The process of source transformation in the frequency domain entails the conversion of a voltage source, positioned in series with an impedance, into a current source that is parallel to an impedance, or the other way around. It is essential to maintain the following relationships while transitioning from one source type to another.

Equation1

Equation2

In order to determine the unknown voltage for a circuit composed of a current source and a collection of resistors, capacitors, and inductors - each with their distinct known impedance, a series of steps are followed. Initially, the voltage source is converted into a current source, and the values of the source current (Is) and impedance (Zs) are established.

Subsequently, transforming the current source back to a voltage source results in a different circuit. From this derived circuit, the source voltage (Vs) is calculated using the previously determined values. Finally, by applying the voltage division rule, the unknown voltage across the resistance can be identified.

Tags
Source TransformationAC CircuitsVoltage SourceCurrent SourceImpedanceFrequency DomainUnknown VoltageCircuit AnalysisResistorsCapacitorsInductorsVoltage Division Rule

From Chapter 6:

article

Now Playing

6.11 : Source Transformation for AC Circuits

AC Circuit Analysis

354 Views

article

6.1 : Sinusoidal Sources

AC Circuit Analysis

268 Views

article

6.2 : Graphical and Analytic Representation of Sinusoids

AC Circuit Analysis

301 Views

article

6.3 : Phasors

AC Circuit Analysis

350 Views

article

6.4 : Phasor Arithmetics

AC Circuit Analysis

137 Views

article

6.5 : Phasor Relationships for Circuit Elements

AC Circuit Analysis

352 Views

article

6.6 : Kirchoff's Laws using Phasors

AC Circuit Analysis

259 Views

article

6.7 : Impedances and Admittance

AC Circuit Analysis

423 Views

article

6.8 : Impedance Combination

AC Circuit Analysis

219 Views

article

6.9 : Node Analysis for AC Circuits

AC Circuit Analysis

201 Views

article

6.10 : Mesh Analysis for AC Circuits

AC Circuit Analysis

252 Views

article

6.12 : Thévenin Equivalent Circuits

AC Circuit Analysis

125 Views

article

6.13 : Norton Equivalent Circuits

AC Circuit Analysis

231 Views

article

6.14 : Superposition Theorem for AC Circuits

AC Circuit Analysis

475 Views

article

6.15 : Op Amp AC Circuits

AC Circuit Analysis

116 Views

See More

JoVE Logo

Privacy

Terms of Use

Policies

Contact Us

Recommend to library

JoVE NEWSLETTERS

Research

Education

Authors

Librarians

ABOUT JoVE

Copyright © 2025 MyJoVE Corporation. All rights reserved