Shri Shankaracharya Institute of Professional Management and Technology, Raipur
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SHRI SHANKARACHARYA RAIPUR

Course Outcomes

3rd semester

Course Outcomes: Mathematics-III

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

C201.1 Understand the concepts of Fourier series. Harmonic analysis and its applications to compute Fourier series for a periodic function.
C201.2 Define (mathematically) Laplace transforms (LT), its properties, Inverse LT. To apply LT to solve ordinary differential equations.
C201.3 Understand the fundamentals of Complex variable & their functions. Determine complex integrals, expansion of complex functions as series & real definite integrals
C201.4 Determine solution of linear PDE including Homogeneous, Non- homogeneous PDE and also by method of separation of variables.
C201.5 Understand discrete and continuous probability distribution, to find mean, standard deviation of the distribution.

Course Outcomes: Probability and Random Variables

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

C202.1 Translate a signal from time domain to frequency domain.
C202.2 Understand the role of probability and calculate probability by modeling sample spaces.
C202.3 Understand the concepts of random variables and calculate the probability distribution of a random variable, based on a real-world situation.
C202.4 Compute mean, variance, moments, and expected values of continuous and discrete distributions.
C202.5 Understand how to model the random processes in the communication systems such as receiver performance, interference, thermal noise, etc.

Course Outcomes: Electronic Devices and Circuits

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

C203.1 Understand the transports phenomena in semiconductor.
C203.2 Apply their knowledge to design practical circuit using diodes (Rectifier & Voltage Regulator)
C203.3 Understand the construction and DC analysis of BJT
C203.4 Analyze the biasing of the transistor and their thermal stabilization.
C203.5 Describe the construction, Operation and small signal model of JFET and MOSFET.

Course Outcomes: Network Analysis & Synthesis

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

C204.1 To understand the basic concepts and analysis of electric circuits.
C204.2 To apply initial conditions in networks and use of laplace theorem as a tool.
C204.3 To understand transforms of signal waveforms and sinusoidal steady-state analysis.
C204.4 Understanding network theorems and their application.
C204.5 to understand elements fo realizability and synthesis.

Course Outcomes: Industrial Instrumentation

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

C205.1 Acquire basics of measurement system and functioning of CRO.
C205.2 Acquire knowledge and overview of Transducers.
C205.3 Understand industrial applications of Transducers.

Course Outcomes: Digital Logic Design

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

C206.1 Various codes employ Boolean algebra and circuit minimization techniques.
C206.2 Design different types of programmable logic devices and Memories.
C206.3 Understand the operation of combinational logic circuit such as adders, subtractions, multiplexers, , Encode, decoder.
C206.4 Understand the operation Sequential circuits such as flip-flop and able to design asynchronous, synchronous sequential circuits and finite state machines.
C206.5 Understand various logic families and select a suitable one for a specific application.