JEEE- Journal of Electrical And Electronics Engineering
Vol 3, No 2 (2019)

Convolution Integral: How a Graphical Type of Solution Can Help Minimize Misconceptions

Hendra J. Tarigan (President University)

Article Info

Publish Date
12 Apr 2021

Abstract

A physical system, Low Pass Filter (LPF) RC Circuit, which serves as an impulse response and a square wave input signal are utilized to derive the continuous time convolution (convolution integrals). How to set up the limits of integration correctly and how the excitation source convolves with the impulse response are explained using a graphical type of solution. This in turn, help minimize the students’ misconceptions about the convolution integral. Further, the effect of varying the circuit elements on the shape of the convolution output plot is presented allowing students to see the connection between a convolution integral and a physical system. PSpice simulation and experiment results are incorporated and are compared with those of the analytical solution associated with the convolution integral.

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Journal Info
JEEE- Journal of Electrical And Electronics Engineering
Website

Abbrev

JEEE

Publisher

President University

Subject

Aerospace Engineering Chemical Engineering, Chemistry & Bioengineering

Description

JOURNAL OF ELECTRICAL AND ELECTRONICS ENGINEERING merupakan jurnal keilmuan bidang Teknik Elektro yang memuat tulisan-tulisan ilmiah mengenai penelitian-penelitian murni dan terapan serta ulasan-ulasan umum tentang perkembangan teori, metode dan ilmu-ilmu terapan ...