What is Steady State Response?
Time domain analysis of a system refers to the analysis of system performance in time. When the output or response of a system varies with respect to time then it is called a time response. Time responses are of two types transient response and steady-state response. Transient response is the part of the time response that goes to zero as time tends to be large. This response is for that time when the system needs to become steady. Steady response is the time response of the system when it has become steady and transient practically vanishes as time goes to infinity. Steady means when all the disturbances vanish.
Mathematically, the time response can be written as
c(t) = ctr (t) + css(t)
Where,
- ctr(t) is the transient response
- css(t) is the steady-state response
Steady State Response
In this article, we are going to discuss the steady-state response. We will see what is steady state response in Time domain analysis. We will then discuss some of the standard test signals used in finding the response of a response. We also discuss the first-order response for different signals. We will discuss the second-order system and its cases. Along with these, we will also discuss some specifications and errors. Later in the article, we will discuss some applications, advantages, and disadvantages of steady-state response.
Table of Content
- What is steady state response?
- Standard Test Signals Used
- Type and Order of a System
- Steady State Specification
- Advantages of Steady State Response
- Disadvantages of Steady State Response
- Applications of Steady State Response
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