Course Exit Survey
Madanapalle Institute of Technology & Science
Department of Electronics and Communication Engineering
B.Tech II year I Semester - Course Exit Survey Academic Year : 2015-16
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Course Outcomes
Sub : Differential Equations & Laplace Transforms    Sub Code : 14MAT103

At the end of the course the students will be able to:

CO1. Apply knowledge of differential equations provides mathematical solutions to various engineering problems. *
CO2. Find the power series solution of first and second order differential equations and solve the system of first order equations in various engineering problems. *
CO3. Use the applications of special functions relevant to the field of engineering. *
CO4. Solve the linear differential equations by using applications of Laplace transforms. *
CO5. Analyse the Fourier series and to apply partial differential equations for solving boundary value problems in engineering. *
Course Outcomes
Sub : Principles of Economics        Sub Code : 14HUM101

At the end of the course the students will be able to:
CO1: Understand various principles of economics. *
CO2: Analyze the concepts of demand, elasticity, markets, supply and its essence in floating of an organization. *
CO3: Compare diferent market structures and cost analysis to identify suitable market. *
CO4: Assess the income distribution, public finance and taxation to evaluate the different projects in the practical situation. *
CO5: Apply the measurement methods of macro-economic variables. *
Course Outcomes
Sub : Electrical Machines   Sub Code : 14ECE101

At the end of the course the students will be able to:
CO1: To study the operation, characteristics, starting and speed control of DC Machine. *
CO2: To familiarize the constructional details, operation, prediction of performance single phase , three phase transformer and Auto transformer. *
CO3: To Analyze Construction, operation and performance of three phase and single phase induction machines. *
CO4: To impart knowledge on Construction and performance of synchronous generators and synchronous motor. *
CO5: To impart knowledge on Construction, principle of operation of special machines. *
Course Outcomes
Sub: Network Analysis   Sub Code: 14ECE102

At the end of the course the students will be able to:
CO1: Solve the electrical networks using mesh and nodal analysis by applying network theorems. *
CO2: Solve RLC circuits and resonance. *
CO3: Explain the concepts of two-port networks. *
CO4: Analyze different types of filters. *
CO5: Explain the concepts in filter design. *
Course Outcomes
Sub : Electronic Devices    Sub Code: 14ECE103

At the end of the course the students will be able to:
CO1: Explain the basic physics of semiconductor materials. *
CO2: Explain the concepts of charge carriers, charge density and distribution in semiconductors. *
CO3: Explain the concepts of charge generation and transport mechanisms in semiconductors and compute lifetime of excess carries. *
CO4: Discuss the physics of a p-n junction and semiconductor-metal junctions. *
CO5: Demonstrate the internal workings of the most basic semiconductor electronic devices and draw their I-V characteristics. *
 Course Outcomes
Sub: Digital  Design   Sub Code: 14ECE104


At the end of the course the students will be able to:
CO1: Simplify Boolean expressions using De Morgan’s theorem. *
CO2: Design combinational circuits for simple ALU operations. *
CO3: Design various counters *
CO4: Use programmable Logic Devices for memory and simple applications. *
CO5: Write Verilog code for combinational and sequential circuits. *
 Course Outcomes
Sub: Electrical and Electronic Devices Practicals   Sub Code: 14ECE201


At the end of the course the students will be able to:
CO1: Explain DC Analysis for proving Network Theorems. *
CO2: Explain transient analysis of RL and RC circuits using unit step signal *
CO3:Explain AC analysis to find resonant frequency of RLC circuits *
CO4: Conduct experiments using power supplies, DMM, Oscilloscopes, and electronic components like resistor, capacitors, diodes, and transistors. *
CO5: Demonstrate V-I Characteristics of PN-Junction diode and Zener diode *
CO6: Demonstrate V-I Characteristics of BJT, JFET, MOSFET, and UJT *
CO7: Demonstrate frequency response of BJT and FET *
CO8: Demonstrate how to find self, mutual inductance and coeffient of coupling *
Course Outcomes
Sub: Digital  Design Practicals    Sub Code: 14ECE202

At the end of the course the students will be able to:
CO1: Design and verify the functionality of combinational and sequential circuits using Verilog HDL. *
CO2: Test functional behavior of combinational and sequential circuits on hardware. *
CO3: Test memory circuits. *
CO4: Implement combinational circuits using FPGA. *
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