At the end of the course the students should be able to:
C207.1 | Students will be able to learn the basic concept and structure of C programming and will be able to apply the concept of data types along with conditional statements to build basic programs. |
C207.2 | Students will be able to learn and apply the concept of loop and derived data types/functions. |
C207.3 | Students will be made familiar with the pointer, strings and structures. |
C207.4 | Students will be able to learn and apply the concept of numerical differentiation and integration |
C207.5 | to solve the algebraic linear equations. |
At the end of the course the students should be able to:
C208.1 | Draw spectral plots, visualize signals in frequency domain and also will be able to Understand the amplitude modulation process |
C208.2 | Understand the angle modulation process |
C208.3 | Explain the noise mathematically |
C208.4 | Understand effect of noise in AM systems |
C208.5 | Understand effect of noise in FM/PM systems |
At the end of the course the students should be able to:
C209.1 | Understand ac analysis of BJT amplifier at Low frequencies. |
C209.2 | Understand ac analysis of BJT amplifier at High frequencies. |
C209.3 | Get knowledge of multistage amplifier and power amplifier |
C209.4 | Understand the concepts of feedback used in amplifier |
C209.5 | Understand the concepts of Oscillator. |
At the end of the course the students should be able to:
C210.1 | Able to understand architecture of general purpose Microprocessor. |
C210.2 | Demonstrate the ability to program the 8085 microprocessor and its interfacing with the outside world. |
C210.3 | Able to analyze physical and logical configuration of memory. |
C210.4 | Understand the concept of software and hardware interrupt and apply on illustrative program. |
C210.5 | Able to understand architecture of general purpose Microprocessor. |
At the end of the course the students should be able to:
C211.1 | Able to understand the classification of signal and system. |
C211.2 | Able to determine Fourier transform of periodic and non-periodic functions and signals. |
C211.3 | Able to apply Z transform to solve system equation. |
C211.4 | Able to analyze frequency domain analysis of continuous time LTI Systems. |
C211.5 | Able to understand the use of state space analysis for discrete time LTI system. |
At the end of the course the students should be able to:
C212.1 | Students will be able to learn and apply concepts of orthogonal co-ordinate system and vector calculus to solve electric and magnetic field problems. |
C212.2 | Understand the meaning of gradient, divergence and curl; be able to calculate line integral, surface and volume integral. |
C212.3 | Use Gauss's Law, Coulomb Law and laplace and poisson's equation to find field and potential for a variety of situations including charge distribution and capacitors. |
C212.4 | An ability to analyse and classify magnetic materials and solve magneto static field problems using Biot-Savart Law and Ampere Circuital law with the associated boundary conditions. |
C212.5 | An in depth understanding of time varying electromagnetic field s governed by maxwell's equation. |