## Star to Delta and Delta to Star Conversion Formula Calculator with Example

Star Delta Transformations and Delta Star Transformations allow us to convert resistances or impedances connected together at three different nodes from one type of connection to another and vice versa.

Electronics devices by Thomes L. Floyd is the textbook for analog electronics.

## Maximum Power Transfer Theorem Proof and Example

Maximum Power Transfer Theorem state that maximum power will transfer from source to load if and only if the load resistance is equal to source internal resistance. The theorem is purely about the transfer of power not efficiency.

## Voltage to Current Source Transformation Theorem

Source transformation or conversion is a technique to replace a voltage source with a current source for circuit simplification and vice versa.

## Norton Theorem with Examples: How to Use Norton Theorem?

Norton Theorem reduces any two port circuit to a Norton Resistor, a load resistor, and a current source in parallel. Where Thevenin Theorem incorporates voltage source in series.

## Thevenin Theorem and Example: The Thevenin Equivalent Circuit

According to Thevenin Theorem, a complex circuit is reduced to two resistor network, Thevenin Resistor, and Load resistor and a Thevenin Voltage source to avoid redundant computation to analyze a frequent changing resistor.

## Online Parallel Resistors Calculator: Add Parallel Resistors in Circuit

Resistors are said to be parallel if there is only one path for the flow of current. The total resistance in parallel is less than the individual resistors in parallel.

## Fundamentals of electric circuits by C. Alexander & Sadiku

Fundamentals of Electric Circuits by Charles C. Alexandar and Mathew N. O. Sadiku is a textbook for electrical circuit analysis and design from beginner to advanced level.

## The Resistor in The Series Calculator: Voltage Across Series Resistor Example

Resistors are in series if there is only one path for the flow of current. That’s why current remain same for all the resistors in series.

## Kirchhoff’s Current Law (KCL) with Example: Circuit Analysis

Kirchhoff Current Law (KCL) state that the current entering a node is always equal to the current leaving the node.