enforcement.
CO5	Develop Practical Environmental Awareness: Through field trips, case studies, and report writing, students will apply theoretical knowledge to real-world environmental issues, fostering skills in observation, analysis, and communication.
Network Analysis Lab
CO1	Analyze and calculate currents and voltages in electric circuits using Kirchhoff’s Current Law (KCL) and Kirchhoff’s Voltage Law (KVL).
CO2	Apply and verify circuit theorems, including Superposition, Thevenin’s, Norton’s, Maximum Power Transfer, and Reciprocity Theorems, to simplify and analyze complex electrical networks.
CO3	Evaluate resonance characteristics in RLC series and parallel circuits to understand frequency response and impedance behavior.
C04	Determine Z-parameters for two-port networks to model and analyze the performance of electrical systems.
CO5	Develop practical skills in constructing, measuring, and verifying theoretical concepts in electrical circuits through hands-on experiments.
Electrical Measurement and Instrumentation Lab
CO1	Demonstrate proficiency in measuring electrical parameters: Students will accurately measure low, medium, and high resistances using Kelvin’s Double Bridge, Ammeter-Voltmeter Method, and Loss of Charge Method, respectively.
CO2	Apply bridge circuits for precise measurements: Students will effectively use Schering Bridge and Maxwell’s Bridge to measure capacitance and inductance, showcasing an understanding of AC bridge principles.
CO3	Evaluate power in electrical systems: Students will measure three-phase power using the Two Wattmeter Method and reactive power using the One Wattmeter Method, interpreting results for practical applications.
C04	Calibrate and validate electrical instruments: Students will calibrate an energy meter, ensuring accuracy in energy measurements and understanding calibration standards.
CO5	Analyze sensor characteristics: Students will investigate and plot the characteristics of LVDT and Piezoelectric sensors, demonstrating the ability to interpret sensor behavior for real-world applications.
Analog Devices & Circuits Lab
CO1	Understand Semiconductor Diode Characteristics: Analyze and plot the VI characteristics of a silicon diode in both forward and reverse bias, demonstrating knowledge of diode behavior and its applications.
CO2	Analyze Rectifier Circuits: Evaluate the output waveforms of single-phase bridge-type full-wave rectifiers and capacitive full-wave bridge rectifiers, explaining their role in AC-to-DC conversion.
CO3	Design Voltage Regulation Systems: Implement and assess a Zener diode as a load voltage regulator, understanding its ability to maintain stable output voltage under varying load conditions.
C04	Investigate BJT Configurations: Examine the characteristics and performance of a Bipolar Junction Transistor (BJT) in common emitter and common amplifier (inverting and non-inverting) configurations, applying them to signal amplification.
CO5	Apply Operational Amplifiers in Signal Processing: Construct and analyze differentiator and integrator circuits using operational amplifiers, interpreting their output waveforms and applications in signal processing.
Introduction to Python Programming Lab
CO1	Apply Fundamental Programming Concepts: Students will demonstrate the ability to write Python programs that perform arithmetic operations, manipulate strings, and utilize control structures to solve problems, such as finding the largest of three numbers and generating star patterns using nested loops.
CO2	Manipulate Data Structures: Students will exhibit proficiency in creating, modifying, and accessing elements in Python data structures, including lists, tuples, and dictionaries, to perform operations like concatenation, appending, and substring extraction.
CO3	Develop Modular and Time-Based Programs: Students will design Python programs that incorporate modules to compute sequences like Fibonacci numbers and handle time-based outputs, such as printing the current date in a specified format, while integrating user input for geometric calculations like triangle side lengths.
FOURTH SEMESTER (CBCS)
Signal and Systems (BTCHEE401T)
CO1	Understanding the basics of signal space theory
CO2	Understanding the concepts of state space representation
CO3	Understand convolution sum of two signals
C04	Apply Fourier and Laplace transforms, understand the duality Apply DFT, DTFT and z-transform
CO5	Understand the concept of sampling and reconstruction
Digital Electronics (BTCHEE402T)
CO1	Understand number system, logic gates and logic families
CO2	Design and implement combinational digital circuits
CO3	Design and implement sequential logic circuits
C04	Understand the process of Analog to Digital conversion and Digital to Analog conversion
CO5	Understand memories and function in the implement given logic
Electrical Machines-I (BTCHEE403T)
CO1	Determine Equivalent Circuit parameter, Efficiency and Regulation of Single Phase Transformer and to Explain the Phasor groups of Three Phase Transformer
CO2	Analyze different characteristics of D. C. Motor and Speed Control of D.C. Motor
CO3	Explain different types of Three Phase Induction Motor and Analyze the characteristics at different Value of Slip
C04	Know Voltage Regulation of Three Phase Synchronous Generator and Behavior of Synchronous Motor with Different Excitations
CO5	Understand Single Phase Machines and Special Machines
Power System (BTCHEE404T)
CO1	Understand the basic structure of power system, smart grid and micro grid
CO2	Model and represent the power system components in its per unit value
CO3	Learn the parameters of transmission line sand cables
C04	Evaluate the performance of transmission lines
CO5	Acquaint with the method of load flow analysis and the concept of voltage stability
Electromagnetic Field (BTCHEE405T)
CO1	Recognize and apply the knowledge of different co-ordinate systems
CO2	Evaluate the physical quantities of electromagnetic fields in different media and apply Gauss law
CO3	Describe static electric fields boundary conditions, nature of dielectric materials and evaluate potential fields
C04	Explain steady magnetic fields, their behavior in different media, associated laws and inductance
CO5	Understand Maxwell’s equations in different forms and different media
Simulation & Programming Techniques (BTCHEE406T)
CO1	Learn the basics of C programming and apply the knowledge for developing small
CO2	Apply the knowledge of C language for developing simple programs using variables, arrays, structures etc. for applications like searching and sorting, use of pointers & File handling functions
CO3	Understand the basics of C++
C04	Study the basic of MATLAB and apply fundamental knowledge for analysis of basic engineering problems
CO5	Apply knowledge of MATLAB, Toolboxes and Simulink to solve matrix equations, plot graphs, build and analyze simple electrical circuits
Digital Electronics Lab
CO1	Understand and Verify Logic Gate Operations: Students will be able to verify the truth tables of various logic gates (AND, OR, NOT, NAND, NOR, XOR) and comprehend their functional behavior in digital circuits.
CO2	Apply Universal Gates for Logic Design: Students will demonstrate the ability to use NAND and NOR gates as universal gates to construct and verify any logic function, showcasing their versatility in digital circuit design.
CO3	Design and Implement Combinational Circuits: Students will gain proficiency in designing and implementing combinational logic circuits, including multiplexers, demultiplexers, half adders, full adders, encoders, and decoders, and verifying their truth tables.
C04	Analyze Sequential Logic Circuits: Students will understand the operation of sequential circuits by studying and verifying the truth tables of different types of flip-flops and implementing a 4-bit ripple counter using JK flip-flops (7476).
CO5	Develop Practical Skills in Digital Electronics: Students will acquire hands-on skills in constructing, testing, and troubleshooting digital circuits using basic and universal gates, combinational, and sequential logic components.
Electrical Machines-I Lab
CO1	Demonstrate the ability to dismantle and analyze the construction of a DC machine, understanding its components and assembly.
CO2	Apply techniques to control and reverse the direction of rotation of a DC shunt motor, evaluating the impact of field and armature modifications.
CO3	Evaluate the performance characteristics of DC shunt motors and single-phase transformers through brake tests, open circuit, and short circuit tests, determining efficiency and regulation.
C04	Implement speed control methods for DC shunt motors and analyze their effectiveness under varying operating conditions.
CO5	Execute parallel operation of single-phase transformers, measuring load current and power sharing to assess operational efficiency and compatibility.
Simulation & Programming Techniques Lab
CO1	Develop proficiency in writing C programs to perform arithmetic, relational, and logical operations, demonstrating an understanding of basic programming constructs.
CO2	Calculate geometric properties such as area and perimeter of shapes (rectangle, circle, triangle) through C programs, applying mathematical formulas in a programming context.
CO3	Implement iterative algorithms to compute sums of sequences (first 10 natural, even, and odd numbers) and identify prime and Armstrong numbers, showcasing control structures and loops.
C04	Apply sorting and searching techniques by implementing bubble sort for arrays and linear search for elements, demonstrating fundamental data structure operations.
CO5	Demonstrate advanced programming concepts including recursion for factorial calculation, string manipulations (length, copy, concatenate, compare), and parameter passing techniques (call by value and call by reference) in C programs.
FIFTH SEMESTER (CBCS)
Microprocessor and Microcontrollers (BTCHEE501T)
CO1	Describe internal organization of 8085 and 8086 microprocessor and 8051 microcontrollers
CO2	Describe the concept of addressing modes and timing diagram of microprocessor
CO3	Interface 8085 & 8051 with keyboard/ Display, ADC/DAC, Stepper motor etc.
C04	Demonstrate the concept of internal and its use
CO5	Demonstrate the concept of serial & parallel data communication
CO6	Describe Handshaking concept and interfacing with peripheral devices
CO7	Interface various hardware with microprocessor and microcontroller
Control Systems (BTCHEE502T)
CO1	Model the linear systems and study the control system components specifications through classical and state variable approach
CO2	Understand the time response and time response specifications and different controllers
CO3	Analyze the use of the required required required to the method
C04	Frequency response tools like bode plat and nyquist plot
CO5	Understand the concept of state varible approach
Power Electronics (BTCHEE503T)
CO1	Knowledge of different types of semiconductor switches and their characteristics
CO2	Knowledge of different types of power conversion system with their operation
CO3	Knowledge of various rectifier circuits at loading conditions
C04	Knowledge of various operating modes of inverter and control circuits
CO5	Knowledge of different DC-DC conversion circuit & four quadrant operation
Advanced Electrical Power System (BTCHEE504T)
CO1	Apply symmetrical components concepts in fault analysis
CO2	Evaluate fault currents for different types of faults
CO3	Appreciate concepts of power system stability
C04	Understand methods to control the voltage, frequency and power flow
CO5	Understand economic operation of power system
Power Station Practice (BTCHEE505T)
CO1	Understand various sources of electrical energy and different factors related to generating stations and connected load
CO2	Select the current system, major equipment and characteristics in thermal power station
CO3	Understand the basic principle of hydro power station
C04	Learn basics of nuclear power generation
CO5	Understand the different excitation systems, captive and cogeneration
Microprocessor and Microcontrollers Lab (BTCHEE501P)
CO1	Understand and Utilize Microprocessor Kits: Demonstrate proficiency in using the Ansuman Kit to implement basic microprocessor operations, including initialization and configuration for programming tasks.
CO2	Develop Data Manipulation Programs: Write and execute programs to perform arithmetic operations, such as addition of multi-byte data, and manipulate memory locations for storing results, ensuring accurate data handling.
CO3	Master Memory Data Transfer Techniques: Create programs to transfer and exchange data between memory locations, handling both overlapping and non-overlapping memory blocks efficiently.
C04	Analyze and Process Data Sequences: Design algorithms to process sequences of data, including finding the largest number, converting numbers based on specific conditions (e.g., even numbers or positive values), and storing results systematically.
CO5	Implement Data Sorting and Interfacing: Arrange data in ascending or descending order within specified memory locations and interface peripheral devices like the 8255 PPI with microprocessors to control external components such as LEDs.
Control Systems Lab (BTCHEE502P)
CO1	Analyze Transducer and Error Detection Characteristics: Demonstrate the ability to evaluate the performance of transducers and error detectors by studying their characteristics and applying them in practical scenarios.
CO2	Evaluate DC Motor and Servomotor Performance: Understand and analyze the torque-speed characteristics of DC motors and the performance of DC servomotor speed control systems to assess their operational efficiency.
CO3	Master Synchro Systems and Angular Error Detection: Gain proficiency in studying synchro transmitter-receiver pairs, utilizing them as torque synchros, and measuring angular errors for precise control applications.
C04	Implement Microprocessor-Based Control Systems: Develop skills in controlling stepper motors using microprocessor-based systems, understanding their programming and operational principles.
CO5	Apply Control System Analysis Techniques: Utilize MATLAB to plot and analyze open-loop transfer functions through root locus, Bode, and Nyquist plots, determining key parameters like gain margin, gain crossover frequency, and phase crossover frequency for system stability and performance assessment.
Power Electronics Lab (BTCHEE503P)
CO1	Analyze Power Semiconductor Characteristics: Demonstrate the ability to study and plot the VI characteristics of SCR, DIAC, TRIAC, and IGBT, interpreting their behavior in power electronics circuits.
CO2	Implement Motor Speed Control: Apply TRIAC-DIAC circuits and chopper techniques to effectively control the speed of AC and DC motors.
CO3	Design Phase-Controlled Rectification: Construct and evaluate a phase-controlled bridge rectifier using resistive loads to understand controlled power conversion.
C04	Develop Drive Circuits for Power Devices: Build and analyze drive circuits for SCR and TRIAC using DIAC and UJT, ensuring reliable triggering and control.
CO5	Understand Frequency Conversion: Investigate the operation of a single-phase cyclo-converter to comprehend frequency control in power electronics applications.
SIXTH SEMESTER (CBCS)
Engineering Economics & Industrial Management (BTCHEE601T)
CO1	Understand the concept of demand and supply and its relationship with the price
CO2	Related various factors of production with reference to different economic sectors
CO3	Analyze the causes and effects of inflation and understand the market structure
C04	Acquire knowledge of various functions of management and marketing management
C05	Perceive the concept of financial management for the growth of business
Computer Applications in Power System ( BTCHEE602T)
CO1	Students will be able to determine bus Impedance & Admittance matrix by singular transformation for power system.
CO2	Determine bus Impedance & Admittance matrix by inspection and building algorithm and able to accommodate changes in Power System.
CO3	Do the Short circuit calculation for symmetrical and unsymmetrical fault using bus impedance and admittance matrix.
C04	Do the load flow analysis by N-R method and Transient stability analysis by Modified Eulers method.
Switch Gear & Protection (BTCHEE603T)
CO1	Understand basic terminology of Protective Relaying, different types of faults and components used in Power System protection.
CO2	Apply over-current protection schemes for the following stages.
CO3	Apply various distance protection schemes for High voltage lines.
C04	Understand differential and other protections used for Generator, Transformer and Motors.
C05	Comprehend switching phenomenon and working of various types of circuit breakers.
Environmental Engineering (Open Elective-I)( BECVE604T)
CO1	Explore the components of biosphere and impact of human activity on environment.
CO2	Summarize the causes and sources of pollutants, and their impact on global environment.
CO3	Develop ethics and scientific awareness about waste generation and treatment. Summarize the causes and sources of pollutants, and their impact on global environment.
C04	Identify sources and types of wastes and its management.
CO5	Understand noise, noise pollution and control.
Electrical Drives & Their Control (BTCHEE605T)
CO1	Understand the concept of Electrical characteristics like starting, speed control and braking along with numerical.
CO2	Relate various factors of industries with reference to PLC, its programming and Digital Control.
CO3	Analyze the causes and effects of motor control used in Electric Vehicle.
C04	Additive to the control system, and the countries and work on drives used in Industries.
CO5	Perceive the concept of Electric traction and their control strategies used in practice.
Computer Applications in Power System Lab (BTCHEE602P)
CO1	Students will demonstrate the ability to effectively use MATLAB software, including understanding its interface, tools, and basic functionalities for solving engineering and mathematical problems.
CO2	Students will develop skills in forming and manipulating matrices in MATLAB, verifying results of mathematical problems to ensure accuracy and reliability in computational solutions.
CO3	Students will analyze transient phenomena and steady-state behavior of systems, such as transmission lines, using MATLAB to model and interpret dynamic responses and stability.
C04	Students will apply MATLAB to perform fault analysis of three-phase power systems and simulate full-wave rectifiers, demonstrating competence in modeling and analyzing electrical engineering systems.
Switch Gear & Protection Lab (BTCHEE603P)
CO1	Understand Relay Operation and Characteristics: Analyze the working principles and time-current characteristics of electromagnetic, electromechanical, and microprocessor-based relays, including overcurrent, earth fault, and reverse power relays.
CO2	Evaluate Transformer and Transmission Line Protection: Demonstrate proficiency in studying and applying protection mechanisms like Buchholz relay for power transformers and impedance relay for three-phase transmission lines.
CO3	Assess Differential Relay Performance: Investigate the stability and performance of simple and static biased differential relays for effective fault detection and protection in electrical systems.
C04	Examine Circuit Breaker and Induction Relay Functionality: Explore the operational mechanisms of bulk oil circuit breakers and electromagnetic induction disc-type relays to ensure reliable protection in power systems.
C05	Understand Relay Operation and Characteristics: Analyze the working principles and time-current characteristics of electromagnetic, electromechanical, and microprocessor-based relays, including overcurrent, earth fault, and reverse power relays.
SEVENTH SEMESTER (CBCS)
Energy Management and Audit (BTCHEE701T)
CO1	Explain present energy scenario with need of energy audit and energy conservation.
CO2	Recommend appropriate type of Energy Audit looking into user requirements.
CO3	Prepare process flow, material and energy balance diagrams.
C04	Prepare energy action plan and strategy for monitoring and targeting as expected of Energy manager.
CO5	Select proper energy conservation mechanism for Electrical and Mechanical Systems.
Electrical Installation Design (BTCHEE702T)
CO1	Understand concept of electrical load assessment and basics of busbar and cables.
CO2	Identify switches for smooth functioning of protective scheme utilized for short circuit calculations.
CO3	Analyze Power and control circuit for industrial application utilizing Reactive power Management.
C04	Apply industrial installations and earthling system design.
CO5	Inferring the design of 11 kV and 33 kV substations for industrial installations.
Introduction to Smart Grid (BTCHEE703T)
CO1	Present energy scenario and features of smart grid.
CO2	Identify components and computational tools for smooth functioning of smart grid.
CO3	Analyze the various protection issues of smart grid.
C04	Design smart grid with options like automation.
CO5	Sustainable energy options for the smart grid.
Introduction to Renewable Energy Resources (BTCHEE704T)
CO1	Recognize the need of renewable energy sources.
CO2	Understand various solar thermal energy conversion systems and solar photovoltaic systems in detail.
CO3	Describe different biogas plants, bio-diesel production method and potential of hydrogen as a fuel.
C04	Explain the working principle of Wind energy systems and ocean thermal energy conversion systems.
CO5	Describe the working of Fuel cell system, Geothermal & Magneto hydro dynamic (MHD) power generation systems and Understand the principles of energy conservation.
Electrical Drawing and Simulation Lab (BTCHEE706P)
CO1	Apply circuit theorems using MATLAB.
CO2	Simulate power electronic circuits.
CO3	Model electrical systems with simulation tools.
C04	Use MATLAB and Power World Simulator proficiently.
C05	Demonstrate motor speed control techniques.
Electrical Installation & Design Lab (BTCHEE707P)
CO1	Understand electrical installations through industrial visits.
CO2	Explain operation and construction of electrical apparatus and switchgear.
CO3	Conduct diagnostic tests on transformers and cables.
C04	Analyze high-voltage equipment and earthing systems.
C05	Assemble and test DoL and star-delta starters.
EIGHT SEMESTER (CBCS)
Electrical Safety & Standards (BTCHEE801T)
CO1	Understand the Indian power sector organization and Electricity rules, electrical safety in residential, commercial, agriculture, hazardous areas.
CO2	Understand the Indian power sector organization and Electricity rules, electrical safety in residential, commercial, agriculture, hazardous areas.
CO3	Make use of specification of electrical plants and classification of safety equipment for various hazardous locations.
C04	Understand Safety Management & Standards in Electrical Systems.
Electrical Distribution System (BTCHEE802T)
CO1	Electrical Distribution System
CO2	Design and analysis of distribution feeders and substations.
CO3	Understand the need for protection and distribution automation.
C04	Recognize the significance of voltage drop and power loss in the distribution system.
CO5	Understand the need for controlling the PF, Voltage and Power and the equipment used for mitigating them.
EHV AC & HVDC Transmission (BTCHEE803T)
CO1	Analyze power handling capacity of different EHVAC transmission lines.
CO2	Knowledge of Electrostatic and electromagnetic fields and corona in EHVAC lines.
CO3	Knowledge of different types HVDC systems.
C04	Analyze power flow control in HVDC lines & design parameters of harmonic filters
CO5	Design appropriate circuit breakers and protective schemes for different HVDC systems.