Steps For Using Superposition Theorem Step 1 : Identify all the voltage and current sources in the network. To understand this concept, we will divide the superposition theorem into 6 steps and use it to analyze and calculate the total resistor voltage and current of a simple two-source linear DC Network shown in Figure 1. This means, when a circuit involves multiple voltage and current sources, you treat each source as an independent source and calculate the voltage and current that the sources have on the circuit and then combine the voltages or currents together. Superposition theorem states that the current that flows at any point in a circuit, or the potential difference between any two points in a circuit, resulting from more than one source of voltage connected in the circuit, is the algebraic sum of the separate currents or voltages at these points. It is important to note, that the superposition theorem can only be used for linear circuits, if there are non-linear components such as capacitors or inductors, the superposition theorem cannot be used. Superposition theorem can be used when trying to analyze a linear circuit with multiple voltage and current sources. In this blog, we will be discussing Superposition Theorem. Therefore, it is important for you to learn other network theorems and recognize when to apply them. Kirchhoff’s voltage law can be used to analyze any electric circuit but when dealing with complex circuits, using Kirchhoff's voltage laws can be difficult.
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