Attachment 13.75Report

This document pretains to SES-MOD-20161215-00948 for Modification on a Satellite Earth Station filing.

IBFS_SESMOD2016121500948_1161599

                                        Exhibit For
                                       VYVX, LLC
                                        Atlanta, GA
                   Andrew Corp. 4.5 Meter Earth Station Call Sign: E000358

     Compliance with FCC Report & Order (FCC96-377) for the 13.75 - 14.0 GHz Band
                              Analysis and Calculations

1.       Background

This Exhibit is presented to demonstrate the extent to which the VYVX, LLC satellite earth
station planned for Atlanta, GA is in compliance with FCC REPORT & ORDER 96-377. The
potential interference from the earth station to US Navy shipboard radiolocation operations
(RADAR) and the NASA space research activities in the 13.75 - 14.0 GHz Band is addressed in
this exhibit. The parameters for the earth station are:

                          Table 1. Earth Station Characteristics

     •   Coordinates (NAD83):                     33° 48’ 25.0” N, 84° 20’ 28.0” W

     •   Satellite Location for Earth Station:     TELESTAR 11 at 37.5° W

     •   Frequency Band:                           13.75-14.0 GHz for uplink

     •   Polarizations:                            Linear

     •   Emissions:                                3M70G7W – 36M0G7W

     •   Modulation:                               QPSK – 32APSK

     •   Maximum Aggregate Uplink EIRP:            70.56 dBW for all 3.7 MHz Carriers
     •   Maximum Aggregate Uplink EIRP:            80.4 dBW for all 36.0 MHz Carriers

     •   Transmit Antenna Characteristics
            Antenna Size:                          4.5 meter in Diameter
            Antenna Type/Model:                    Andrew corp.
            Gain:                                  54.9 dBi

     •   RF power into Antenna Flange:            3M70G7W
                                                  15.66 dBW
                                                  or –14.0 dBW/4 kHz (Maximum)

     •   RF power into Antenna Flange:            36M0G7W
                                                  25.5 dBW
                                                  or –14.0 dBW/4 kHz (Maximum)


     •    Minimum Elevation Angle:
          Atlanta, GA                            26.9° @ 117.6° Az (Telstar-11) at 37.5° W

     •    Side Lobe Antenna Gain:                32 - 25*log(θ)

Because the above uplink spectrum is shared with the Federal Government, coordination in this
band requires resolution data pertaining to potential interference between the earth stations and
both Navy Department and NASA systems. Potential interference from the earth station could
impact with the Navy and/or NASA systems in two areas. These areas are noted in FCC Report
and Order 96-377 dated September 1996, and consist of (1) Radiolocation and radio navigation,
(2) Data Relay Satellites.

Summary of Coordination Issues:

1) Potential Impact to Government Radiolocation (Shipboard Radar)
2) Potential Impact to NASA Data Relay Satellite Systems (TDRSS)

2.        Potential Impact to Government Radiolocation (Shipboard Radar)

Radiolocation operations (RADAR) may occur anywhere in the 13.4 - 14 GHz frequency band
aboard ocean going United States Navy ships. The Federal Communication Commission (FCC)
order 96-377 allocates the top 250 MHz of this 600 MHz band to the Fixed Satellite Service
(FSS) on a co-primary basis with the radiolocation operations and provides for an interference
protection level of -167 dBW/m2/4 kHz.

The closest distance to the shoreline from the Atlanta earth station is approximately 379 km east
toward the Atlantic Ocean. The calculation of the power spectral density at this distance is given
by:

3M70G7W

     1.   Clear Sky EIRP:                    70.56 dBW
     2.   Carrier Bandwidth:                 3M70G7W
     3.   PD at antenna input:               -14.0 dBW/4 kHz
     4.   Transmit Antenna Gain:             54.9 dBi
     5.   Antenna Gain Horizon:              FCC Reference Pattern
     6.   Antenna Elevation Angle:           26.9°

36M0G7W

     1.   Clear Sky EIRP:                    80.4 dBW
     2.   Carrier Bandwidth:                 36M0G7W
     3.   PD at antenna input:               -14.0 dBW/4 kHz
     4.   Transmit Antenna Gain:             54.9 dBi
     5.   Antenna Gain Horizon:              FCC Reference Pattern
     6.   Antenna Elevation Angle:           26.9°


The proposed earth station will radiate interference toward the ocean according to its off-axis
side-lobe performance. A conservative analysis, using FCC standard reference pattern, results in
off-axis antenna gains of -3.5 dBi towards the coastline.


The signal density at the shoreline, through free space is:

3.7 MHz Carriers

PFD = Antenna Feed Power density (dBW/4 kHz) + Antenna Off-Axis Gain (dBi) – Spread Loss
(dBw-m2).

       = -14.0 dBw/4 kHz + (3.5) dBi – 10*log[4Π*(379000m)2]
       = -143.0 dBW/m2/4 kHz + Additional Path Losses (~87 dB)
       = -230.0 dBW/m2/4 kHz

36.0 MHz Carriers

PFD = Antenna Feed Power density (dBW/4 kHz) + Antenna Off-Axis Gain (dBi) – Spread Loss
(dBw-m2).

       = -14.0 dBw/4 kHz + (3.5) dBi – 10*log[4Π*(379000m)2]
       = -143.0 dBW/m2/4 kHz + Additional Path Losses (~87 dB)
       = -230.0 dBW/m2/4 kHz


Our calculations show additional path loss of approximately 87 dB including absorption loss and
earth diffraction loss for the actual path profiles from the proposed earth station to the nearest
shoreline.

The calculated PFD including additional path losses to the closest shoreline location is –230
dBW/m2/4 kHz for the 3.7 MHz carriers and –239.4 dBW/m2/4 kHz for the 36.0 MHz. This is
below the –167 dBW/m2/4 kHz interference criteria of R&O 96-377. Therefore, there should be
no interference to the US Navy RADAR from the Atlanta earth station due to the distance and
the terrain blocking between the site and the shore.

3.     Potential Impact to NASA’s Data Relay Satellite System (TDRSS)

The geographic location of VYVX, LLC. earth station in Atlanta, GA is outside the 390 km
radius coordination contour surrounding NASA’s White Sands, New Mexico ground station
complex. Therefore, the TDRSS space-to-earth link will not be impacted by this facility.


3.7 MHz Carriers

The TDRSS space-to-space link in the 13.772 to 13.778 GHz band is assumed to be protected if
an earth station produces an EIRP less than 71 dBW/6 MHz in this band. The 4.5 meter earth
station dish will have an EIRP less than 71 dBW/6 MHz for the 3.75 MHz carriers in this band.
The total EIRP for the 3.7 MHz carriers is 70.56 dBW. The equivalent EIRP per 6 MHz segment
is 69.96 dBW/6 MHz. Therefore, there will be no interference to the TDRSS space-to-space
link.


36 MHz Carriers

The TDRSS space-to-space link in the 13.772 to 13.778 GHz band is assumed to be protected if
an earth station produces an EIRP less than 71 dBW/6 MHz in this band. The 4.5 meter earth
station dish will have an EIRP greater than 71 dBW/6 MHz for the 36.0 MHz carriers in this
band. The total EIRP for the 36.0 MHz carriers is 84.8 dBW. The equivalent EIRP per 6 MHz
segment is 78.8 dBW/6 MHz. Therefore, there will be potential interference into the TDRSS
space-to-space link.


4.   Coordination Issue Result Summary and Conclusions


3.7 MHz Carriers

The results of the analysis and calculations performed in this exhibit indicate that compatible
operation between the earth station at the Atlanta earth station and the US Navy and NASA
systems is probable. These analyses have been based on the assumption of 3.7 MHz bandwidth
digital video and/or data transmissions.


36.0 MHz Carriers

For the 36 MHz carriers, the results of the analysis and calculations performed in this exhibit
indicate that compatible operations between the earth station at the Atlanta facility and the US
Navy, and NASA systems space-to-earth and space-to-space links are possible.

Operation in NASA systems space-to-space link (13,772.0 to 13,778.0 MHz) will not be
permitted because the EIRP of the 36 MHz carriers is 80.4 dBW. The equivalent EIRP per 6
MHz segment is 74.4 dBW/6 MHz. Therefore, there will be potential interference involving the
TDRSS space-to-space link.

Operation on the 36.0 MHz carriers will be restricted to the following band.

13,779 – 14,000 MHz, these are the band edges.



Document Created: 2016-12-15 11:43:08
Document Modified: 2016-12-15 11:43:08

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