PSpice Analysis for Maximum Power Transfer in Electrical Circuits, Study Guides, Projects, Research of Electrical Engineering

This project report details a pspice simulation for determining the thevenin equivalent circuit and calculating the load resistance value for maximum power transfer. It compares theoretical calculations with simulation results, demonstrating the effectiveness of pspice in circuit analysis. The report includes clear steps, figures, and a comparison table for easy understanding.

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2021/2022

Uploaded on 01/29/2025

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Department of Computer Science and Engineering
Electrical Circuit Project Report
COURSE CODE: CSE209
(Electric Circuits)
Summer 2024
Instructor: M. Saddam Hossain Khan.
Jannatul Ferdous Sumaia
ID: 2022-2-60-103
SEC-03
Title : PSpice Analysis for Maximum Power Transfer.
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Department of Computer Science and Engineering

Electrical Circuit Project Report

COURSE CODE: CSE

(Electric Circuits)

Summer 2024

Instructor: M. Saddam Hossain Khan.

Jannatul Ferdous Sumaia

ID: 2022-2-60-

SEC-

Title : PSpice Analysis for Maximum Power Transfer.

Project Objective

In this project, PSpice simulation will be used to find the Thevenin's equivalent circuit

and determine a load resistance value that will result in maximum power transfer. Then

some theoretical calculations will be compared with results from the simulation.

STEP 1: Using PSpice Simulation, We get Thevenin's equivalent of the given circuit

across the load resistance RL. In order to analyze the maximum power transfer, we

have to create a simple circuit in PSpice.

The below given circuit consists of voltage source namely VS, resistor RS, and

load resistor RL.

Here, we are removing RL with 0A current source.

Figure 1: Open Circuit.

Step 3: Using PSpice Simulation with resistance sweep, determine the value of RL for

maximum power transfer and the corresponding maximum power.

Using PSpice Simulation with resistance sweep,