Difference between linear and non linear components
Linear Components | Non Linear Components |
---|---|
In linear circuit, the components like (resistance, inductance, capacitance, transformers, etc.) are always constant and does not change irrespective of variations in current or voltage. | In non-linear circuit, the components like diodes ,transistors, etc. change with voltage or current. |
Ohm’s law is applicable for linear components. | Ohm’s law is not applicable for non-linear components. |
For every input signal level, a straight line will appear on a graph of a linear circuit’s output signal vs input signal. | For every input signal level, a straight line will appear on a graph of a linear circuit’s output signal vs input signal. |
For every input signal level, a straight line will appear on a graph of a linear circuit components output signal vs input signal. | In a nonlinear circuit components, the output will not be a straight line. Instead, the output will be a curve. |
Linear Components require an external power supply to operate. | Non linear Components do not require external power supply to operate |
Examples of linear components are resistors, inductors, capacitors, transformers etc. | Examples of non-linear components are diodes, transformers, transistors, etc. |
Linear Components – Electrical Circuits
In electrical circuits, some electronic devices follow a linear relationship between input and output, called Linear Components. These components follow the law of superposition principle and homogeneity. In this article, we will learn about the role of Linear components in Electrical Circuits, their properties, types, working, advantages, disadvantages, and applications of Linear components.
Table of Content
- What are Linear Components?
- Key Terminologies
- Properties of Linear Components
- Working of Linear Components
- Types of Linear Components in Electrical Circuits
- Difference between linear and non linear components