Changes between Version 16 and Version 17 of MillimeterWaveProjectWinlab2021


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Timestamp:
Jul 30, 2021, 10:49:23 PM (3 years ago)
Author:
itsbaloney
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  • MillimeterWaveProjectWinlab2021

    v16 v17  
    11= 5G Millimeter Wave Leakage=
    22== About This Project
    3 The goal of this Project is to determine how well a given millimeter wave frequency (i.e. waveforms sent at frequencies above 20 MGhz, as 5G will need to be) can stay within its allotted bandwidth. This will be accomplished by measuring the amount of "leakage" - the amount of extra energy that is present due to the transmission of a wave - at various frequencies between about 25-28GHz.
     3The goal of this Project is to determine how well a given millimeter wave frequency transmission (i.e. waveforms sent at frequencies above 20 GHz, as 5G will need to be) can stay within its allotted bandwidth. This will be accomplished by measuring the amount of "leakage" - the amount of extra energy that is present due to the transmission of a wave - at various frequencies between about 25-28 GHz. There are Experiment Reports for measuring the leakage centered at 5 GHz, as that is what much of the work during the project was accomplished with.
    44
     5== Background
     6=== General Background
     7 If two signals are sent at the same frequency, they can conflict with each other. Therefore, there are spectrum licenses in each country which are earmarked for specific purposes, such as TV or phone use. Each user must stay within their allotted bandwidth (the portion of the spectrum which they own the license to) on the power-frequency plot, but as they are wave shaped, they do not naturally fit perfectly. Ideally they would appear rectangular, so as to maximize the amount of power that could be sent while staying within the intended bandwidth. In lower frequency signals, this issue is solved by having license owners designate the edges of their spectrum to be buffer zones according to FCC rules (in the United States), but this could be less effective at higher frequencies where waves will likely have a greater amount of spillover or leakage.
     8
     9This issue is particularly coming to a head with the advent of 5G, which is relying on using higher frequencies to have enough spectrum. Weather prediction technology analyzes waves at about 23.8 GHz, and could be disrupted by leakage from 5G. This project aims to get a general idea about how much potential leakage there might (or might not) be. 
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     11=== Difficulties with the Study
     12There are low level signals in the electromagnetic spectrum emanating from a variety of natural causes. This forms a "noise floor" level at frequencies across the spectrum. Transmissions (by human or natural causes) generates a jump of power (in dbm/Hz) at the frequencies which they are sent. However, this noise floor is not constant but is actually an ever changing low level wave. Therefore, calculating what value to judge as noise floor (and any amount of power above that line to be leakage above the noise floor) can be tricky.
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     14Licenses identify the amount of spectrum which can be used by a company/owner, within limits set by the FCC. However, it was difficult to tell in this study how to asses what should be considered spectrum within the intended bandwidth vs what is leakage.
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     16===Note about Frequencies and Bandwidth
     17There are multiple important values involving frequency which are relevant to this project. Center Frequency is the central frequency at which a transmission is sent and received, and tends to be where the peak of the wave is. The sampling rate (or transmission bandwidth) is the amount of spectrum/frequencies which the signal is sent at. However, the actual signal wave may be wider than this. The receiving bandwidth is the amount of spectrum analyzed by the receiver of the transmission, and is important that it is the correct width to receive the entire wave in all its width.
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     19== Weekly Progress
    520=== Week 1
    621 * Learned how to use some initial Linux commands and access nodes (i.e. remote computers) in Orbit Lab
     
    5974
    6075=== Week 10
    61 * Wrote up Report 2 about the experiment from the previous week
     76* Wrote up Report 2 about the experiment from the previous week ^([#hn Experiment 2])^
    6277* Worked to get signals using the new spectrum analyzer to get data from the millimeter wave frequencies (with a center frequency of 27GHz as opposed to previous experiments which were centered at 5GHz)