Time Domain
Time domain is a method used to analyze data.
Vaguely speaking, time domain analysis is analyzing the data over a time period. Functions such as electronic signals, market behaviors, and biological systems are some of the functions that are analyzed using time domain analysis.
For an electronic signal, the time domain analysis is mainly based on the voltage – time plot or the current – time plot. In a time domain analysis, the variable is always measured against time.The cathode ray oscilloscope (CRO) is the most common device when analyzing electrical signals on a time domain. Other computer instrumentation, graphs and raw numerical data can be used to analyze data on a time domain.
Frequency Domain
Frequency domain is a method used to analyze data.
This refers to analyzing a mathematical function or a signal with respect to the frequency. Frequency domain analysis is widely used in fields such as control systems engineering, electronics and statistics.
Frequency domain analysis is mostly used to signals or functions that are periodic over time. This does not mean that frequency domain analysis cannot be used in signals that are not periodic.
The most important concept in the frequency domain analysis is the transformation. Transformation is used to convert a time domain function to a frequency domain function and vice versa. The most common transformation used in the frequency domain is the Fourier transformations. Fourier transformation is used to convert a signal of any shape into a sum of infinite number of sinusoidal waves. Since analyzing sinusoidal functions is easier than analyzing general shaped functions, this method is very useful and widely used.
What is the difference between Frequency Domain and Time Domain?
• Frequency domain analysis is used in conditions where processes such as filtering, amplifying and mixing are required.
• Time domain analysis gives the behavior of the signal over time. This allows predictions and regression models for the signal.
• Frequency domain analysis is very useful in creating desired wave patterns such as binary bit patterns of a computer.
• Time domain analysis is used to understand data sent in such bit patterns over time.