Semester: 3 Subject: Engineering Mathematics III Code: 15MAT31
Course Outcome :
1. Reproduce numerical solution of algebraic, Transcendental and Ordinary differential
equations and Solve relevant problems [L2].
2. Demonstrate the concept and use of Fourier series of functions in various problems [L2].
3. Understand complex valued functions and get acquainted with Complex Integration and
construction of series [L1, L3]
4. Use Least Square method to fit a given curve, linear regression [L3].
5. Explain the concept of random variables, PDF, CDF and its applications [L2, L3].
Semester: 3 Subject: Electronic Measurements And InstrumentationCode: 15EC32
Course Outcome :
1. Identify and explain the need for accurate measurement of electrical parameters in static and
dynamic systems [L1, L2].
2. Evaluate ADCs and perform digital measurements using instruments like multi meters and
voltmeters [L3].
3. Illustrate the measurement of time, frequency and amplitude of a signal on a given oscilloscope [L2].
4. Evaluate digital signals obtained using transducers and perform required measurement [L3].
5. Classify and distinguish various transducers and propose a suitable transducer for a real world
application [L1, L3].
Semester: 3 Subject: Control SystemsCode: 15EC33
Course Outcome :
1. Understand the basic concepts of control systems, their types & requirements; ability todemonstrate the modeling of systems and the Inter convertibility between electrical andmechanical systems through force voltage and force current analogy [L1, L2, L3].
2. Demonstrate the evaluation of transfer function by representing systems in form of block
Diagram, and then converting blocks into signal flow graph; ability to explain the various type ofstandard test signals [L3].
3. Evaluate error for 1st and 2nd order systems by obtaining their time response [L2].
Semester: 3 Subject: Signals and SystemsCode: 15EC34
Course Outcome :
1. Classify signals and systems and apply basic operations on signals [L2].
2. Classify systems based on their properties and determine the response of LTI system using
Convolution [L2].
3. Analyze the systems using Differential and Difference equations [L3].
4. Analyze system properties based on impulse response and Fourier Transforms [L3].
5. Apply the Z- transform to analyze discrete-time signals and systems [L3].
Semester: 3 Subject: Analog Electronic CircuitsCode: 15EC35
Course Outcome :
1. Develop and employ circuit models for elementary electronic components, e.g. diodes [L3].
2. Infer the terminal behavior of the devices such as diode, BJT & FETs, also identify the region ofoperation with its equivalent circuit model [L3].
3. Develop the capability to analyze and design simple circuits containing elements such as BJTs andFETs using the concepts of load lines, operating points and device modeling [L3].
4. Identify the need for small signal operation and evaluate the small signal model and the
performance parameters of the device [L1, L3].
5. Understand the concepts of feedback in electronic circuits and compare the performance
parameters of various feedback topologies. Design various types of oscillator circuits applying theconcepts of positive feedback [L2, L3].
6. Differentiate and compare the types of power amplifiers depending on their working principle andconversion efficiency [L2].
Semester: 3 Subject: Digital Electronic CircuitsCode: 15EC36
Course Outcome :
1. Define and explain fundamental of digital electronics and logic families [L2].
2. Apply the knowledge of digital electronics concept to design optimal digital circuits forgiven specification [L3].
3. Analyze and design digital circuits and arrive at conclusion [L3].
4. To conduct experiments using ICs for given application or real situation problem [L3].
5. To engage in self-study to formulate, design, implement analyze, and demonstrate anapplication in digital circuits [L3].