Difference between revisions of "Basic Link Design Steps"

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(Created page with "1. Generate the terrain profile. 2. Path clearance. Determine the antenna heights required for free space line of sight. This step may fail if the heights are impractical. 3. ...")
 
 
(2 intermediate revisions by one user not shown)
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1. Generate the terrain profile.
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# Generate the terrain profile.
2. Path clearance. Determine the antenna heights required for free space line of sight. This step may fail if the heights are impractical.
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# Path clearance. Determine the antenna heights required for free space line of sight. This step may fail if the heights are impractical.
3. Enter the radio, antenna and transmission line specifications. The receive signal level and fade margin are avail-able at this point.
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# Enter the radio, antenna and transmission line specifications. The receive signal level and fade margin are avail-able at this point.
4. Calculate the availability due multipath fading.
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# Calculate the availability due multipath fading.
5. Calculate the availability due to high intensity rain.
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# Calculate the availability due to high intensity rain.
6. Determine if path is susceptible to obstruction fading. This step may require an increase in antenna heights.
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# Determine if path is susceptible to obstruction fading. This step may require an increase in antenna heights.
7. Determine if the path geometry supports a specular reflection.
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# Determine if the path geometry supports a specular reflection.
8. Determine if the path is susceptible to ducting.
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# Determine if the path is susceptible to ducting.

Latest revision as of 13:32, 21 February 2020

  1. Generate the terrain profile.
  2. Path clearance. Determine the antenna heights required for free space line of sight. This step may fail if the heights are impractical.
  3. Enter the radio, antenna and transmission line specifications. The receive signal level and fade margin are avail-able at this point.
  4. Calculate the availability due multipath fading.
  5. Calculate the availability due to high intensity rain.
  6. Determine if path is susceptible to obstruction fading. This step may require an increase in antenna heights.
  7. Determine if the path geometry supports a specular reflection.
  8. Determine if the path is susceptible to ducting.