Linear Components in Electrical Circuits
In Electrical Circuits, Linear components refer to the components in an electrical circuit that exhibit a linear relationship between the current input and the voltage output.
An component is said to be linear, where V-I characteristics follow only one equation of the straight line passing through the origin all the time. Linear Components are those whose characteristics are straight lines passing through the origin. Linear Components do not require any external power supply to operate in the electrical circuit. Linear Components receive the electrical energy and either convert it or store it in the form of a magnetic field or electric field. Linear Components are important because they can amplify and process electronic signals without distortion.
In linear circuits, these linear elements is also known as electrical elements in the electric circuit and there will be a linear relationship between the voltage and current. The main examples of the Linear Components in electrical circuits are resistors, capacitors ,inductors, transformers, 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