A 6-node circuit is solved with the nodal analysis. It contains one dependent voltage source, two independent voltage sources, two independent current sources and some resistors. The dependent causes two nodes to form a supernode.

# Tag Archives: Nodal_Analysis

## Nodal Analysis – 6-Node Circuit

A 6-node circuit is solved by the nodal analysis method and powers of voltage and current sources are calculated. The system of linear equations has three equations with three unknowns.

## Nodal Analysis – Dependent Voltage Source

A circuit with 3 nodes, one dependent voltage source, two current sources and three resistors is solved by the nodal analysis. The PSpice simulation result is also illustrated.

## Nodal Analysis – Dependent Current Source

Nodal analysis method is deployed to solve a four-node circuit which has a dependent current source. The target is to find the power of the controlled current source.

## Nodal Analysis – Dependent Voltage Source (5-Nodes)

The nodal analysis method is deployed to solve a circuit which has one dependent voltage source, one independent voltage source and one independent current source.

## Nodal Analysis – Supernode

This is a circuit with two voltage sources and two current sources. Nodal analysis method is used to solve the circuit. One of the voltage source forms a supernode between two nodes.

## Nodal Analysis Problem with Dependent Voltage and Current Sources

This is a complicated nodal analysis problem. The circuit has two independent sources and two dependent sources. A supernode is formed to solve the problem.

## Problem 1-8: Nodal Analysis – Power of Current Source

A simple DC resistive circuit with three resistors and two current sources are solved by the Nodal Analysis and power of one current source is determined.