Maximum frequency, not bandwidth?

In summary, the Nyquist frequency is often misunderstood as being dependent on the bandwidth of a signal, when in fact it is determined by the highest frequency present in the signal. This misconception is likely due to the use of the term "bandwidth" in this context. To avoid aliasing, a sampling rate of at least 2x the maximum frequency is necessary, but with extra information about the centre frequency, 2x the bandwidth may suffice.
  • #1
freddyfish
57
0
Hey

In many places on the Internet you can read how the Nyquist frequency must be at least as high as the signals bandwidth in order to properly reconstruct the signal. Isn't this a big misnomer, since it is not the bandwidth, but the highest frequency of the signal that determines the necessary sampling rate? Why would then the word "bandwidth" still be used in this context? :smile:
 
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  • #2
Try to make a drawing in the frequency domain of a signal with a spectral content from 40-50MHz that you sample at 20MHz. You should see there is no aliasing.
If you want to reconstruct the original signal you will of course need extra information about the centre frequency of the original signal.

So if you want to reconstruct the original signal without extra available information, you need to sample at 2x the maximum frequency. If you have some extra information, such as the centre frequency, 2x the bandwidth will do.
 
  • #3
Thanks for your answer :biggrin:
 

1. What is maximum frequency?

Maximum frequency refers to the highest frequency that a signal or wave can reach. It is typically measured in Hertz (Hz) and depends on the properties of the medium or system through which the signal is traveling.

2. How is maximum frequency different from bandwidth?

Maximum frequency and bandwidth are related concepts, but they are not the same. Maximum frequency refers to the highest frequency that a signal can reach, while bandwidth refers to the range of frequencies that a signal contains. In other words, maximum frequency is a single value, while bandwidth is a range of values.

3. Why is maximum frequency important?

Maximum frequency is important because it determines the speed and quality of data transmission. In communication systems, a higher maximum frequency means that more information can be transmitted in a given amount of time, resulting in faster data transfer rates. It also affects the clarity and accuracy of the signal.

4. How is maximum frequency measured?

Maximum frequency can be measured using various devices and techniques, such as spectrum analyzers, oscilloscopes, and signal generators. These tools analyze the frequency components of a signal and determine its maximum frequency. Additionally, the maximum frequency can also be calculated using mathematical formulas based on the properties of the medium or system.

5. Can maximum frequency be increased?

Yes, maximum frequency can be increased by improving the properties of the medium or system through which the signal is traveling. This can include using better materials, reducing interference, or using advanced signal processing techniques. However, there is a limit to how high the maximum frequency can be increased due to physical constraints and practical limitations.

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