Federal Communications Commission DA 08-401 
Before the
Federal Communications Commission
Washington, D.C. 20554
In the Matter of
RAYSAT ANTENNA SYSTEMS, LLC
Application for Authority to Operate 400
Land Mobile-Satellite Service (“LMSS”) 
Earth Stations in the 14.0-14.5 GHz 
and 11.7-12.2 GHz Frequency Bands
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IBFS File Nos.  SES-LIC-20060629-01083;  
SES-LIC-20060629-02248; 
SES-LIC-20060629-02249; 
SES-LIC-20060629-02250; 
SES-LIC-20060629-02251; 
SES-LIC-20060629-02252;
SES-AMD-20070620-00839
Call Signs:   E060101; E060447;  
E060448; E060449; 
E060450; E060451
ORDER AND AUTHORIZATION
Adopted:  February 15, 2008 Released:  February 15, 2008
By the Chief, International Bureau, and the Chief, Office of Engineering and Technology:
I. INTRODUCTION
1. By this Order, we grant Raysat Antenna Systems, LLC (Raysat) authority to operate up to 
four hundred technically identical mobile earth terminals (METs) that will be mounted on vehicles and 
used while in motion throughout the continental United States.1 These METs will provide Land Mobile-
Satellite Service (LMSS), using the standard Ku-band frequency ranges of 14.0-14.5 GHz (Earth-to-
space) and 11.7-12.2 GHz (space-to-Earth), and will communicate with Fixed-Satellite Service (FSS) 
satellites in geostationary satellite orbit (GSO).2  The Raysat METs will provide data communications to 
end users in vehicles, including emergency responder and military vehicles, trucks, cars, trains, and other 
in-motion platforms. Grant of this authorization will enhance competition in an important sector of the 
mobile telecommunications market in the United States.
  
1 As discussed below in Part III.C.1, we are licensing the earth stations as six separate earth station call signs due to 
the manner in which Raysat has proposed to operate its network.
2 The FSS is a radiocommunication service between earth stations at given positions, when one or more satellites are 
used; the given position may be a specified fixed point or any fixed point within specific areas; in some cases this 
service includes satellite-to-satellite links, which may also be operated in the inter-satellite service; the FSS also may 
include feeder links for other space radio-communication services.  See 47 C.F.R. § 2.1.
Federal Communications Commission DA 08-401 
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II. BACKGROUND
A. Application and Amendment
2. Raysat’s application originally sought authority to operate a Ku-band mobile satellite network 
consisting of up to four thousand in-motion METs to be mounted on vehicles operating throughout the 
United States.3  Raysat subsequently amended this application on June 20, 2007, to reduce the requested 
number of remote METs from 4000 to 400 and to provide additional information with respect to certain 
operational characteristics of its proposed network.4  
3. Description of System.  Raysat’s proposed network will offer two-way communication data 
capabilities to moving vehicles, including high-speed Internet access, Voice over Internet Protocol 
(VoIP), access to government and corporate intranets, virtual private networks, streaming video and 
audio, file sharing, and other services.5  Raysat anticipates that the greatest demand for its proposed 
network will come from local, state, and federal government agencies.6  Raysat also expects demand from 
commercial enterprise customers.7
4. The space segment of Raysat’s network will use FSS space stations and associated hub earth 
station facilities that the Commission has already authorized to provide FSS in the United States.8  In 
order to permit both transmission and reception while the METs are in motion, the proposed network 
utilizes a phased array antenna developed by Raysat that is mounted on the tops of vehicles.9  Each MET
consists of an outdoor antenna unit, an indoor controller, and a satellite communication modem.10
5. According to Raysat, its system employs antenna pointing systems to ensure that antennas 
will transmit only when correctly pointed towards the intended satellite. Raysat has designed its METs to
use Global Positioning System (GPS) signals to determine each MET’s location and calculate the 
pointing direction to the target satellite.11  The METs are designed to employ a three-axis gyroscope as 
  
3 Raysat, Inc., Application for Authority to Operate 4,000 In-Motion Mobile Satellite Antennas in the 14.0-14.5 
GHz and 11.7-12.2 GHz Frequency Bands, IBFS File No. SES-LIC-20060629-01083 (Application).  The Raysat 
application was originally filed on June 29, 2006, by an affiliated company, Raysat, Inc.  Raysat, Inc. is a developer 
and manufacturer of phased array antennas for use in satellite communications and is one of four members of the 
Raysat limited liability corporation. Id. at 3.
4 Raysat Antenna Systems, LLC, Application for Authority to Operate 400 Land Mobile-Satellite Service (“LMSS”) 
Earth Stations in the 14.0-14.5 GHz and 11.7-12.2 GHz Frequency Bands, IBFS File No. SES-AMD-20070620-
00839 (Amendment).
5 Application at 4.  Raysat estimates that the forward channel of its proposed service will offer speeds of 1 to 14 
megabits per second (Mbps), with a return channel of 128 to 512 kilobits per second (kbps).  Id.
6 Application at 4-5.
7 Application at 5.  Because of the size and cost of the antenna and the cost of the service, Raysat does not view this 
service as a consumer product.  Id. at 3.
8 Application at 2.  The proposed FSS space stations are as follows: Intelsat-Americas 7 at 129° W.L.; Intelsat-
Americas 8 at 89° W.L.; AMC-4 at 101° W.L.; AMC-5 at 79° W.L.; AMC-6 at 72° W.L.; SBS-6 at 74° W.L.; and 
Horizons-1 at 127° W.L.  Id. The proposed earth station hubs are in the following locations: (1) McLean, VA (Call 
Sign E860326); (2) Hagerstown, MD (Call Signs E040140, E040141, E040414, E040475); (3) Silver Spring, MD 
(Call Sign KA416); (4) Englewood, CO (Call Sign E950149); (5) Woodbine, MD (Call Sign E920698); and (6) 
Charlotte, NC (Call Sign E050007).  Id.
9 Application at 2.  
10 Application at 6.
11 Application at 6.
Federal Communications Commission DA 08-401 
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well as receive power measurements to maintain the antenna pointing to within close tolerances.12  Raysat 
also indicates that each MET automatically searches for and acquires the target satellite and maintains 
pointing accuracy by means of automatic control of the azimuth, elevation, and polarization angles while 
the antenna is in motion.13  According to Raysat, the received signal from the target satellite is constantly 
sampled, and if the received power exceeds a specific level, the MET will track that satellite signal.14  
Raysat indicates that the MET will transmit only if there is a signal lock, i.e., the MET verifies the 
radiofrequency characteristics of the received signal, network identification, and other parameters.  When
signal lock is lost, the MET stops transmitting and searches for a new downlink signal, and, according to 
Raysat, until the MET finds the correct downlink signal and is properly pointed, it is not permitted to 
transmit.15
6. The Raysat system also incorporates automatic muting capabilities designed to protect 
adjacent satellites from interference in case of pointing errors.  Specifically, in the event a MET 
mechanically mispoints by more than 0.5 degrees, it will mute the transmit carrier.16 Such muting will 
occur in less than 100 milliseconds (ms).17 In addition, if the downlink signal from the satellite is lost for 
any reason, the MET will sense this loss of signal and will mute transmissions.18 Once muted, the MET 
may not re-commence transmissions until the pointing error is corrected, or the intended satellite receive 
signal is re-acquired.19 Raysat has been testing its system since August 2005 under an experimental 
license pursuant to Part 5 of the Commission’s rules.20
7. Procedural History.  Raysat’s application was placed on public notice on July 5, 2006.21  
Parsons Transportation Group Inc. filed comments in support of the application.22 ViaSat, Inc. (ViaSat) 
filed comments requesting that the Commission not grant Raysat’s application unless Raysat corrects 
alleged technical deficiencies in its application and resolves potential interference issues identified by 
ViaSat.23  Raysat’s amendment was subsequently placed on public notice on June 27, 2007.  No 
comments were filed in response.24   
B. VMES Rule Making
8. On May 15, 2007, the Commission released a Notice of Proposed Rule Making inviting 
comment on proposed rules for the licensing and operation of Vehicle-Mounted Earth Stations (VMES) 
  
12 Application at 6.
13 The initial acquisition time is less than 60 seconds, and the antenna is capable of tracking through the horizontal 
plane at tracking speed of 60 degrees per second.  Application at 5-6.  
14 Amendment at 7.
15 Amendment at 7.
16 Application at 6.
17 Amendment at 8.
18 Amendment at 8.  This muting will be accomplished in less than 100 milliseconds.  Id.
19 Amendment at 8.
20 File Number 0135-EX-ML-2005, Call Sign WD2XTB (granted Jan. 23, 2006).
21 Report No. SES-00834, Satellite Radio Applications Accepted for Filing (July 5, 2006).
22 Comments of Parsons Transportation Group Inc. (filed Aug. 4, 2006) (Parsons Comments).
23 Comments of ViaSat, Inc. (filed Aug. 4, 2006) (ViaSat Comments). Raysat replied to ViaSat’s comments.  See
Reply of Raysat, Inc. (filed Aug. 17, 2006) (Raysat Reply). ViaSat responded to Raysat’s reply comments.  See
Response of ViaSat, Inc. (filed Aug. 29, 2006) (ViaSat Response).
24 Report No. SES-00939, Satellite Radio Applications Accepted for Filing (June 27, 2007).
Federal Communications Commission DA 08-401 
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as an application of the FSS in the conventional and extended Ku-band frequencies (VMES Notice).25  
Specifically, the Commission sought comment on a proposal to allocate spectrum for use with VMES in 
the FSS in the Ku-band at 14.0-14.5 GHz (Earth-to-space) on a co-primary basis and at 11.7-12.2 GHz 
(space-to-Earth). The Commission also proposed to adopt Ku-band VMES licensing and service rules 
modeled on the Commission’s rules for Ku-band Earth Stations on Vessels (ESVs).26  Raysat’s proposed 
operations are similar to the VMES operations that are the subject of the VMES Notice, although, unlike 
the operations under discussion in the VMES proceeding, Raysat does not seek to operate on a primary 
basis in either the 11.7-12.2 GHz or 14.0-14.5 GHz bands. Thus, Raysat’s operations are addressed in 
this Order under existing regulatory requirements and precedent.  In the event Raysat seeks to operate 
pursuant to the modified regulatory framework under consideration in the VMES proceeding, it would 
need to apply for a license modification following any adoption of new or modified rules in that 
proceeding. 
III. DISCUSSION
9. Raysat proposes to operate its system as a Mobile-Satellite Service (MSS) using an existing 
secondary MSS allocation in the 14.0-14.5 GHz frequency band and as a non-conforming use in the 11.7-
12.2 GHz band.  As explained below, we grant Raysat’s application under the Commission’s existing 
rules.  
A. Space-to-Earth (11.7-12.2 GHz)
10. Raysat proposes to receive communications in the 11.7-12.2 GHz band from GSO FSS space 
stations to METs.  The 11.7-12.2 GHz band is allocated to the FSS for downlink operations on a primary 
basis.27 It is also allocated on secondary basis for operation of grandfathered terrestrial radio stations.28  
As Raysat recognizes, this band contains no allocation – either domestically or internationally – for 
MSS.29 Thus, Raysat requests a waiver of U.S. Table of Frequency Allocations (Table of Allocations) to 
permit the use of the 11.7-12.2 GHz frequency band for downlinks to its mobile-satellite network.30
11. The use of the radiocommunication frequencies in the United States must accord with the 
Table of Allocations contained in Section 2.106 of the Commission’s rules.31  The Commission will grant 
a waiver of the Table of Allocations for non-conforming uses “when there is little potential interference 
into any service authorized under the Table of Allocations and when the non-conforming operator accepts 
any interference from authorized services.”32 In particular, the Commission has permitted METs to 
  
25 See Amendment of Parts 2 and 25 of the Commission’s Rules to Allocate Spectrum and Adopt Service Rules and 
Procedures to Govern the Use of Vehicle-Mounted Earth Stations in Certain Frequency Bands Allocated to the 
Fixed-Satellite Service, IB Docket No. 07-101, Notice of Proposed Rule Making, 22 FCC Rcd 9649 (2007) (VMES 
Notice).
26 See id. at ¶ 2.  Service rules for ESVs were adopted by the Commission in 2005 and are codified at 47 C.F.R. 
§ 25.222.  See Procedures to Govern the Use of Satellite Earth Stations on Vessels in the 5925-6425 MHz/3700-
4200 MHz Bands and 14.0-14.5 GHz/11.7-12.2 GHz Bands, Report and Order, 20 FCC Rcd 674 (2005) (ESV 
Report and Order).
27 47 C.F.R. § 2.106.
28 47 C.F.R. § 2.106, Footnote NG184.
29 Application at 15.
30 Application at 15.
31 See 47 C.F.R. §2.102(a).
32 Application at 15, citing Fugro-Chance, Inc., Order and Authorization, 10 FCC Rcd 2860 (Int’l Bur. 1995) 
(authorizing operations of receive-only mobile earth terminals in the 11.7-12.2 GHz band on a non-interference 
basis).
Federal Communications Commission DA 08-401 
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receive in spectrum assigned to FSS downlinks “when a downlink transmission from a fixed-satellite 
appears identical regardless of whether it is being received by fixed or mobile terminals.”33
12. We find that circumstances justify a waiver of the Table of Allocations in this instance.  
Because Raysat’s METs will communicate with existing FSS space stations and will not alter either the 
footprint or the power of downlink transmissions from these satellites, Raysat’s proposed operations will 
not cause interference to other licensed users of the band. In similar circumstances, the Commission has 
previously permitted METs to receive communications in Ku-band spectrum assigned for FSS space-to-
Earth communications.34 Accordingly, we conclude that a waiver of Section 2.106 of the Table of 
Allocations serves the public interest.  Raysat is permitted to receive FSS, however, in the 11.7-12.2 GHz 
band on a non-conforming basis with respect to the Table of Allocations, solely on a non-interference 
basis to all primary and secondary services allocated to use the band.  Raysat must also accept 
interference from any of these services.  Raysat states in its application that it would accept such 
conditions.35
B. Earth-to-Space (14.0-14.5 GHz)
13. Raysat’s METs will transmit in the 14.0-14.5 GHz frequency band. This band is allocated on 
a primary basis for non-Federal FSS Earth-to-space communications.36 It also contains an allocation for 
MSS Earth-to-space communications on a secondary basis for non-Federal government use.37 Because 
Raysat proposes to operate its METs on a secondary basis in the 14.0-14.5 GHz band, we conclude that 
such use is consistent with the Table of Allocations and grant authority for such operations, subject to the 
conditions set forth in the paragraphs below.  
14. Raysat must operate its MSS Earth-to-space communications on a secondary basis in the 
14.0-14.5 GHz band and must protect other services with allocations on a primary basis in this band and 
must coordinate with other services operating on a secondary basis.  Other services in the band include (1) 
FSS networks – both in the GSO and non-geostationary satellite orbit (NGSO) – operating on a primary 
basis in the 14.0-14.5 GHz band, (2) space research services operating in the 14.0-14.5 GHz band on a 
secondary basis,38 (3) Federal government terrestrial fixed and mobile stations operating on a secondary 
basis in the 14.4-14.5 GHz segment, (4) the radio astronomy service operating on a secondary basis in the 
14.47-14.5 GHz band, and (5) grandfathered Non-Federal land mobile stations licensed on a secondary 
basis in the 14.2 – 14.4 GHz segment.  We discuss each of these services below.
  
33 Id.
34 See, e.g., Qualcomm, Inc., Memorandum Opinion, Order, and Authorization, 4 FCC Rcd 1543, 1544 (1989) 
(Qualcomm) (authorizing space-to-Earth transmissions to up to 12,400 land mobile earth terminals in the 11.7-12.2 
GHz frequency band on a non-interference basis).
35 Application at 15.
36 47 C.F.R. § 2.106.
37 Id. Systems operating under a secondary allocation must not interfere with, and must accept interference from, 
systems operating with primary status.  Secondary services can, however, claim protection from harmful 
interference from stations of the same or other secondary service(s) to which frequencies may be assigned at a later 
date.  47 C.F.R. §§ 2.104(d); 2.105(c).
38 The secondary space research allocation is limited in the U.S. Table of Allocations to the 14.0-14.2.  47 C.F.R. § 
2.106.  However, the Table of Frequency Allocations in Article 5 of the International Telecommunication Union 
Regulations includes a secondary space research allocation in the 14.2-14.3 GHz frequency band, and in the 14.4-
14.47 (uplink) frequency band.
Federal Communications Commission DA 08-401 
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1. Protection of FSS in the 14.0-14.5 GHz Band
a. GSO FSS
15. Non-routine Licensing. Raysat’s proposed system does not meet the Commission’s
technical requirements for routine licensing.  The Commission routinely licenses Ku-band earth station 
facilities that meet its two-degree orbital spacing technical requirements set forth in Part 25 of the 
Commission’s rules.39 These technical requirements ensure that the earth stations’ operations do not 
cause harmful interference to adjacent satellite systems.40  In part, these technical rules consist of a 
minimum antenna diameter41 and maximum power level limits, which are set forth in Sections 25.209 and 
25.212 of the Commission’s rules.42 Raysat acknowledges that, under the worst-case operating 
conditions, its METs do not comply with the off-axis gain limits of Section 25.209.43 Specifically, Raysat
states that the antenna pattern of its METs does not comply with the limits of Section 25.209 between 
1.25 and 3.0 degrees, between 5 and 6 degrees, at 9 degrees, and at 15 degrees.44 The worst case
difference is 2.4 decibels (dB) at 2.25 degrees.45
16. Although Raysat’s proposed system is not eligible for routine licensing, it may still be 
authorized under the provisions of Section 25.220 of the Commission’s rules, which govern the licensing 
of non-routine transmit/receive earth station operations that do not conform to Sections 25.209 and 
25.212.46 Pursuant to Section 25.220, an applicant can seek authorization for non-routine transmit/receive 
earth stations under one of two procedural options to demonstrate that it will not cause interference to 
  
39 In 1983, the Commission established a two-degree orbital spacing policy to maximize the number of in-orbit 
satellites serving the United States in either the C-band or the Ku-band.  See Licensing of Space Stations in the 
Domestic Fixed-Satellite Service and Related Revisions of Part 25 of the Rules and Regulations, Report and Order, 
FCC 83-184, 54 Rad. Reg. 2d (P & F) 577 (1983) (Two-Degree Spacing Order); summary printed in Licensing 
Space Stations in the Domestic Fixed-Satellite Service, 48 Fed. Reg. 40233 (Sept. 6, 1983), on recon., Licensing of 
Space Stations in the Domestic Fixed-Satellite Service and Related Revisions of Part 25 of the Rules and 
Regulations, Memorandum Opinion and Order, 99 FCC 2d 737 (1985).  At that time, the Commission began 
assigning adjacent in-orbit satellites to orbital locations two degrees apart in longitude, rather than the three to four 
degrees longitude previously used.
40 See generally Two-Degree Spacing Order, 54 Rad Reg. 2d (P&F) 577 (adopting two degree orbital spacing policy 
to maximize the number of in-orbit satellites operating in the Ku- and C-bands).
41 The antenna diameter is important because it affects the antenna gain. Decreasing the antenna diameter produces 
wider main beams and higher side lobes.  As a result, the allowable antenna gain pattern envelope effectively creates 
a minimum earth station antenna diameter because at some point the main beam will become wide enough to cause 
unacceptable interference to adjacent satellites.  See VMES Notice, 22 FCC Rcd at 9669 ¶ 42 and n.88.
42 47 C.F.R. §§ 25.209 and 25.212.
43 See Application at 13.  Many antennas are shaped like parabolas, or large curved bowls.  The “axis,” or boresight, 
is the line running through the center of the bowl and perpendicular to the plane of the edge of the bowl.  The 
majority of the energy is transmitted along the boresight in what is called the main beam of the antenna.  The “off-
axis” angle is the angle formed by the axis and any other line running through the center of the bowl.  The energy 
transmitted from an antenna forms “ripples,” alternately increasing and decreasing in magnitude as the off-axis 
angle increases.  These ripples are called “side lobes.”  See VMES Notice, 22 FCC Rcd at 9669 n.88.
44 Application at 13.
45 Application at 13.
46 47 C.F.R. § 25.220.  The provisions of Section 25.220 were adopted in 2005 as part of the Commission’s space 
station reform proceeding.  See 2000 Biennial Regulatory Review – Streamlining and Other Revisions of Part 25 of 
the Commission’s Rules Governing the Licensing of, and Spectrum Usage by, Satellite Network Earth Stations and 
Space Stations, Fifth Report and Order in IB Docket No. 00-248, and Third Report and Order in CC Docket 86-496, 
20 FCC Rcd 5666 (2005) (Fifth Report and Order).
Federal Communications Commission DA 08-401 
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satellites adjacent to the target satellites.47  Section 25.220(c)(1) provides that a non-routine earth station 
may be authorized if the applicant proposes to limit the maximum power density of the signal input into 
the earth station’s antenna to a certain level.  This level is determined by reducing the maximum 
permissible input power density for a routinely-licensed station by the number of decibels that the non-
compliant antenna exceeds the applicable gain limits in Section 25.209.  Alternatively, Section 
25.220(c)(2) provides that a non-routine Ku-band earth station that does not meet the input-power limit 
prescribed in Section 25.220(c)(1) may be authorized if the applicant files a statement from the operator 
of the target satellite certifying that it has coordinated the proposed operation of the non-routine earth 
station with the operators of all adjacent GSO satellites within six degrees of separation.
17. We find that Raysat has satisfied the procedural options of both Section 25.220(c)(1) and 
(c)(2).  First, Raysat confirms that it has reduced the power density of its system pursuant to Section 
25.220(c)(1) so that it appears to be a routine earth station from the perspective of adjacent satellites.48  
Second, as part of its application Raysat submitted letters from the target satellite operators, as set forth 
by Section 25.220(c)(2), which certify that the operators have coordinated Raysat’s proposed operations 
with the operators of satellites within six degrees of the intended satellite.49  We find that these factors are 
sufficient to protect currently-deployed GSO FSS space stations from interference from Raysat’s 
proposed operations.
18. In the event, however, that another lawfully operating co-frequency FSS satellite commences 
operation at a location within six degrees of the target satellites in the future, Raysat must reduce 
aggregate off-axis radiation from its METs to levels one dB below the routine-processing envelope, 
pending demonstration of coordination with the operator of the new satellite. Such a reduction in power 
is reasonable during any period of time when Raysat’s operations have not been coordinated and will 
minimize the possibility of unacceptable interference to new FSS satellites.
19. Pointing Accuracy, Operational Characteristics, and Link Margins.  ViaSat questions 
whether the pointing accuracy of Raysat’s METs is sufficient to prevent interference to adjacent satellites, 
because Raysat proposes to operate its system using a single channel per carrier (SCPC) modem that 
transmits at relatively narrow bandwidths at high power densities compared to a spread-spectrum 
modem.50 Thus, ViaSat contends, minor shifts in antenna pointing would emit high power densities in the 
direction of victim satellites.  Although Raysat designed its system to mute transmissions when a MET 
mispoints by more than 0.5 degrees,51 ViaSat observes that Raysat’s METs have a pointing error standard 
deviation of 0.35 degrees, which ViaSat claims will not support viable service in real-world conditions 
because such deviation would result in the MET not being operational 15 percent of the time.52 We are 
satisfied that the pointing accuracy of Raysat’s system, in conjunction with the other protections for GSO 
FSS operators described in this Order and Authorization, is sufficient to protect adjacent GSO FSS 
satellites from interference.  Although ViaSat is correct that SCPC systems have higher power density per 
bandwidth than spread spectrum systems, Raysat has reduced the power density of its system under 
  
47 See Fifth Report and Order at 5669 ¶ 3; 47 C.F.R.§ 25.202(a)(2).
48 Application at 13 (stating that the RF flange power density of the Raysat system will be -18.1 dBW/4 kHz, which 
is more than 4 dB below the input power-density limit of -14 dBW/4kHz specified in Section 25.212(c)).  The 
minimum margin at any off-axis angle is 1.64 dB.  See Application at 17.
49 See Application at Exhibit 1.
50 ViaSat Comments at 4.
51 See supra, para. 6.
52 ViaSat Comments at 5. Raysat also presents calculations to counter ViaSat’s assertion that its METs will not be 
operational 15 percent of the time. Raysat Reply Comments at 8.  Under Raysat’s calculations, the outage will be 
less than 0.4 percent of the time. Id.  
Federal Communications Commission DA 08-401 
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Section 25.220(c)(1), so that a Raysat MET appears to be a routine earth station from the perspective of 
adjacent satellites.53 As long as an applicant demonstrates successfully that its MET meets the 
Commission’s two-degree spacing requirements, we will not dictate whether a system uses SCPC or 
spread spectrum technology, nor decline to authorize the system based upon claimed performance 
deficiencies.54
20. In addition, ViaSat claims that Raysat fails to demonstrate that its METs can achieve a 
positive link margin from the MET to the hub earth station using the power density level at which Raysat
proposes to operate, even under ideal circumstances.55  Raysat submitted an analysis disputing ViaSat’s 
claim.56  We have reviewed the link budget information supplied by Raysat and are satisfied that a 
positive link margin can be achieved for one of the two emissions requested, the 518KG7W emission.57
21. Raysat’s application, however, also seeks to operate a higher data rate emission (2M07G7W) 
at an equivalent isotropically radiated power (EIRP) density of 6 dB less than its 518KG7W emission.  
Raysat did not supply a link budget analysis for this emission, and we share ViaSat’s concern that Raysat
may not be able to achieve either a positive link margin or the required bit error rate without increasing 
the EIRP at the MET.58  Without further information we cannot evaluate Raysat’s proposed use of this 
emission designator.  Accordingly, we dismiss, without prejudice, Raysat’s proposed use of the 
2M07G7W emission designator.
22. Central Network Management. ViaSat also expresses concern that Raysat’s proposed use of 
an unspread signal will increase the risk of interference to GSO FSS systems without central network 
  
53 See supra, para. 17.  We also note that Raysat has obtained certification from adjacent satellite operators stating 
that they do not oppose its proposed operations.  Id.
54 We note that we have authorized Raysat’s network based on the information that it has provided for a non-spread 
spectrum system.  See Amendment at 10 (stating that “the [Raysat] network uses only FDMA and TDMA 
transmission schemes”).  Raysat acknowledges that it must obtain prior Commission approval, through a 
modification application, before it can use spread spectrum multiple access schemes, such as code division multiple 
access (CDMA). See Amendment at 5.
55 ViaSat Comments at 6.
56 Raysat Reply at 9-10. In its application, Raysat states its system will operate using 1/3 forward error correcting 
codes (FEC), but its demonstration is based on a slightly lower rate of 5/16 FEC. We are not concerned about this 
minor difference because Raysat has demonstrated that it can achieve the required positive link margin, and we 
expect that the FEC technique and rate that Raysat chooses in its final system implementation will not affect the 
emission designator that Raysat has submitted in its application.
57 Raysat has demonstrated that it can achieve a link margin of 1.7 dB using a power spectral density of -18.1 
dBW/4 kHz at the antenna flange for its 518KG7W emission.  Emission designators describe the emission, 
modulation, and transmission characteristics of the signal employed and are codified in Section 2.201 of the 
Commission’s rules.  See 47 C.F.R. § 2.201.  Emissions are designated according to their classification and 
necessary bandwidth, and a minimum of three symbols are used to describe the characteristics of a signal: the first 
symbol shows the type of modulation; the second, the nature of the signal(s) modulating the main carrier; the third, 
the type of information to be transmitted.  See id. Accordingly, an emission with the designator 518KG7W is phase 
modulated (G) with two or more channels containing quantized or digital information (7) transmitting a combination 
of different types of information (W).  See id. The prefix “518K” indicates that the bandwidth of the emission is 518 
kilohertz.  See 47 C.F.R. § 2.202(b)(2).
58 In order to achieve a non-negative link margin for the 2M07G7W emission, using the same FEC technique and 
rate that it uses for its 518KG7W emission, Raysat would need to use a power spectral density of at least -19.8       
(= -18.1 – 1.7) dBW/4 kHz at the antenna flange, resulting in a higher EIRP out of the earth station antenna.  Raysat, 
however indicates it would use a power spectral density of -24.1 dBW/4 kHz, which is 4.3 dB too low to achieve a 
non-negative link margin, assuming the same FEC characteristics are used for the two emission types Raysat states 
it intends to use.
Federal Communications Commission DA 08-401 
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management.59 ViaSat argues that lack of central network management allows each antenna user to 
adjust the power and bandwidth usage of the antenna, which could lead to aggregate power levels in 
excess of the off-axis EIRP density mask set defined by Sections 25.209 and 25.134 of the rules and 
result in interference to adjacent GSO FSS satellites.60  We find that Raysat’s application, as amended, 
adequately addresses this concern.  In its amendment, Raysat explains that each MET will operate 
through a single hub earth station manned by qualified personnel that, subject to Raysat’s direction, will 
ensure that the MET operates in accordance with Raysat’s license.61  Raysat states that it will assign each 
individual MET to a particular hub and satellite, and that METs are not able to switch from one hub 
station or satellite to another on their own.62  For this reason, we have authorized Raysat’s system as six
separate earth station licenses.  Thus, there will be central control over all METs associated with a 
particular hub.63  
23. In sum, we conclude that we can license Raysat’s METs under our existing rules for non-
routine earth stations.  Specifically, Raysat has obtained certifications from adjacent GSO FSS operators 
that they do not object to Raysat’s proposed operations.  In addition, Raysat’s reduction in transmitter 
power, combined with the antenna accuracy and muting capabilities of its system, will help minimize the 
risk of interference to adjacent GSO FSS networks.  Should interference in fact result to GSO FSS 
networks from Raysat’s operations, it is incumbent upon Raysat to immediately cease transmissions from 
the interfering MET in order to terminate the interference.
b. NGSO FSS
24. In 2001, the Commission permitted NGSO FSS gateway and user terminal uplinks to operate 
in the 14.0-14.5 GHz band as a primary service.64  Thus, Raysat’s MSS network – as a secondary service 
in this band – has an obligation to protect NGSO FSS operations from interference.  We observe, 
however, that there are no authorized Ku-band NGSO FSS systems and no pending applications for such 
systems.65
25. Raysat states that the antenna radiation pattern of its METs will not meet the off-axis EIRP 
limitations of Section 25.209(a)(2) for regions not in the plane of the geostationary arc, i.e., the elevation 
plane.66  Raysat has committed, however, to take all necessary steps to protect any future Ku-band NGSO 
FSS systems licensed by the Commission, prior to the new system’s launch, to ensure that the Raysat
  
59 ViaSat Comments at 2-3.
60 ViaSat Comments at 3.
61 Amendment at 9. 
62 Amendment at 10.  For this reason, we have authorized Raysat’s system as six separate earth station licenses.  See 
infra paras. 33-34.
63 In addition, we observe that the tracking and acquisition safeguards discussed above provide real time, near 
instantaneous shutoff protection to adjacent GSO FSS operators.
64 See Amendment of Parts 2 and 25 of the Commission’s Rules to Permit Operation of NGSO FSS Systems Co-
Frequency with GSO and Terrestrial Systems in the Ku-Band Frequency Range, First Report and Order and 
Further Notice of Proposed Rule Making, ET Docket No. 98-206, FCC 00-418, 16 FCC Rcd 4096 (2000).  
65 The only authorized Ku-band NGSO FSS systems surrendered their authorizations.  See Virtual Geosatellite LLC, 
IBFS File No. SAT-LOA-19990108-00007, Public Notice, Policy Division Information, Actions Taken, Report No. 
SAT-00420, DA 07-617 (Int’l Bur. Feb. 9, 2007); SkyBridge L.L.C., IBFS File No. SAT-LOA-19970228-0021, 
Public Notice, Policy Division Information, Actions Taken, Report No. SAT-00314, DA 05-2327 (Int’l Bur. Aug. 
19, 2005).
66 Application at 14.
Federal Communications Commission DA 08-401 
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system does not cause harmful interference to the new system.67 These steps include Raysat operating its 
system at reduced power levels sufficient to mitigate harmful interference into Ku-band NGSO FSS 
systems that comply with the technical requirements of Part 25 of the Commission’s rules.68  
26. We agree that such conditions are appropriate to protect future Ku-band NGSO FSS systems 
from interference.  Accordingly, if the Commission authorizes a Ku-band NGSO FSS system in the 
future, Raysat must successfully coordinate its operations with that future licensee and obtain an affidavit 
from the licensee that Raysat’s system proposed operations are acceptable.  In the absence of such an 
affidavit, Raysat’s system must cease service immediately upon launch and operation of the first satellite 
of the Ku-band NGSO FSS system, or demonstrate that it will not cause harmful interference to the new 
NGSO FSS system. Failure to make such a demonstration may subject Raysat’s METs to further 
conditions by the Commission designed to address potential harmful interference.69
2. Protection of Space Research in the 14.0-14.2 GHz Band
27. The 14.0-14.2 GHz portion of the Ku-band is domestically allocated for secondary-status 
Federal-government operation in the Space Research Service (SRS).70 The National Aeronautics and 
Space Administration (NASA) currently operates SRS Tracking and Data Relay Satellite System 
(TDRSS) stations in White Sands, New Mexico, and in Guam that receive signals from geostationary 
satellites in the 14.0-14.05 GHz segment of the SRS band.71 NASA also plans to establish an additional 
TRDSS receive facility at Blossom Point, MD, in the near future.72
28. As part of its application, Raysat included a copy of a coordination agreement with NASA to 
protect the current and future TDRSS sites.73 Pursuant to this agreement, Raysat will protect TDRSS 
operations at White Sands by means of exclusion zones within which Raysat’s METs will be prohibited 
from operating.74 Above 14.2 GHz, an exclusion zone extends for 10 kilometers (km) north and south of 
  
67 Application at 14-15.
68 Application at 15.
69 Raysat states that its application, as amended, extends only to those mobile earth stations that Raysat itself may 
operate, and that other operators may purchase mobile earth stations from Raysat to include in their own networks.  
Such operators will seek separate operating authority from the Commission.  Amendment at 4.  We anticipate that 
any future authorizations will be subject to the same condition to protect future NGSO FSS systems from 
interference.
70 47 C.F.R. § 2.106.
71 See VMES Notice, 22 FCC Rcd at 9665 (para. 31).
72 On August 17, 2007, the National Telecommunications and Information Administration (NTIA) informed the 
Commission that a site in Blossom Point, MD has been selected for a new TDRSS earth station.  The coordinates are 
38o25'44" N, 77o05'20" W, and the site has a terrain height at approximately sea level.  The new earth station is 
expected to become operational within three years and to have similar technical characteristics to that of its White 
Sands, NM, terminal except that this station will have improved RF filtering.  See Public Notice, International 
Bureau Announces New NASA TDRSS Earth Station Site, Report No. SPB-221, DA 07-4028 (rel. Sept. 25, 2007). 
73 Application at 8.  A copy of Raysat’s coordination agreement with NASA is attached as Exhibit 2 to Raysat’s 
application.  See “A Coordination Agreement Between the National Aeronautics and Space Administration 
(hereinafter “NASA”) and Raysat, Incorporated for Operation of the Raysat LMSS Terminals in the 14.0-14.5 GHz-
Band” (NASA Coordination Agreement).  Because Raysat’s application is only for operations within the Contiguous 
United States (CONUS), the coordination agreement does not address protection of NASA’s TDRSS site in Guam.  
If Raysat applies for future authorization to operate outside of CONUS, the coordination agreement with NASA 
calls on Raysat and NASA to develop an addendum to accommodate Raysat’s protection of the Guam site.  See
NASA Coordination Agreement at n1.
74 Application at 8.
Federal Communications Commission DA 08-401 
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the White Sands for Raysat transmissions; below 14.2 GHz, the zone extends 46 km to the north and 73 
km to the south.75  Raysat states that it will program the coordinates of these exclusion zones into its 
METs, and that the stations will terminate transmissions within these zones by means of a GPS system 
integrated into the antenna.76 Accordingly, we condition the authority granted in this Order upon Raysat’s 
adherence to the terms of the coordination agreement with NASA. Raysat will also need to update its 
coordination agreement with NASA to include the new TDRSS site at Blossom Point, MD. Raysat will 
be required to cease operations within 125 km of the new Blossom Point facilities when those facilities 
become operational, unless Raysat reaches an agreement with NASA permitting such operations.77
3. Protection of US Government Fixed and Mobile Stations in the 14.4-14.5
GHz Band
29. In addition to the non-Federal primary FSS and secondary MSS allocations in the 14.4-14.5 
GHz segment, the Federal government has secondary fixed and mobile allocations in the band.78 Our 
records indicate that there are several fixed point-to-point operations and a limited number of fixed 
stations used by the Federal government for terrestrial telecommand.79 There also are several Federal 
government aeronautical mobile stations, land-based aeronautical mobile stations, and land mobile 
stations in the band. Furthermore, there are several Federal government surface telemetering mobile 
stations in the band that are used to send telemetry information to other stations on the ground.  The 
14.4-14.5 GHz band appears to be used predominantly by fixed, mobile, and transportable telemetry 
microwave systems.  The band also is used to transmit air traffic control video links, closed circuit 
television, and range test data (including airborne downlink data transmissions).80  Because the 14.4-14.5 
GHz band is shared with the U.S. government, we have coordinated Raysat’s application with National 
Telecommunications and Information Administration (NTIA) which administers authorizations for 
federal stations.  NTIA has concurred with Raysat’s proposed frequencies and operations.
4. Protection of Radio Astronomy in the 14.47-14.5 GHz Band
30. The National Science Foundation (NSF), an independent Federal agency created by 
Congress, supports radio-astronomy observation in the 14.47-14.5 GHz band at National Radio 
Astronomy Observatories in New Mexico and West Virginia.  The use of the band for radio-astronomy 
observation at those sites is recognized in Footnote US203 to the Table of Allocations, which requires 
steps to be taken to minimize interference with such operation from terrestrial radio transmitters.81 The 
NSF also supports radio-astronomy observation in the same band at various other sites in the continental 
United States, Hawaii, Puerto Rico, and the U.S. Virgin Islands.
31. As part of its application, Raysat includes a coordination agreement reached with the NSF 
  
75 See NASA Coordination Agreement at tables 3 & 4.
76 Application at 8.
77 We note that the Commission has proposed to prohibit VMES operators from operations in the 14.0-14.2 GHz 
band within 125 km of TDRSS sites, absent successful coordination of such operations with NASA.  See VMES 
Notice, 22 FCC Rcd at 9665-66 (para. 32).  This is the same approach that the Commission took for ESVs.  See id., 
n.75.
78  VMES Notice, 22 FCC Rcd at 9667.  See also 47 C.F.R. § 2.106.
79  VMES Notice, 22 FCC Rcd at 9667.
80  Id.
81 47 C.F.R. § 2.106, Footnote US203.
Federal Communications Commission DA 08-401 
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regarding the measures that Raysat will undertake to protect radio astronomy service sites.82 Pursuant to 
this agreement, Raysat will protect radio astronomy operations at ten sites by means of exclusion zones 
within which Raysat’s METs will be prohibited from operating.83 These exclusion zones range from 160 
km separation from the Green Bank, WV, and Socorro, NM, sites to 25 km separation from the Very 
Long Baseline Array site at Hancock, NH.84  Raysat states that the coordinates of these exclusion zones 
will be programmed into its METs, and that antenna transmissions within these zones will be terminated 
by means of a GPS system integrated into the antenna.85  We condition the authority granted in this Order 
on Raysat’s adherence to the terms of its coordination agreement with NSF.
5. Protection of Non-Federal Land Mobile Stations in the 14.2-14.4 GHz Band
32. Prior to March 2, 2005 the Table of Allocations contained an allocation for mobile services in 
the 14.2 – 14.4 GHz band.   These operations were authorized under Part 101, Subpart J of the 
Commission’s Rules.   Footnote 184 to the Table of Allocations provides that land mobile stations that 
were authorized prior to March 1, 2005 are allowed to continue operating on a secondary basis until their 
license expires.  Our licensing records indicate that there are approximately twenty-five licenses that 
authorize stations in the 14.2 – 14.4 GHz band.  We also note, however, that these twenty-five licenses 
authorize the stations to operate in other bands in addition to the 14.2 – 14.4 GHz band, giving them an 
alternative to operating in the 14.2 – 14.4 GHz band.  Given the transient nature of any such operations, 
the limited number of such stations authorized in the band, and the fact that they are also authorized to 
operate in alternate bands, we believe that Raysat’s operation is unlikely to interfere with these 
grandfathered licenses.   
C. Other Matters
1. Separate Call Signs
33. We find that it is appropriate to license Raysat’s METs under six separate authorizations, 
each with a separate call sign, rather than under a single authorization and call sign.86 Although Raysat
sought authorization for its METs under a single license application, Raysat states that it relies on 
separate hubs to manage its METs, and that individual METs can operate with only one hub station at any 
given time.87  The six hub earth stations are geographically distinct, and there is no single point governing 
the entire network of Raysat METs.88 Instead, personnel of each hub earth station will ensure that the 
METs operate in accordance with Raysat’s license, pursuant to contractual arrangement.89  Thus, we 
conclude that Raysat actually seeks to operate its METs as six separate networks, rather than as a single 
network. As a condition to this Order and Authorization, Raysat must submit the application fees for five 
additional earth station applications that would have been due when it filed its original application, a total 
  
82 Application at 8.  A copy of Raysat’s coordination agreement with NSF is attached as Exhibit 3 to RaySat’s 
application.  See “Technical Operational Coordination Agreement for the Joint Usage of the Band 14.0-14.5 GHz 
Between the National Science Foundation and Land Mobile Satellite Service Earth Stations (LMSS) Operated by 
RaySat, Inc.” (NSF Coordination Agreement).
83 Application at 8.
84 See NSF Coordination Agreement at 4.
85 Application at 8.
86 The six authorized earth station hubs are in the following locations: (1) McLean, VA; (2) Hagerstown, MD; (3) 
Silver Spring, MD; (4) Englewood, CO; (5) Woodbine, MD; and (6) Charlotte, NC.  See Application at 2.
87 Amendment at 10.
88 Raysat Reply at 4.
89 Amendment at 9.
Federal Communications Commission DA 08-401 
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of $41,300, within 30 days of the release date of this Order and Authorization.90 Failure to due so will 
render its authorizations null and void.
34. Accordingly, we shall issue six call signs to Raysat, and each of the call signs will be 
associated with a particular hub earth station as set forth in Appendix A to this authorization.  Raysat may 
allocate METs among the six call signs, up to an aggregate of 400 mobile user earth stations. A MET can 
operate under only one call sign at any given time, although Raysat may allocate METs dynamically 
among call signs during the license terms, as Raysat deems necessary.  Raysat must maintain an up-to-
date roster of which METs operate pursuant to a particular call sign at any given time, and this roster must 
be available to Commission staff upon demand. 
2. Data Logging Requirements
35. As a condition of its authorization, Raysat must maintain logs on the operation of its METs, 
as well as a point of contact for resolving any interference complaints, as set forth below. ViaSat argues 
that data logging requirements should apply to Raysat’s proposed operations in order to identify and 
correct interference issues, should they arise.91  Raysat proposed operations will be transitory in nature 
and will take place in bands where regularly licensed spectrum operators have equal or superior rights.  
We agree with ViaSat that maintaining logs on METs operations will help identify and resolve any 
interference concerns raised by such operators.  The Commission has imposed such data logging 
requirements on LMSS operations in the Ku-band in the past,92 and data logging is part of the rules 
governing analogous ESV operations.93 We also note that the Commission is considering similar data 
logging requirements for VMES in the Ku-band.94
36. We will impose data logging and point of contact requirements on Raysat’s proposed 
operations similar to those imposed on previous Ku-band LMSS and ESV licensees.  Accordingly, Raysat
must maintain a point of contact within the United States with the authority and capability to mute the 
METs if necessary. Raysat shall submit a letter to be included in its license file with the name and 
telephone number of the contact prior to commencing operation.  Raysat must also maintain records of 
the locations of METs in longitude and latitude, and of the ownership of vehicles on which the METs
have been installed. The geo-location information must be recorded at time intervals of no greater than 
every twenty minutes while the mobile earth station terminal is transmitting.95 Raysat must maintain the
information for a year and make it available to appropriate entities within twenty-four hours of request.
We also require Raysat to maintain logs of all alleged incidences of interference, the stations involved, 
and the outcome of the incident.96
37. We disagree that data logging requirements are unnecessary and impractical, as Raysat
contends.97  Although Raysat contends that the similarly-situated mobile satellite-newsgathering and 
ESVs have been able to operate in the Ku-band with minimal interference to FSS users, we agree that 
  
90 See contactMEO Communications, LLC, Order and Authorization, 21 FCC Rcd 4035 (Int’l Bur. 2006).
91 ViaSat Comments at 4.
92 See Qualcomm, 4 FCC Rcd at 1545-46.
93 See 47 C.F.R. § 25.222(c); see also ESV Report and Order, 20 FCC Rcd at 695-96, ¶ 48.
94 See VMES Notice, 22 FCC Rcd at 9676-77 ¶¶ 61-64.
95 Accord with 47 C.F.R. § 25.222(c)(1).
96 Compare with Qualcomm, 4 FCC Rcd at 1456.
97 Raysat Reply at 7.
Federal Communications Commission DA 08-401 
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such operations still have the potential to cause interference in some instances.98 Indeed, ESVs are 
subject to data logging requirements for this very reason, as noted above.  Furthermore, we are not 
persuaded by Raysat’s assertion that data logging requirements are unnecessary because Raysat’s 
operations under an experimental license have not yielded any examples of interference into other 
systems.99 Limited operations under an experimental license do not rule out the possibility of interference 
resulting from the operation of a larger number of METs under a commercial license.  Finally, the 
security concerns raised by Raysat regarding disclosure of the location of METs used by U.S. 
Government and military users can be addressed while still maintaining data logging requirements.  We 
observe that the geo-location information that must be logged is required to be made available only to 
other network operators or U.S. Government agencies, and need not be disclosed publicly.  If, in 
particular circumstances, national security or other concerns argue against even this limited disclosure, 
Raysat is free to seek limited waiver of the disclosure requirement under existing Commission rules.100
3. Radiation Hazard Requirements
38. The Commission has observed that the mounting of earth stations on vehicles may pose the 
possibility of human exposure to radiofrequency (RF) radiation.101  The Commission’s rules define the 
maximum permissible exposure (MPE) to non-ionizing radiation for the general public in an uncontrolled 
environment in the 14.0-14.5 GHz band to be 1.0 mW/cm2 averaged over any 30 minute time period.102  
For individuals in a controlled occupational environment, the MPE is 5.0 mW/cm2 averaged over any 6 
minute time period.103  Raysat has provided a radiation hazard analysis that states that the METs will 
produce power densities that would result in exceeding these criteria for a person located at or around the 
surface area of the MET antennas.104
39. We are conditioning the authorization to require that a label or labels be permanently placed 
on the MET, warning about the radiation hazard and including a diagram showing the regions around the 
earth station where the levels could exceed 1.0 mW/cm2.  Individuals will need to be prevented from 
straying within this region by means of signs, caution tape, verbal warnings, placement of the earth 
station or other appropriate means so as to minimize access to the hazardous region.
IV. CONCLUSION
40. We conclude that we can grant Raysat’s application, as amended, under existing Commission 
rules for the licensing non-routine earth stations.  Accordingly, we grant Raysat authority to operate up to 
four hundred technically identical in-motion METs to be mounted on vehicles throughout the continental 
United States, subject to the conditions specified herein.
V. ORDERING CLAUSES
41. Accordingly, IT IS ORDERED that the applications of Raysat Antenna Systems, LLC (IBFS 
File Nos. SES-LIC-20060629-01083, SES-LIC-20060629-02248, SES-LIC-20060629-02249, SES-LIC-
20060629-02250, SES-LIC-20060629-02251, SES-LIC-20060629-02252), as amended by IBFS File No.
  
98 ViaSat Response at 4.
99 Raysat Reply at 7.
100 See 47 C.F.R. § 1.3.
101 VMES Notice, 22 FCC Rcd at 9680.
102 47 C.F.R. § 1.1310.
103 Id.
104 Application, Radiation Hazard Analysis at 1.
Federal Communications Commission DA 08-401 
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SES-AMD-20070620-00839, ARE GRANTED, to the extent indicated herein, and Raysat Antenna 
Systems, LLC IS AUTHORIZED to operate up to four hundred technically identical in-motion METs to 
be mounted on vehicles throughout the continental United States, according to the specifications of its 
application and amendment, and in compliance with the Commission’s rules, subject to the conditions 
specified herein.
42. IT IS FURTHER ORDERED that Raysat Antenna Systems, LLC’s METs are limited to 
communications with the satellites set forth in its application, specifically Intelsat-Americas 7 at 129° 
W.L., Intelsat-Americas 8 at 89° W.L., AMC-4 at 101° W.L., AMC-5 at 79° W.L., AMC-6 at 72° W.L., 
SBS-6 at 74° W.L., and Horizons-1 at 127° W.L.  Raysat Antenna Systems, LLC must seek Commission 
approval to modify its authorization in the event the satellites change orbital locations, or if Raysat 
Antenna Systems, LLC desires to add satellites as points of communication.
43. IT IS FURTHER ORDERED that the Raysat Antenna Systems, LLC METs must accept 
interference from lawful operation of any station in the 11.7-12.2 GHz band in accordance with the U.S. 
Table of Frequency Allocations (47 C.F.R. § 2.106) and shall immediately terminate space-to-Earth 
operations upon notification that such operations are causing harmful interference, not permitted under 
the terms of a pertinent coordination agreement, with lawful operation of any radio system in the 11.7-
12.2 GHz band in conformance with the U.S. Table of Frequency Allocations.
44. IT IS FURTHER ORDERED that the operation of an Raysat Antenna Systems, LLC MET
shall immediately terminate upon notification that such operation is causing harmful interference, not 
permitted under the terms of pertinent coordination agreements, with (1) lawful operation of any radio 
system in the 14.0-14.5 GHz band authorized on a primary basis in conformance with the U.S. Table of 
Frequency Allocations or authorized on a secondary basis prior to the effective date of this order, or (2) 
operation of any TDRSS earth station in the band 14-14.2 GHz, or  (3) radio astronomy observations in 
the 14.47-14.5 GHz band.
45. IT IS FURTHER ORDERED that, if the Commission authorizes a Ku-band NGSO FSS 
system in the future, Raysat Antenna Systems, LLC must successfully coordinate its operations with that 
future licensee and obtain an affidavit from the licensee that Raysat Antenna Systems, LLC’s system 
proposed operations are acceptable.  In the absence of such an affidavit, Raysat Antenna Systems, LLC’s 
system must cease service immediately upon launch and operation of the first satellite of the Ku-band 
NGSO FSS system, or demonstrate that it will not cause harmful interference to the new NGSO FSS 
system.  Failure to make such a demonstration may subject Raysat Antenna Systems, LLC’s METs to 
further conditions by the Commission designed to address potential harmful interference.
46. IT IS FURTHER ORDERED that Raysat Antenna Systems, LLC shall maintain a point of 
contact for discussing interference concerns with other licensees and U.S. Government agencies and shall 
submit a letter to be included in its license file with the name and telephone number of the contact prior to 
commencing operation. Raysat Antenna Systems, LLC shall maintain records of the locations of mobile 
earth station stations in longitude and latitude, and of the ownership of vehicles on which the mobile earth 
station stations have been installed. The geo-location information shall be recorded at time intervals of no 
greater than every twenty minutes while the mobile earth station terminal is transmitting. Raysat Antenna 
Systems, LLC must maintain the information for a year and make it available to appropriate entities 
within twenty-four hours of request. Raysat Antenna Systems, LLC must maintain logs of all alleged 
incidences of interference, the stations involved, and the outcome of the incident.
47. IT IS FURTHER ORDERED that Raysat Antenna Systems, LLC METs must employ a 
tracking algorithm that is resistant to capturing and tracking adjacent satellite signals, and each Raysat 
Antenna Systems, LLC MET must be capable of inhibiting its own transmission in the event it detects 
unintended satellite tracking.
Federal Communications Commission DA 08-401 
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48. IT IS FURTHER ORDERED that Raysat Antenna Systems, LLC METs must be monitored 
and controlled by a ground-based network control and monitoring center.  Each Raysat Antenna Systems, 
LLC must be able to receive “enable transmission” and disable transmission” commands from the 
network control center and must cease transmission immediately after receiving any “parameter change”
command until it receives an “enable transmission” command from the network control center.  The 
network control center will monitor operation of each Raysat Antenna Systems, LLC METs to determine 
if it is malfunctioning, and each Raysat Antenna Systems, LLC mobile earth station will self-monitor and 
automatically cease transmission upon detecting an operational fault that could cause harmful interference 
to the fixed satellite service network.
49. IT IS FURTHER ORDERED that Raysat Antenna Systems, LLC’s operation in the 11.7-12.2 
and 14.0-14.5 GHz bands shall be in accordance with the space station authorization for the satellites with 
which Raysat Antenna Systems, LLC’s METs communicate.
50. IT IS FURTHER ORDERED that operations pursuant to this authorization shall conform to 
the requirements of Raysat Antenna Systems, LLC’s coordination agreements with NASA and NSF.
Raysat Antenna Systems, LLC will need to update its coordination agreement with NASA to include 
operations within 125 km of the new TDRSS site at Blossom Point, MD. Raysat Antenna Systems, LLC
METs shall cease operations within 125 km of the new Blossom Point facilities when those facilities 
become operational, unless Raysat Antenna Systems, LLC reaches an agreement with NASA permitting 
such operations.
51. IT IS FURTHER ORDERED that, in the event that another co-frequency FSS satellite 
commences operation at a location within six degrees of the target satellite, Raysat Antenna Systems, 
LLC must reduce aggregate off-axis radiation from its METs to levels one dB below the routine-
processing envelope, pending demonstration of coordination with the operator of the new satellite.
52. IT IS FURTHER ORDERED that Raysat Antenna Systems, LLC’s proposed use of the 
2M07G7W emission designator IS DISMISSED without prejudice for the reasons stated herein.
53. IT IS FURTHER ORDERED that Section 2.102 of the Commission’s rules IS WAIVED with 
respect to operation of the Raysat Antenna Systems, LLC METs in the 11.7-12.2 GHz downlink band 
consistent with the terms of this authorization.
54. IT IS FURTHER ORDERED that Raysat Antenna Systems, LLC shall take all reasonable 
and customary measures to ensure that the MET does not create a potential for harmful non-ionizing 
radiation to persons who may be in the vicinity of the MET when it is in operation.  At a minimum, 
permanent warning label(s) shall be affixed to the MET warning of the radiation hazard and including a 
diagram showing the regions around the MET where the radiation levels could exceed 1.0 mW/cm2.  The 
operator of the MET shall be responsible for assuring that individuals do not stray into the regions around 
the MET where there is a potential for exceeding the maximum permissible exposure limits required by 
Section 1.1310 of the Commission’s rules, 47 C.F.R. § 1.1310.  This shall be accomplished by means of 
signs, caution tape, verbal warnings, placement of the MET so as to minimize access to the hazardous 
region and/or any other appropriate means.
55. IT IS FURTHER ORDERED that Raysat Antenna Systems, LLC must submit application 
fees for its five additional earth station hubs in the amount of $41,300 within 30 days of the release of this 
Order and Authorization. Failure to due so will render its authorizations null and void.
56. Raysat Antenna Systems, LLC may decline this authorization as conditioned within 30 days 
from the date of release of this Order and Authorization. Failure to respond within that period will 
constitute formal acceptance of the authorization as conditioned.
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57. This Order and Authorization is issued on delegated authority pursuant to Sections 0.241 and 
0.261 of the Commission’s rules, 47 C.F.R. §§ 0.241 and 0.261, and is effective upon release. Petitions 
for reconsideration under Section 1.106 of the Commission's rules, 47 C.F.R. § 1.106, may be filed within 
thirty days of the date of this Order and Authorization.
FEDERAL COMMUNICATIONS COMMISION
Helen Domenici
Chief
International Bureau
Julius Knapp
Chief
Office of Engineering and Technology
Federal Communications Commission DA 08-401 
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Appendix:  Hub Earth Station Association with Call Signs
Raysat Authorization IBFS File No. RaysatCall Sign Associated Hub Earth Station
SES-LIC-20060629-01083 E060101 Spacenet, McLean, VA (Call Sign E860326)
SES-LIC-20060629-02248 E060447 Intelsat, Hagerstown, MD (Call Signs E040140, E040141, E040414, E040475)
SES-LIC-20060629-02249 E060448 G2, Silver Spring, MD (Call Sign KA416)
SES-LIC-20060629-02250 E060449 Stratos, Englewood, CO (Call Sign E950149)
SES-LIC-20060629-02251 E060450 SES Americom, Woodbine, MD (Call Sign E920698)
SES-LIC-20060629-02252 E060451 Charlotte, NC (Call Sign E050007)