There are two basic methods that are used for solving any electrical network: Nodal analysis and Mesh analysis. In this chapter, let us discuss about the Nodal analysis method.
In Nodal analysis, we will consider the node voltages with respect to Ground. Hence, Nodal analysis is also called as Node-voltage method.
Procedure of Nodal Analysis
Follow these steps while solving any electrical network or circuit using Nodal analysis.
· Step 1 − Identify the principal nodes and choose one of them as reference node. We will treat that reference node as the Ground.
· Step 2 − Label the node voltages with respect to Ground from all the principal nodes except the reference node.
· Step 3 − Write nodal equations at all the principal nodes except the reference node. Nodal equation is obtained by applying KCL first and then Ohm’s law.
· Step 4 − Solve the nodal equations obtained in Step 3 in order to get the node voltages.
Now, we can find the current flowing through any element and the voltage across any element that is present in the given network by using node voltages.
Example
Find the current flowing through 20 Ω resistor of the following circuit using Nodal analysis.
Step 1 − There are three principle nodes in the above circuit. Those are labelled as 1, 2, and 3 in the following figure.
In the above figure, consider node 3 as reference node (Ground).
Step 2 − The node voltages, V1 and V2, are labelled in the following figure.
In the above figure, V1 is the voltage from node 1 with respect to ground and V2 is the voltage from node 2 with respect to ground.
Step 3 − In this case, we will get two nodal equations, since there are two principal nodes, 1 and 2, other than Ground. When we write the nodal equations at a node, assume all the currents are leaving from the node for which the direction of current is not mentioned and that node’s voltage as greater than other node voltages in the circuit.
The nodal equation at node 1 is
Therefore, the current flowing through 20 Ω resistor of given circuit is 2 A.
Note − From the above example, we can conclude that we have to solve ‘n’ nodal equations, if the electric circuit has ‘n’ principal nodes (except the reference node). Therefore, we can choose Nodal analysis when the number of principal nodes (except reference node) is less than the number of meshes of any electrical circuit.
