At the end of the course the students should be able to:
C301.1 | Gain knowledge about Differential amplifier and operational amplifier |
C301.2 | Design circuits for op-amp applications |
C301.3 | Gain knowledge about A/D and D/A converters. |
C301.4 | Get knowledge about various types of voltage regulator. |
C301.5 | Understand PLL circuits and multiplier circuits |
At the end of the course the students should be able to:
C302.1 | Students will be able to learn the basic concept of OOPs. |
C302.2 | Students will be able to learn and apply the concept of different types of operators. |
C302.3 | Students will be able to apply and build problems on pointers. |
C302.4 | Students will be able to learn, apply and build problems on sorting. |
C302.5 | Students will be able to learn the concept of file handling. |
At the end of the course the students should be able to:
C303.1 | Students gain knowledge of different modes of wave propagation and their characteristics in metallic waveguide and design of a waveguide for desired frequency of transmission |
C303.2 | Students gain knowledge of characteristics of ground wave, space wave, and ionospheric wave propagation and effect of earth's curvature and magnetic field on them. |
C303.3 | Student gain knowledge of different antenna characteristics which helps in selection and design of various antennas for intended application |
C303.4 | Students learn how performance of an antenna can be improved by use of various antenna arrays and how they can be designed to get desired directivity and gain. |
C303.5 | Students understand different performance characteristics and design parameters of some basic and practically used antenna. |
At the end of the course the students should be able to:
C304.1 | Design digital communication systems, given constraints on data rate, bandwidth, power, fidelity, and complexity |
C304.2 | Understand various of digital transmission |
C304.3 | Understand various types of signaling |
C304.4 | Differentiate among ASK,FSK and PSK |
C304.5 | Analyze the performance of a digital communication when additive noise is present in terms of the signal-to noise ratio and bit error rate. |
At the end of the course the students should be able to:
C305.1 | Describe about architecture of advance microprocessors. |
C305.2 | Develop the skill of programming the 8086 microprocessor. |
C305.3 | Execute the skill of Interfacing the 8086 microprocessor to the outside world. |
C305.4 | Understand multiprocessor systems and learn about co-processors. |
C305.5 | Understand and learn about 32-bit Microprocessor. |
At the end of the course the students should be able to:
C306.1 | To understand and use Block Diagram Algebra, Signal Flow graphs for differential equation of physical system (Mechanical and Electrical System) and transfer functions. |
C306.2 | Time response of first and second order system, steady state error and error constants and Response with P, PI, PD and PID Controllers. |
C306.3 | Relative stability analysis by using Root locus concept. |
C306.4 | Polar Plots, Bode Plots, All- Pass and Minimum-phase System. |
C306.5 | Concepts of state, state variable and state model, state models for linear continuous time system concept of controllability and observability, Pole placement by feedback. |