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Arctic Fox
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Is there a graph or chart somewhere that would show how much bandwidth can be handled at certain frequencies?
The Glom said:Is this for some sort of site-to-site link you're working on?
Arctic Fox said:Well, sort of. I'm thinking of trying out an experiment with long-distance radio communications. I'm now just trying to get a feel for things before I go and spend money on this. :)
Start from FCC: http://wireless.fcc.gov/ Seriously, that's the main thing that limits you.Arctic Fox said:Is there a graph or chart somewhere that would show how much bandwidth can be handled at certain frequencies?
wimms said:Start from FCC: http://wireless.fcc.gov/ Seriously, that's the main thing that limits you.
Arctic Fox said:LOL. That only applies to transmitters within the US. For places like Antartica or in 'international waters', it's not a problem.
Arctic Fox said:So you think the FCC controls what is transmitted anywhere?
If you are not constrained by the laws of this planet, then yeah, its not a problem. If you haven't heard yet, the each country has some equivalent of FCC, and so does international waters.Arctic Fox said:LOL. That only applies to transmitters within the US. For places like Antartica or in 'international waters', it's not a problem.
The bandwidth capacity and frequency have an inverse relationship. This means that as the frequency increases, the bandwidth capacity decreases, and vice versa. This is because higher frequencies require more bandwidth to transmit data, while lower frequencies can transmit data with less bandwidth.
Bandwidth capacity is measured in bits per second (bps) and frequency is measured in hertz (Hz). Bandwidth capacity measures the amount of data that can be transmitted in a given amount of time, while frequency measures the number of cycles per second in a signal.
Bandwidth capacity and frequency are crucial factors in data transmission. Bandwidth capacity determines the maximum amount of data that can be transmitted at a given time, while frequency determines how quickly the data can be transmitted. Higher bandwidth capacity and frequency allow for faster data transmission.
Understanding bandwidth capacity and frequency is important in networking because it helps determine the efficiency and speed of data transmission. It also helps in optimizing network performance and ensuring that the network can handle the amount of data being transmitted.
The graphical representation of bandwidth capacity and frequency is a curve that shows the inverse relationship between the two. The x-axis represents frequency, while the y-axis represents bandwidth capacity. The curve starts high on the left side, indicating low frequency and high bandwidth capacity, and gradually decreases as it moves towards the right side, indicating high frequency and low bandwidth capacity.