Receiving antenna design » History » Version 7

SCHNEIDER, Joris, 03/23/2017 05:33 PM

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h1. Receiving antenna design
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As we have seen in the previous section, the double cross antenna is composed of two crossed pairs of equidistant dipoles spaced a quarter wavelength and offset 30° to the azimuth. Each dipole has a length of half a wavelength. You can see the resulting general antenna appearance below.
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p=. 
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!{width:30%}DoubleCrossAntenna2.PNG!
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h2. Dimensions
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To specify the dimensions, we need to calculate the received wavelength. We calculated it for NOAA 19 (137.1MHz) and NOAA 18 (137.915MHz) to see if there is a noticeable difference on the needed dimension:
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p=. 
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!{width:30%}Wavelength.PNG!
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Where:
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•	λ is the wavelength (m)
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•	c is the speed of the light (m/s)
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•	f is the frequency of the received signal (Hz)
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As the difference is very small, the antenna can be used for any NOAA satellite.
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We can deduce the dipole length and the distance between the dipoles which is respectively half a wavelength and a quarter wavelength: 
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p=. 
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!{width:30%}Length.PNG!
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In compliance with these results we can model our antenna:  
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p=. 
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!{width:50%}AntennaDesign.PNG!
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h2. Polarization