This course is designed for the students registered for the 3rd-semester electronics and communication engineering course under the APJA KTU for the academic year 2017-18. The primary goal of the course is to introduce key physical concepts and apply them to derive theoretical electrical characteristics of modern electronic devices like Diodes, BJTs, MOSFETs along with addressing fabrication challenges of smaller or scaled-down devices.

Course objectives:

 To make the students capable of analyzing any linear time invariant electrical network.

 To study time domain, phasor and Laplace transform methods of linear circuit analysis.

 To study the transient response of networks subject to test signals.

 To develop understanding of the concept of resonance, coupled circuits and two port networks.

Syllabus:

Circuit variables and Circuit elements, Kirchhoff’s laws, Network topology, Mesh and node analysis of network, Laplace transform, Inverse Laplace transform, Solution of differential equations by using Laplace transforms, Transient analysis of RL, RC, and RLC networks, Network functions for the single port and two ports, Parameters of two-port network, Resonance, Coupled circuits

Course objectives:
 To develop the skill of analysis and design of various analog circuits using discrete
electronic devices as per the specifications.

SYLLABUS

High pass and low pass RC circuits, Differentiator, Integrator, Analysis of BJT biasing circuits,
small signal analysis of transistor configurations using small signal hybrid π model, low
frequency and high frequency analysis of BJT amplifiers, Cascade amplifiers, Wide band
amplifiers, Feedback amplifiers, Oscillators, Tuned amplifiers, Power amplifiers, Sweep circuits
and multivibrators, transistor voltage regulator, DC analysis of MOSFET circuits, small signal
equivalent circuit, Small signal analysis of MOSFET amplifier circuits, Analysis of multistage
MOSFET amplifiers

This course is designed to cover  the syllabus prescribed by KTU. This is very fundamental course in digital electronics, in which  we have to familiarize various positional number systems, fundamentals of boolean algebra, combinational circuit design and sequential circuit design. We also cover some basic concepts about logic families.