Properties of Aperiodic Signal
Here are some properties of Aperiodic signal:
- One important property of periodic signals is their non-repetitiveness. Periodic signals have this property since they show a unique pattern that does not repeat after any interval.
- Another important property if Periodic Signals is that it can be continuous or discrete. Continuous signals are defined for all values of time but discrete signals are defined for certain values only.
- We can define energy of aperiodic signals and divide them on the basis of whether it is finite or infinite. Energy signal have a finite area under their squared magnitude curve, while power signals have finite average power.
- Aperiodic signals can be random or deterministic. Deterministic signals have a predictable values at different points in time. Random signals display some of unpredictability and are determined using mathematical tools.
Aperiodic Signals
Aperiodic Signals are an important tool in the electronic industry. They are unavoidable in modern electronics and are almost used in every daily appliance for generating signals that are random and show no pattern in their behaviour. In this article, we will study what is an Aperiodic signal, how does it looks like. We will also represent the Aperiodic signal mathematically. Later we will discuss the advantages, disadvantages, and some applications of Aperiodic Electronic Signal. We will conclude the article by summing up what we have learned. The electronics industry especially the communication system uses these signals in various circuits and readers can read about these other signals as well.
Table of Content
- What is an Aperiodic Signal?
- Types of Aperiodic Signals
- Periodic Signal Vs Non Periodic Signal
- Properties of Aperiodic Signal
- Advantages of Aperiodic Signals
- Disadvantages of Aperiodic Signals
- Applications of Aperiodic Signals
Contact Us