Course Name: 3XT01 - ENGINEERING MATHEMATICS-III

III SEMESTER EXTC

Course name: 3XT01 - ENGINEERING MATHEMATICS-III

Course outcome:

Students shall be able

3XT01.1T / Solve the ordinary differential equations Higher order with constant coefficients and its applications..
3XT01.2T / Apply definition of Laplace transform and determine the Laplace transform various function
3XT01.3T / Identify and solve the certain forms of difference equation as applied to various systemusing z- transform method
3XT01.4T / Classify partial differential equation and Fourier transform into canonical form
3XT01.5T / comprehend knowledge in term of complex variable, harmonic function and conformal mapping
3XT01.6T / ClassifyScalar 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
Apply fundamental theorem of line integral , Divergence, Stock theorem to evaluate the integral

Course name : 3XT02 –COMPUTER PROGRAMMING AND APPLICATION

Course outcome:

Students shall be able to

3XT02.1T / Justify the basics of object-oriented programming such as data types, structure of C++ programming, basic data types, user defined data type, derived data type, operator and control statements.
3XT02.2T / Discuss the concept of programming functions, classesconcept of object and its implementation, constructor and destructors.
3XT02.3T / Explain the Operator’s overloading, overloading binary operators using friends.
3XT02.4T / Explain and understand Inheritance and Polymorphism
3XT02.5T / Derive Solution of differential equation
3XT02.6T / Derive Solution of Nonlinear and Polynomial Equations

Course name: 3XT03- ELECTROMAGNETIC FIELDS

Course outcome:

Student shall be able to

3XT03.1T / Understand the concept of co-ordinate system and vector calculus will also able to calculate Gradient of scalar quantity and Divergence, Curl of a vector quantity.
3XT03.2T / Apply vector calculus to understand the behavior of static electric field and will able to calculate electric field intensity and density, electric flux intensity and density. And will understand the Gauss’s law and its application. Numerical based on calculation of electric field intensity and density.
3XT03.3T / Apply vector calculus to understand the behavior of static magnetic field and will able to calculate magnetic field intensity and density, magnetic flux and magnetic flux density. And will understand the Biot-Savarts Law, Ampere’s Circuital Law. Numerical based on calculation of magnetic field intensity, magnetic field density, magnetic flux and magnetic flux density.
3XT03.4T / Understand the concept of Boundary condition at dielectric-conductor interface, dielectric-dielectric interface and Boundary condition for magnetic material interface. Also understand the meaning of Maxwell’s equation.
3XT03.5T / Describe and analyze electoromagnetic wave propagation in free space, analyze plane electromagnetic waves at boundaries between homogeneous media, Reflection of a plain wave in a normal incidence at dielectric-dielectric interface, dielectric-conductor interface.
3XT03.6T / Analyze the electromagnetic radiation from localized charges considering retardation effects.

Course name: 3XT04 -ELECTRIC DRIVES AND MEASURMENTS

Course outcome:

Students shall be able to

3XT04.1T / Knoladge and understand measurement of resistance: Kelvin Double Bridge, Loss of charge method and megger. Measurement of Inductance and Capacitance: Maxwell’s bridge, Hay’s bridge, Anderson’s bridge, Schering bridge,D Sautys Bridge and Carey Fostern bridge. Measurement of Q factor.
3XT04.2T / Analyse measurement of active and reactive power in 3-phase balanced and unbalanced load. Study of Electrodynamometer type power factor meter, frequency meter, Watt meter, Digital Energy Meter
3XT04.3T / Explain D.C.Motors: Electrical and mechanical characteristics of motor,Speed control methods for constant torque and constant horse power. Study application of D.C.motors. Braking-resistance, plugging and regenerative braking
3XT04.4T / Explain Inducation Motors: Characteristics, Speed control methods: Armature voltage, V/f control, rotor control, slip power recovery scheme and applications. Study of plugging, Resistance braking, Regenarative Braking. Eddy current coupling and its application.
3XT04.5T / Analyze Transformers: 3 phase-transformers, rectifier transformers, pulse transformers. Open delta connection, Scott connection, Ferrite core transformer.
3XT04.6T / Explain Construction, principle of operation, characteristics and applications of : Tachogenerator, (DC & AC), Stepper motor, A.C.Servo motor 1 Phase induction motor.

Course name: 3XT05- ELECTRONICS DEVICES AND COMPONENTS

Course outcome:

Students shall be able to

3XT05.1T / Explain and study Construction, selection and failures of Resistors: Fixed type, Variable type, Network and Chip type Capacitors: fixed and variable type.
3XT05.2T / Explain and study Switches & Relays: Types, Construction and Testing Fuses, Cables and Connectors: Types, Construction, Specification and Application Introduction to Heat sink, Choke and Transformer
3XT05.3T / Explain and study Basics of Electronic Component layout, PCB material, Properties and specifications, Basic manufacturing process of PCB , Soldering and De-soldering Techniques.
3XT05.4T / Explain and study P-N Junction diode theory- V-I Characteristics, Temperature dependency, Diode Resistance, Zener diode : characteristics, Avalanche & Zener breakdown, Testing of diode using Ohmmeter and CRO
3XT05.5T / Explain and study theory, Construction, Characteristics and application of Tunnel, Varactor, Shottkey diode and Opto-Devices: LED, Photo Diode, LCD
3XT05.6T / Explain and study operation of PNP and NPN Transistor, Transistor Configurations, their Characteristics and current Components. Study and verify Transistor as an amplifier, Testing of Transistor using Ohmmeter and CRO

Course Name: 3XT06 -COMPUTER PROGRAMMING AND APPLICATION-LAB

Course outcome:

Students shall be able to

3XT06.1P / Understand to use if-else, switch, loop concept.
3XT06.2P / Understand and implement programs for Function call by value & call by reference.
3XT06.3P / To implement Inline function & friend functions.
3XT06.4P / Write program to use function overloading in C++.
3XT06.5P / Design program to use classes & objects in C++.
3XT06.6P / Understand programs to implement constructor & destructor in C++.
3XT06.7P / Explain the programs to implement unary & binary operator overloading.
3XT06.8P / Implement programs to for unary operator overloading & binary operator overloading with friend.
3XT06.9P / Write programs for manipulation of strings using operators.
3XT06.10P / Write programs to use single, multiple & multilevel inheritance.

Course name: 3XT 07 - ELECTRIC DRIVES AND MEASURMENTS LAB

Course outcome:

Students shall be able to:

3XT07.01P / Apply Kelvin Bridge method and calculate unknown resistance
3XT07.02P / Apply Maxwell’s inductance Bridge method and calculate unknown inductance.
3XT07.03P / Apply Maxwell’s inductance-capacitance Bridge method and calculate unknown inductance and Q-factor.
3XT07.04P / Apply Hays Bridge method and calculate unknown inductance and Q-factor.
3XT07.05P / ApplyDe Sauty’s Bridge method and calculate unknown capacitance.
3XT07.06P / ApplySchering Bridge method and calculate unknown capacitance.
3XT07.07P / Apply loss of charge method and calculate unknown high valued resistance.
3XT07.08P / Apply Two-Wattmeter method and determine three phase power.
3XT07.09P / Apply One-Wattmeter method and determine three phase power.
3XT07.10P / Calibrate Single phase Energy meter by applying Direct loading test.

Course Name: 3XT08 - ELECTRONICS DEVICES AND COMPONENTS LAB

Course outcome:

Student shall able to :

3XT08.01P / Apply the color code method for calculation of resistor value and compare with values measured with the help of Multimeter.
3XT08.02P / Apply the color code method for calculation of capacitor value and compare with values measured with the help of Multimeter.
3XT08.03P / Identify the different types of switches and study its specification.
3XT08.04P / Identify the different types of Relays and study its specification.
3XT08.05P / Study of P-N junction diode and its V-I characteristics.
3XT08.06P / Study of Zener diode and its V-I characteristics and verify its operation for voltage regulation.
3XT08.07P / Study of LED and its V-I characteristics.
3XT08.08P / Study input-output characteristics of BJT amplifier.
3XT08.09P / Study of Transistor as a switch.

IV SEMESTER EXTC

Course name: 4XT01 - COMMUNICATION ENGINEERING –I

Course outcome:

Students shall be able to:

4XT01.1T / Understand necessity of modulation and identify, describe the various techniques the various components of analog communication systems.
4XT01.2T / Understand and identify different circuits of demodulation schemes also
Describe demodulation in analog communication systems.
4XT01.3T / Apply techniques to solve and analyze different methods of
Direct and Indirect FM generation.
4XT01.4T / Understand the basic concept of FM Discrimination and apply different techniques to solve and analyze circuits of FM receiver.
4XT01.5T / Describe the properties and characteristics of Transmission lines and antennas.
4XT01.6T / Compare and contrast the strengths and weaknesses of various communication systems.

Course name: 4XT02 - ELECTRONIC DEVICES AND CIRCUITS-I

Course outcome:

Students shall be able to:

4XT02.1T / Comprehend the knowledge of diodes, its application and analyze and design the filter and rectifiers.
4XT02.2T / Analyze, design construction of transistors biasing and BJT and Transistor as an amplifiers.
4XT02.3T / Explain and classify F/B concept, topologies and their application to apply and design the oscillators.
4XT02.4T / Understand multistage amplifiers and their applications.
4XT02.5T / Describeanalyze power amplifier, Understand with its application
4XT02.6T / Understand basics and operational parameters of JFET,MOSFET & UJT

Course name: 4XT03 NETWORK ANALYSIS

Course outcome:

Students shall be able to:

4XT03.1T / Understand the standard input signals, sources and analyze electrical circuit using mesh and node analysis.
4XT03.2T / Draw oriented graph of network to determine their current and voltages.
4XT03.3T / Apply Laplace transform for the circuit analysis.
4XT03.4T / Apply suitable network theorems to analyze the electrical circuit.
4XT03.5T / Understand the concept of Poles, Zeros, terminal, port and necessity conditions for driving point function and transfer function.
4XT03.6T / Relate various two-port networks and apply two-port network theory for network analysis.

Course name: 4XT04- INDUSTRIAL MANAGEMENT AND QUALITY CONTROL

Course outcome:

Students shall be able to:

4XT04.1T / Knowledge andunderstand the Principles and Techniques of Management .Also Use the research based knowledge and apply for managerial development.
4XT04.2T / Knowledge andunderstand the marketing policies.Also Use the research based knowledge and apply for marketing strategies.
4XT04.3T / Knowledge andunderstand the personnal development issues. Use the research based knowledge and apply for personal as well as industrial development.
4XT04.4T / Knowledge andunderstand the Project and Financial releted aspects.Use the research based knowledge and apply for industrial development.
4XT04.5T / Knowledge andunderstand the Quality control aspects.Use the research based knowledge for quality improvement and apply for industrial development.
4XT04.6T / Knowledge andunderstand the factors releted to Quality management.Use the research based knowledge for quality management and apply for industrial development .

Course name: 4XT05- INSTRUMENTATION

Course outcome:

Students shall be able to:

4XT05.1T / Knowledge andunderstand the basic of instrumentation system with its classification. Also Use and apply the knowledge for measuring systems.
4XT05.2T / Knowledge andunderstand the various types of errors occur in instruments . Also identify and Analyse the errors in instruments.
4XT05.3T / Knowledge andunderstand the basic of electronic instrumentation system . Also Use and apply the knowledge for measuring systems.
4XT05.4T / Knowledge andunderstand the various methods of temperature and strain measurement . Also Use and apply the knowledge for measuring various physical parameters.
4XT05.5T / Knowledge andunderstand the various methods of measuring Displacement, Pressure and Level . Also Use and apply the knowledge for measuring various parameters.
4XT05.6T / Knowledge andunderstand the various methods of measuring Flow, Velocity and Humidity . Also Use and apply the knowledge for measuring various parameters.

Course name: 4XT06 - ELECTRONIC DEVICES AND CIRCUITS-I LAB

Course outcome:

Students shall be able to:

4XT06.1P / Understandverify-I characteristics of diode.
4XT06.2P / Understand the difference of filtered and without filtered output of half wave rectifier.
4XT06.3P / Understand the difference of filtered and without filtered output of full wave rectifier.
4XT06.4P / Verify the constant output of zener diode.
4XT06.5P / Understand the variation of input and output characteristics of BJT
4XT06.6P / Observe the oscillation at the output of oscillator and calculate it’s frequency
4XT06.7P / Observe the oscillation and phase shifting at the output of RC two stage power amplifier and calculate it’s frequency
4XT06.8P / Understandverify-I characteristics of JFET.

Course name: 4XT07 NETWORK ANALYSIS - LAB

Course Outcome:

Student shall able to :

4XT07.1P / Apply Norton’s theorem to a given circuit and verify the obtain value with the values which are obtain theoretically.
4XT07.2P / Apply Thevinin’s theorem to a given circuit and verify the obtain value with the values which are obtain theoretically.
4XT07.3P / Apply Superposition theorem to a given circuit and verify the obtain value with the values which are obtain theoretically.
4XT07.4P / Apply Maximum Power Transfer theorem to a given circuit and verify the obtain value with the values which are obtain theoretically for a different load.
4XT07.5P / Study the different electrical components and it’s specifications.
4XT07.6P / Study of Two-port network and verify its operation practically and theoretically for impedance characteristics.
4XT07.7P / Study of Admitance characteristics of two-port network.
4XT07.8P / Apply Millmans theorem to a given circuit and verify the obtain value with the values which are obtain theoretically.

Course Name: –4XT08 –INSTRUMENTATION- LAB

Course outcome:

Student shall able to :

4XT08.1P / Ability to Understand the characteristic of pressure transducer.Use and Apply the knowledge for measuring various pressure transducer.
4XT08.2P / Ability to Understand the characteristic of capacitive transducer.Use and Apply the knowledge for measuring various capacitive transducer.
4XT08.3P / Ability to Understand the resistive transducer.Use and Apply the knowledge for measurement of angular displacement.
4XT08.4P / Ability to Understand the inductive pick-up.Use and Apply the knowledge for measuring various pressure transducer.
4XT08.5P / Ability to Understand the pressure transducer.Use and Apply the knowledge for measurement of various parameters of LVDT .
4XT08.6P / Ability to Understand the strain guage measurement .Use and Apply the knowledge for measuring its various parameters .
4XT08.7P / Ability to Understand the working of thermistor .Use and Apply the knowledge for measurement of temperature .
4XT08.8P / Ability to Understand the working principle of strip chart recorder .

V SEMESTER EXTC

Course name: 5XT1 - ELECTRONIC DEVICES AND CIRCUITS-II

Course outcome:

Students shall be able to:

5XT1.1T / Analyze different wave shaping circuits using RC Networks, diode and BJT.
5XT1.2T / Learn and perform evaluation of the switching behavior of semiconductor devices.
5XT1.3T / Interpret the operations of multivibrators and time base generators.
5XT1.4T / Study and analyze various Digital Logic Families.
5XT1.5T / Explain various flip-flops, code convertors.
5XT1.6T / Learn and explain various types of memories.

Course name: 5XT2 POWER ELECTRONICS

Course outcome:

Students shall be able to:

5XT2.1T / Explain and Understand various thyristor family devices , Their turn ON and Turn OFF mechanism.
5XT2.2T / Explain and Understand series and parallel operation of SCR
5XT2.3T / Discuss and ExplainPrinciple of different phase controlled rectifier,
5XT2.4T / Understand operation of Various types of inverters and various types of harmonics reduction techniques.
5XT2.5T / Determine and Explain the Working principle of various types of chopper and
Cycloconverter.
5XT2.6T / Explain various industrial applications of power control devices

Course Name: 5XT3 (CONTROL SYSTEM ENGINEERING)

Course outcome:

Students shall be able to:

5XT3.1T / Construct the transfer function models of electrical, mechanical system and design the different explain and classify the control system by different methods.
5XT3.2T / Design and analyze the transient response and steady state response by applying the mathematical model.
5XT3.3T / Analyze stability relative stability of LTI system by applying criteria and construct the Root lows for determining stability.
5XT3.4T / Understand the frequency response by using different frequency plots to design and analyze the stability by applying mathematical calculations of Bode plot, Nyquist plot, polar plot.
5XT3.5T / Understand the differential state model and solution to the state equation, response of the system using state variable method.
5XT3.6T / Understand the discrete system and its application and analyze by applying the bilinear transformation.

Course name: 5XT4 COMMUNICATION ENGINEERING-II

Course outcome:

Students shall be able to:

5XT4 .1T / Understand necessity of modulation and identify , describe the various techniques the various components of analog communication systems.
5XT4 .2T / Understand and identify different circuits of demodulation schemes also describe demodulation in analog communication systems.
5XT4 .3T / Apply techniques to solve and analyze different methods of
Direct and Indirect FM generation.
5XT4 .4T / Understand the basic concept of FM Discrimination and apply different techniques to solve and analyze circuits of FM receiver.
5XT4 .5T / Understand the concept of sampling, Evaluate and compare different digital modulation technique
5XT4 .6T / Understand basic concept of Telephone switching technique and describe various switching techniques.

Course name: 5FEXT5 (2) FREE ELECTIVE- I(FIBER OPTICS)

Course outcome:

Students shall be able to:

5FEXT5 (2).1T / Distinguish Step Index, Graded index fibers and compute mode
volume.
5FEXT5 (2).2T / Explain the Transmission Characteristics of fiber and Manufacturing techniques of fiber/cable.
5FEXT5 (2).3T / Classify the construction and characteristics of optical sources and
detectors.
5FEXT5 (2).4T / Discuss passive optical components and Explain noise in optical system.
5FEXT5 (2).5T / Study long haul Analog/ Digital optical communication system and explain advanced optical transmission systems.
5FEXT5 (2).6T / Interpret measurement techniques for various parameters of optical fibers.

Course Name: 5XT7 ELECTRONIC DEVICES AND CIRCUITS-II -LAB

Course outcome:

Student shall able to:

5XT7.1P / Analyze different wave shaping circuits using RC Networks, diode and BJT.
5XT7.2P / Explore decade counter and verify its truth table.
5XT7.3P / Interpret the operation of clipper circuit .
5XT7.4P / Explore the use of BCD-7 segment display decoder.
5XT7.5P / Understand the use of clamper circuit.
5XT7.6P / Analyze code conversion circuit.
5XT7.7P / Implement various gates.
5XT7.8P / Studyexplain Monostable multivibrator
5XT7.9P / Verify various gate ciruits.
5XT7.10P / Studyexplain bistable multivibrator

Course Name: 5XT8 POWER ELECTRONICS LAB

Course outcome:

Student shall able to:

5XT8.1P / Understand the V-I Characteristic of SCR
5XT8.2P / Understand the characteristic of DIAC and plot the curve between V/I.
5XT8.3P / Understand the characteristic of TRIAC.
5XT8.4P / Explore the use of DC motor to control the speed of the motor.
5XT8.5P / Understand the operation of SCR half wave and full wave rectifier and observe firing angle and conduction angle.
5XT8.6P / Understand the operation the SCR full wave bridge rectifier and observe firing angle and conduction angle
5XT8.7P / Understand the operation parallel inverter operation.
5XT8.8P / Understand the operation the step up chopper and control the output voltage by duty cycle.
5XT8.9P / Verify the operation of SCR for calculating latching & holding current of SCR
5XT8.10P / Verify the operation of basic series inverter using SCR

Course name : 5XT9 (COMMUNICATION ENGINEERING –I I LAB )