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ANALYSIS OF RLC CIRCUITS WITH EXPONENTIAL EXCITATION SOURCES BY A NEW INTEGRAL TRANSFORM: ROHIT TRANSFORM

Author Names : Rohit Gupta
Page No. : 22-24
Read Hit : 852
Pdf Downloads Hit : 6  Volume 5 Issue 1
Article Overview

ARTICLE DESCRIPTION: 

Affiliation:

1&2 Lecturer of Physics, Department of Applied Sciences, Yogananda College of Engineering and Technology, Jammu, India

ARTICLE TYPE: RESEARCH

Doi No.: 10.2016-56941953

DOI Link :: http://doi-ds.org/doilink/10.2020-49716974/

 

ABSTRACT:

In science and engineering, the analysis of RLC network circuits is a principal course and is generally done by applying calculus or Laplace Transform. In this paper, we will analyze RLC network circuits with exponential excitation sources by applying a new integral transform: Rohit Transform and obtained their responses in the form of current or voltage. This paper presents the use of the Rohit Transform and proves its applicability for analyzing the RLC network circuits with exponential excitation sources and concludes that Rohit Transform like other transforms or approaches is also an effective and simple tool.

Index Terms- Rohit Transform; Network Circuits; Exponential Excitation Source; Response

Reference

[1] J. S. Chitode and R.M. Jalnekar, Network Analysis and Synthesis, Publisher: Technical Publications, 2007.

[2] M. E. Van Valkenburg, Network Analysis, 3rd Edition, Publisher: Pearson Education, 2015.

[3] Murray R. Spiegel, Theory and Problems of Laplace Transforms, Schaum's outline series, McGraw – Hill.

[4] Rohit Gupta, Loveneesh Talwar, Dinesh Verma, Exponential Excitation Response of Electric Network Circuits via Residue Theorem Approach, International Journal of Scientific Research in Multidisciplinary Studies, volume 6, issue 3, pp. 47-50, March (2020).

[5] Rohit Gupta, Anamika Singh, Rahul Gupta, Response of Network Circuits Connected to Exponential Excitation Sources, International Advanced Research Journal in Science, Engineering and Technology Vol. 7, Issue 2, February 2020, pp.14-17.

[6] Rohit Gupta, “On novel integral transform: Rohit Transform and its application to boundary value problems”, “ASIO Journal of Chemistry, Physics, Mathematics and Applied Sciences (ASIO-JCPMAS)”, Volume 4, Issue 1, 2020, PP. 08-13.

[7] Rohit Gupta, Rahul Gupta, Matrix method for deriving the response of a series ?- ?- ? network connected to an excitation voltage source of constant potential, Pramana Research Journal, Volume 8, Issue 10, 2018, pp. 120-128.

[8] Rohit Gupta, Rahul Gupta, Sonica Rajput, Response of a parallel ?- ?- ? network connected to an excitation source providing a constant current by matrix method, International Journal for Research in Engineering Application & Management (IJREAM),, Vol-04, Issue-07, Oct 2018, pp. 212-217.