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. |
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. |
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. |
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. |
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. |
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. |