Satellite Licensing Procedures, 70897-70905 [E8-27769]
Download as PDF
<![CDATA[
Federal Register / Vol. 73, No. 227 / Monday, November 24, 2008 / Rules and Regulations
documents and all comments received,
go to the Federal eRulemaking Portal at
https://www.regulations.gov. To the far
right is a section titled ‘‘More Search
Options.’’ Below that title, click on
‘‘Advanced Docket Search.’’ On the next
screen, in the box provided for Docket
ID, type ‘‘FEMA–2006–0035’’. The next
screen will provide a link to the docket.
Once viewing the docket, all documents
are provided in chronological order,
beginning with the 2002 Notice of
Proposed Rulemaking.
All Submissions received must
include the agency name and Docket ID.
Regardless of the method used for
submitting comments or supporting
material, all submissions will be posted,
without change, to the Federal
eRulemaking Portal at https://
www.regulations.gov, and will include
any personal information you provide.
Therefore, submitting this information
makes it public. You may wish to read
the Privacy Act notice that is available
on the Privacy and Use Notice link on
the Administration Navigation Bar of
https://www.regulations.gov.
Dated: November 18, 2008.
R. David Paulison,
Administrator, Federal Emergency
Management Agency.
[FR Doc. E8–27839 Filed 11–21–08; 8:45 am]
BILLING CODE 9111–49–P
FEDERAL COMMUNICATIONS
COMMISSION
47 CFR Part 25
[IB Docket No. 00–248; CC Docket No. 95–
117; FCC 08–246]
Satellite Licensing Procedures
Federal Communications
Commission.
ACTION: Final rule.
mstockstill on PROD1PC66 with RULES
AGENCY:
SUMMARY: In this document, the
Commission adopts new procedures for
non-routine earth station applications,
and adopts a reasonableness standard
for contention protocol usage. These
actions are necessary to expedite the
licensing of earth stations often used to
provide satellite-based broadband
Internet access services.
DATES: Effective December 24, 2008,
except for the amendments to §§ 25.115,
25.134, 25.218, and 25.220, which
contain information requirements that
have not been approved by OMB. The
Federal Communications Commission
will publish a document in the Federal
Register announcing the effective date
for these rules once OMB approval has
VerDate Aug<31>2005
19:21 Nov 21, 2008
Jkt 217001
70897
been received for the information
collection requirements.
Final Regulatory Flexibility Analysis
(FRFA) conforms to the RFA.1
FOR FURTHER INFORMATION CONTACT:
A. Need for, and Objectives of, the
Report and Order
The Telecommunications Act of 1996
requires the Commission in every evennumbered year beginning in 1998 to
review all regulations that apply to the
operations or activities of any provider
of telecommunications service and to
determine whether any such regulation
is no longer necessary in the public
interest due to meaningful economic
competition. Our objective is to repeal
or modify any rules in part 25 that are
no longer necessary in the public
interest, as required by section 11 of the
Communications Act of 1934, as
amended.
We codify streamlined procedures
that allow for routine treatment of
applications for earth stations that will
comply with an off-axis EIRP envelope.
Steven Spaeth, International Bureau,
telephone (202) 418–1539 or via the
Internet at steven.spaeth@fcc.gov.
This
summary of the Commission’s Eighth
Report and Order, IB Docket No. 00–
248, and Order on Reconsideration, CC
Docket No. 95–117, FCC 08–246,
adopted October 10, 2008, and released
October 17, 2008. The complete text of
this Eighth Report and Order and Order
on Reconsideration is available for
inspection and copying during normal
business hours in the FCC Reference
Center (Room), 445 12th Street, SW.,
Washington, DC 20554, and also may be
purchased from the Commission’s copy
contractor, Best Copy and Printing, Inc.,
Portals II, 445 12th Street, SW., Room
CY–B402, Washington, DC 20554. It is
also available on the Commission’s Web
site at https://www.fcc.gov.
Paperwork Reduction Act Analysis:
The actions taken in the Eighth Report
and Order have been analyzed with
respect to the Paperwork Reduction Act
of 1995 (PRA), Public Law 104–13 (44
U.S.C. 3501–3520), and found to impose
new and modified requirements.
Implementation of these new and
modified requirements will be subject to
approval by the Office of Management
and Budget (OMB) as prescribed by the
PRA, and will go into effect upon
announcement in the Federal Register
of OMB approval. The Commission will
publish a separate notice in the Federal
Register inviting comment on the new
and revised information collection
requirements contained in this
document. In addition, pursuant to the
Small Business Paperwork Relief Act of
2002, Public Law 107–198, 44 U.S.C.
3506(c)(4), we will also seek specific
comment on how the Commission might
‘‘further reduce the information
collection burden for small business
concerns with fewer than 25
employees.’’
SUPPLEMENTARY INFORMATION:
Regulatory Flexibility Analysis
As required by the Regulatory
Flexibility Act of 1980, as amended
(RFA), an Initial Regulatory Flexibility
Analysis (IRFA) was incorporated in the
Third Further Notice of Proposed
Rulemaking (Third Further Notice) in IB
Docket No. 00–248, 70 FR 33426 (June
8, 2005). The Commission sought
written public comment on the
proposals in the Third Further Notice,
including comment on the IRFA. This
PO 00000
Frm 00037
Fmt 4700
Sfmt 4700
B. Summary of Significant Issues Raised
by Public Comments in Response to the
IRFA
No comments were submitted directly
in response to the IRFA in the Third
Further Notice.
C. Description and Estimate of the
Number of Small Entities to Which
Rules Will Apply
The RFA directs agencies to provide
a description of, and, where feasible, an
estimate of, the number of small entities
that may be affected by the rules
adopted herein.2 The RFA generally
defines the term ‘‘small entity’’ as
having the same meaning as the terms
‘‘small business,’’ ‘‘small organization,’’
and ‘‘small governmental jurisdiction.’’ 3
In addition, the term ‘‘small business’’
has the same meaning as the term
‘‘small business concern’’ under the
Small Business Act.4 A small business
concern is one which: (1) Is
independently owned and operated; (2)
is not dominant in its field of operation;
and (3) satisfies any additional criteria
established by the Small Business
Administration (SBA).5
1. Cable Services. The SBA has
developed a small business size
1 See
5 U.S.C. 604.
U.S.C. 604(a)(3).
3 5 U.S.C. 601(6).
4 5 U.S.C. 601(3) (incorporating by reference the
definition of ‘‘small business concern’’ in 15 U.S.C.
632). Pursuant to the RFA, the statutory definition
of a small business applies ‘‘unless an agency, after
consultation with the Office of Advocacy of the
Small Business Administration and after
opportunity for public comment, establishes one or
more definitions of such term which are
appropriate to the activities of the agency and
publishes such definition(s) in the Federal
Register.’’ 5 U.S.C. 601(3).
5 15 U.S.C. 632.
25
E:\FR\FM\24NOR1.SGM
24NOR1
70898
Federal Register / Vol. 73, No. 227 / Monday, November 24, 2008 / Rules and Regulations
standard for Cable and Other Program
Distribution, which consists of all such
firms having $12.5 million or less in
annual receipts.6 According to Census
Bureau data for 1997, in this category
there was a total of 1,311 firms that
operated for the entire year.7 Of this
total, 1,180 firms had annual receipts of
under $10 million, and an additional
fifty-two firms had receipts of $10
million to $24,999,999.8 Thus, under
this size standard, the majority of firms
can be considered small.
The Commission has developed its
own small business size standard for a
small cable operator for the purposes of
rate regulation. Under the Commission’s
rules, a ‘‘small cable company’’ is one
serving fewer than 400,000 subscribers
nationwide.9 Based on our most recent
information, we estimate that there were
1,439 cable operators that qualified as
small cable companies at the end of
1995.10 Since then, some of those
companies may have grown to serve
over 400,000 subscribers, and others
may have been involved in transactions
that caused them to be combined with
other cable operators. Consequently, we
estimate that there are fewer than 1,439
small cable companies that may be
affected by the proposed rules.
The Communications Act of 1934, as
amended, also contains a size standard
for a ‘‘small cable operator,’’ which is ‘‘a
cable operator that, directly or through
an affiliate, serves in the aggregate fewer
than one percent of all subscribers in
the United States and is not affiliated
with any entity or entities whose gross
annual revenues in the aggregate exceed
$250,000,000.’’ 11 The Commission has
determined that there are 67,700,000
subscribers in the United States.12
Therefore, an operator serving fewer
than 677,000 subscribers shall be
deemed a small operator, if its annual
revenues, when combined with the total
annual revenues of all of its affiliates, do
mstockstill on PROD1PC66 with RULES
6 13
CFR 121.201, NAICS code 517510.
7 U.S. Census Bureau, 1997 Economic Census,
Subject Series: Information, ‘‘Establishment and
Firm Size (Including Legal Form of Organization),’’
Table 4, NAICS code 513220 (issued October 2000).
8 Id.
9 47 CFR 76.901(e). The Commission developed
this definition based on its determinations that a
small cable company is one with annual revenues
of $100 million or less. See Implementation of
Sections of the Cable Television Consumer
Protection and Competition Act of 1992: Rate
Regulation, MM Doc. Nos. 92–266 and 93–215,
Sixth Report and Order and Eleventh Order on
Reconsideration, 10 FCC Rcd 7393, 7408–7409
(paras. 28–30) (1995).
10 Paul Kagan Assocs., Inc., Cable TV Investor,
Feb. 29, 1996 (based on figures for Dec. 30, 1995).
11 47 U.S.C. 543(m)(2).
12 See FCC Announces New Subscriber Count for
the Definition of Small Cable Operator, Public
Notice, 16 FCC Rcd 2225 (2001).
VerDate Aug<31>2005
19:21 Nov 21, 2008
Jkt 217001
not exceed $250 million in the
aggregate.13 Based on available data, we
estimate that the number of cable
operators serving 677,000 subscribers or
less totals approximately 1,450.14 We do
not request or collect information on
whether cable operators are affiliated
with entities whose gross annual
revenues exceed $250,000,000,15 and
therefore are unable to estimate
accurately the number of cable system
operators that would qualify as small
cable operators under the definition in
the Communications Act.
2. Satellite Telecommunications. The
rules proposed in the Third Further
Notice would affect providers of
satellite telecommunications services, if
adopted. Satellite telecommunications
service providers include satellite
operators and earth station operators.
The Commission has not developed a
definition of small entities applicable to
satellite operators. Therefore, the
applicable definition of small entity is
generally the definition under the SBA
rules applicable to Satellite
Telecommunications.16 This definition
provides that a small entity is expressed
as one with $12.5 million or less in
annual receipts.17 1997 Census Bureau
data indicate that, for 1997, 273 satellite
communication firms had annual
receipts of under $10 million. In
addition, 24 firms had receipts for that
year of $10 million to $24,999,990.18
3. Auxiliary, Special Broadcast and
other program distribution services.
This service involves a variety of
transmitters, generally used to relay
broadcast programming to the public
(through translator and booster stations)
or within the program distribution chain
(from a remote news gathering unit back
to the station). The Commission has not
developed a definition of small entities
applicable to broadcast auxiliary
licensees. Therefore, the applicable
definition of small entity is the
13 47
CFR 76.1403(b).
FCC Announces New Subscriber Count for
the Definition of Small Cable Operator, Public
Notice, 16 FCC Rcd 2225 (2001).
15 We do receive such information on a case-bycase basis only if a cable operator appeals a local
franchise authority’s finding that the operator does
not qualify as a small cable operator pursuant to
section 76.901(f) of the Commission’s rules. See 47
CFR 76.990(b).
16 ‘‘This industry comprises establishments
primarily engaged in providing point-to-point
telecommunications services to other
establishments in the telecommunications and
broadcasting industries by forwarding and receiving
communications signals via a system of satellites or
reselling satellite telecommunications.’’ Small
Business Administration, NAICS code 517310.
17 13 CFR 120.121, NAICS code 517310.
18 U.S. Census Bureau, 1997 Economic Census,
Subject Service: Information, ‘‘Establishment and
Firm Size,’’ Table 4, NAICS 513340 (Issued Oct.
2000).
14 See
PO 00000
Frm 00038
Fmt 4700
Sfmt 4700
definition under the Small Business
Administration (SBA) rules applicable
to radio broadcasting stations,19 and
television broadcasting stations.20 These
definitions provide that a small entity is
one with either $6.0 million or less in
annual receipts for a radio broadcasting
station or $12.0 million in annual
receipts for a TV station.21 There are
currently 3,237 FM translators and
boosters, 4913 TV translators.22 The
FCC does not collect financial
information on any broadcast facility
and the Department of Commerce does
not collect financial information on
these auxiliary broadcast facilities. We
believe, however, that most, if not all, of
these auxiliary facilities could be
classified as small businesses by
themselves. We also recognize that most
translators and boosters are owned by a
parent station which, in some cases,
would be covered by the revenue
definition of small business entity
discussed above. These stations would
likely have annual revenues that exceed
the SBA maximum to be designated as
a small business (as noted, either $6.0
million for a radio station or $12.0
million for a TV station). Furthermore,
they do not meet the Small Business
Act’s definition of a ‘‘small business
concern’’ because they are not
independently owned and operated.
4. Microwave Services. Microwave
services include common carrier,23
private-operational fixed,24 and
broadcast auxiliary radio services.25 At
present, there are approximately 22,015
common carrier fixed licensees and
61,670 private operational-fixed
licensees and broadcast auxiliary radio
licensees in the microwave services.
The Commission has not yet defined a
small business with respect to
19 13
CFR 121.201, NAICS code 515112.
CFR 121.201, NAICS code 515120.
21 13 CFR 121.201.
22 FCC News Release, Broadcast Station Totals as
of September 30, 1999, No. 71831 (Jan. 21, 1999).
23 See 47 CFR 101 et seq. (formerly, part 21 of the
Commission’s Rules).
24 Persons eligible under parts 80 and 90 of the
Commission’s rules can use Private OperationalFixed Microwave services. See 47 CFR parts 80 and
90. Stations in this service are called operationalfixed to distinguish them from common carrier and
public fixed stations. Only the licensee may use the
operational-fixed station, and only for
communications related to the licensee’s
commercial, industrial, or safety operations.
25 Auxiliary Microwave Service is governed by
part 74 of Title 47 of the Commission’s Rules. See
47 CFR part 74 et seq. Available to licensees of
broadcast stations and to broadcast and cable
network entities, broadcast auxiliary microwave
stations are used for relaying broadcast television
signals from the studio to the transmitter, or
between two points such as a main studio and an
auxiliary studio. The service also includes mobile
TV pickups, which relay signals from a remote
location back to the studio.
20 13
E:\FR\FM\24NOR1.SGM
24NOR1
Federal Register / Vol. 73, No. 227 / Monday, November 24, 2008 / Rules and Regulations
microwave services. For purposes of
this FRFA, we will use the SBA’s
definition applicable to cellular and
other wireless communications
companies—i.e., an entity with no more
than 1,500 persons.26 We estimate that
all of the Fixed Microwave licensees
(excluding broadcast auxiliary
licensees) would qualify as small
entities under the SBA definition for
radiotelephone (wireless) companies.
D. Description of Projected Reporting,
Recordkeeping, and Other Compliance
Requirements
The rules adopted in the Eighth
Report and Order are not intended to
increase the reporting, recordkeeping
and other compliance requirements of
any licensee, and we do not anticipate
any differential treatment to be received
by larger and smaller entities. The
reporting requirements associated with
the off-axis EIRP envelope method for
reviewing earth station applications are
the same as the reporting requirements
associated with one of the earth station
application procedures adopted in the
Fifth Report and Order in IB Docket No.
00–248, 70 FR 32249 (June 2, 2005).
These requirements will not affect small
businesses differently from other nonroutine earth station applicants.
mstockstill on PROD1PC66 with RULES
E. Steps Taken to Minimize Significant
Economic Impact on Small Entities, and
Significant Alternatives Considered
The RFA requires an agency to
describe any significant alternatives that
it has considered in reaching its
proposed approach, which may include
the following four alternatives: (1) The
establishment of differing compliance or
reporting requirements or timetables
that take into account the resources
available to small entities; (2) the
clarification, consolidation, or
simplification of compliance or
reporting requirements under the rule
for small entities; (3) the use of
performance, rather than design,
standards; and (4) an exemption from
coverage of the rule, or any part thereof,
for small entities.27
In this Eighth Report and Order, the
Commission considers and rejects a
proposal to require analog video earth
station operators to comply with an offaxis EIRP envelope. Commenters
persuasively argued that such a
requirement would have been
burdensome for all analog video earth
station operators, including small
business analog video earth station
operators.
26 See
27 5
13 CFR 121.201, NAICS code 517212.
U.S.C. 603(c)(1)–(c)(4).
VerDate Aug<31>2005
19:21 Nov 21, 2008
Jkt 217001
F. Report to Congress
The Commission will send a copy of
the Eighth Report and Order, including
this FRFA, in a report to be sent to
Congress and the Government
Accountability Office pursuant to the
Congressional Review Act, see 5 U.S.C.
801(a)(1)(A). In addition, the
Commission will send a copy of the
Eighth Report and Order, including
FRFA, to the Chief Counsel for
Advocacy of the Small Business
Administration. A copy of the Eighth
Report and Order and FRFA (or
summaries thereof) will also be
published in the Federal Register. See
5 U.S.C. 604(b).
Summary of Report and Order
The Eighth Report and Order adopts
an off-axis equivalent isotropically
radiated power (EIRP) approach for
licensing non-routine FSS earth
stations, thus giving earth station
operators greater flexibility to make
technical adjustments and request
routine application processing. Part 25
specifies technical requirements for
‘‘routine’’ FSS earth station
applications. ‘‘Routine’’ applications are
those that can be granted without a
detailed engineering review. There are
many non-routine earth stations that can
be licensed without increasing the risk
of harmful interference, but determining
whether a particular non-routine earth
station can be licensed requires a
detailed engineering review. Licensing
non-routine earth stations is important
because they are often used to provide
broadband Internet access.
The off-axis EIRP approach is based
on a limit on the EIRP of side lobes.
Decreasing the diameter of an earth
station antenna increases the side lobes.
Increasing the power into an earth
station antenna also increases the side
lobes. Thus, an earth station operator
could compensate for a high power level
by increasing its antenna diameter, or
vice versa. An off-axis EIRP rule would
make it easier for earth station license
applicants to make these trade-offs, and
to obtain Commission authorizations on
a more expedited basis.
The Eighth Report and Order also
adopts rules based on a study on
contention protocols submitted by a
commenter in this proceeding. This
contention protocol issue is related to
very small aperture terminal (VSAT)
networks. VSAT networks are generally
comprised of a hub station transmitting
to a satellite, which then transmits the
signal to multiple remote earth stations,
or vice versa. VSAT networks use a
number of different techniques, or
protocols, to prevent or limit
PO 00000
Frm 00039
Fmt 4700
Sfmt 4700
70899
interference among the multiple remote
earth stations, and to prevent them from
interfering with other adjacent satellite
networks. Sometimes, the remotes are
assigned different frequencies, or
transmit times. This is known as
Frequency Division Multiple Access
(FDMA), and Time Division Multiple
Access (TDMA). Other protocols are
referred to as ‘‘contention protocols.’’
Under this approach, the VSAT system
operator allows simultaneous
transmissions to interfere with each
other, but uses statistical techniques to
keep the intra-VSAT network
interference to a minimum.
Simultaneous transmissions in
contention protocol usage are called
‘‘collisions.’’ Collisions result in power
levels in excess of the levels allowed by
the Commission’s rules, although for no
more than tens of milliseconds.
Originally, the Commission assumed
that the power levels during
‘‘collisions’’ could increase the
likelihood of harmful interference.
Therefore, the Commission has
requested comment on a number of
proposals over the course of this
proceeding to limit various aspects of
contention protocol usage to reduce the
probability and duration of collisions.
However, the record in this proceeding
includes a technical study that
convincingly shows contention protocol
usage decreases the likelihood of
harmful interference in most areas of the
country, and the increases in other areas
are de minimis. Based on this study, the
Eighth Report and Order decides not to
adopt any of the contention protocol
proposals considered previously in this
proceeding. Instead, contention protocol
users are required to be ‘‘reasonable,’’
which is defined as not increasing the
likelihood of harmful interference any
more than the sample VSAT networks
modeled in the study discussed in the
Eighth Report and Order.
In addition, the Eighth Report and
Order considers and rejects a proposal
to revise procedures for licensing earth
stations in the Quiet Zone. The ‘‘Quiet
Zone’’ is a 13,000 square mile area in
Virginia, West Virginia, and Maryland,
created to protect radio astronomy. The
current procedure, in place since 1958,
requires the Commission to notify the
National Radio Astronomy Observatory
(NRAO) when it receives an application
for an earth station in the Quiet Zone.
In an earlier phase of this proceeding,
NRAO proposed replacing the
traditional notification procedure with a
coordination procedure. The Eighth
Report and Order does not adopt
NRAO’s proposal, because the current
notification requirement has been in
place since 1958, and nothing in the
E:\FR\FM\24NOR1.SGM
24NOR1
70900
Federal Register / Vol. 73, No. 227 / Monday, November 24, 2008 / Rules and Regulations
mstockstill on PROD1PC66 with RULES
record suggests that it has not been
sufficient.
Finally, the Commission considers
several miscellaneous issues raised in
petitions for reconsideration of the Fifth
Report and Order in IB Docket No. 00–
248, 70 FR 32249 (June 2, 2005), the
Sixth Report and Order in IB Docket No.
00–248, 70 FR 33373 (June 8, 2005), and
the 1996 Streamlining Order, 62 FR
5924 (Feb. 10, 1997). Based on those
petitions for reconsideration, the
Commission clarified, among other
things, that non-routine earth stations
need not be afforded more protection
from interference than a routine earth
station would. The Commission also
clarified the satellites with whom a
target satellite operator must coordinate
prior to the time a non-routine earth
station operator communicating with
that target satellite operator plans to
begin operations. All other issues raised
in these petitions for reconsideration
were dismissed as moot, denied because
they were outside the scope of the
proceeding, or denied because the
Commission had considered and
rejected the petitioner’s proposal in a
previous Order.
Ordering Clauses
Accordingly, it is ordered, pursuant to
sections 4(i), 7(a), 303(c), 303(f), 303(g),
and 303(r) of the Communications Act
of 1934, as amended, 47 U.S.C. 154(i),
157(a), 303(c), 303(f), 303(g), 303(r), that
this Eighth Report and Order in IB
Docket No. 00–248 is hereby adopted.
It is further ordered that part 25 of the
Commission’s rules is amended as set
forth below. An announcement of the
effective date of these rule revisions will
be published in the Federal Register.
It is further ordered that the Consumer
and Governmental Affairs Bureau,
Reference Information Center, shall
send a copy of this Order, including the
Final Regulatory Flexibility
Certification, to the Chief Counsel for
Advocacy of the Small Business
Administration.
It is further ordered, pursuant to
§ 1.106 of the Commission’s rules, 47
CFR 1.106, that the Petition for
Reconsideration of the Fifth Report and
Order filed by the Satellite Industry
Association (SIA) is granted in part and
denied in part.
It is further ordered, pursuant to
§ 1.106 of the Commission’s rules, 47
CFR 1.106, that the Petition for
Reconsideration of the Sixth Report and
Order filed by SIA is Granted.
It is further ordered, pursuant to
§ 1.106 of the Commission’s rules, 47
CFR 1.106, that the Petition for
Reconsideration of the Sixth Report and
VerDate Aug<31>2005
19:21 Nov 21, 2008
Jkt 217001
Order filed by Boeing is dismissed as
moot.
It is further ordered, pursuant to
§ 1.106 of the Commission’s rules, 47
CFR 1.106, that the Petitions for
Reconsideration of the 1996
Streamlining Order filed by EDS
Corporation (EDS) and GE American
Communications, Inc. (GE Americom)
are dismissed as moot.
It is further ordered, pursuant to
§ 1.106 of the Commission’s rules, 47
CFR 1.106, that the Petition for
Reconsideration of the 1996
Streamlining Order filed by Telquest
Ventures, Inc. (Telquest) is denied.
List of Subjects in 47 CFR Part 25
Satellites.
Federal Communications Commission.
Marlene H. Dortch,
Secretary.
For the reasons discussed in the
preamble, the Federal Communications
Commission amends 47 CFR part 25 as
follows:
■
PART 25—SATELLITE
COMMUNICATIONS
1. The authority citation for part 25
continues to read as follows:
■
angle is the angle in degrees from the
line connecting the focal point of the
antenna to the target satellite, within the
plane perpendicular to the plane
determined by the focal point of the
antenna and the line tangent to the arc
of the geostationary satellite orbit at the
position of the target satellite.
(3) For purposes of the off-axis EIRP
table towards the horizon, the off-axis
angle is the angle in degrees from the
line determined by the intersection of
the horizontal plane and the elevation
plane described in paragraph (h)(2) of
this section, in the horizontal plane. The
horizontal plane is the plane
determined by the focal point of the
antenna and the horizon.
(4) In addition, in an attachment to its
application, the earth station applicant
must certify that it will limit its pointing
error to 0.5°, or demonstrate that it will
comply with the applicable off-axis
EIRP envelopes in § 25.218 of this part
when the antenna is mispointed at its
maximum pointing error.
(i) Any earth station applicant filing
an application for a VSAT network
made up of FSS earth stations and
planning to use a contention protocol
must include in its application a
certification that it will comply with the
requirements of § 25.134(g)(4).
Authority: 47 U.S.C. 701–744. Interprets or
applies Sections 4, 301, 302, 303, 307, 309,
and 332 of the Communications Act, as
amended, 47 U.S.C. Sections 154, 301, 302,
303, 307, 309, and 332, unless otherwise
noted.
■
2. Section 25.115 is amended by
adding paragraphs (h) and (i) to read as
follows:
§ 25.134 Licensing provisions of Very
Small Aperture Terminal (VSAT) and C-band
Small Aperture Terminal (CSAT) networks.
■
§ 25.115 Application for earth station
authorizations.
*
*
*
*
*
(h) Any earth station applicant filing
an application pursuant to § 25.218 of
this chapter must file three tables
showing the off-axis EIRP level of the
proposed earth station antenna of the
plane of the geostationary orbit, the
elevation plane, and towards the
horizon. In each table, the EIRP level
must be provided at increments of 0.1°
for angles between 0° and 10° off-axis,
and at increments of 5° for angles
between 10° and 180° off-axis.
(1) For purposes of the off-axis EIRP
table in the plane of the geostationary
orbit, the off-axis angle is the angle in
degrees from the line connecting the
focal point of the antenna to the target
satellite, within the plane determined
by the focal point of the antenna and the
line tangent to the arc of the
geostationary satellite orbit at the
position of the target satellite.
(2) For purposes of the off-axis EIRP
table in the elevation plane, the off-axis
PO 00000
Frm 00040
Fmt 4700
Sfmt 4700
3. Section 25.134 is amended by
adding paragraph (g)(4) to read as
follows:
*
*
*
*
*
(g) * * *
(4) Any earth station applicant filing
an application to operate a VSAT
network after December 24, 2008 in the
Ku-band and planning to use a
contention protocol must certify that its
contention protocol usage will be
reasonable.
*
*
*
*
*
4. Section 25.138 is amended by
revising paragraph (a)(4) to read as
follows:
■
§ 25.138 Blanket Licensing provisions of
GSO FSS Earth Stations in the 18.3–18.8
GHz (space-to-Earth), 19.7–20.2 GHz (spaceto-Earth), 28.35–28.6 GHz (Earth-to-space),
and 29.25–30.0 GHz (Earth-to-space) bands.
(a) * * *
(4) GSO FSS earth station antenna offaxis EIRP spectral density for crosspolarized signals shall not exceed the
following values, in all directions
relative to the GSO arc, under clear sky
conditions:
E:\FR\FM\24NOR1.SGM
24NOR1
Federal Register / Vol. 73, No. 227 / Monday, November 24, 2008 / Rules and Regulations
8.5–25log(q)–10log(N) .............................
¥12.63–10log(N) ....................................
dBW/40 kHz ...........................................
dBW/40 kHz ...........................................
where q is the angle in degrees from the axis
of the main lobe. For systems where more
than one earth station is expected to transmit
simultaneously in the same bandwidth, e.g.,
CDMA systems, N is the likely maximum
number of simultaneously transmitting cofrequency earth stations in the receive beam
of the satellite. N=1 for TDMA and FDMA
systems.
*
*
*
*
*
29–25log10q .............................................
8 ...............................................................
32–25log10q .............................................
¥10 .........................................................
dBi
dBi
dBi
dBi
where q is the angle in degrees from the axis
of the main lobe, and dBi refers to dB relative
to an isotropic radiator. For the purposes of
this section, the peak gain of an individual
sidelobe may not exceed the envelope
defined above for q between 1.5 and 7.0
29–25log10q .............................................
8 ...............................................................
32–25log10q .............................................
¥10 .........................................................
0 ...............................................................
dBi
dBi
dBi
dBi
dBi
(3) In all other directions, or in the
plane of the horizon including any outof-plane potential terrestrial interference
32–25log10q .............................................
¥10 .........................................................
mstockstill on PROD1PC66 with RULES
32–25log10q .............................................
¥10 .........................................................
0 ...............................................................
VerDate Aug<31>2005
19:21 Nov 21, 2008
Jkt 217001
§ 25.209
Antenna performance standards.
2.0° < q ≤ 7.0°
7.0° < q ≤ 9.23°
station in the fixed-satellite service shall
lie below the envelope defined below:
(1) In the plane of the geostationary
satellite orbit as it appears at the
particular earth station location, for
earth stations not operating in the Kaband or conventional Ku-band:
(a) The gain of any antenna to be
employed in transmission from an earth
..........................................................
..........................................................
..........................................................
..........................................................
For
For
For
For
..........................................................
..........................................................
..........................................................
..........................................................
degrees. For q greater than 7.0 degrees, the
envelope may be exceeded by no more than
10% of the sidelobes, provided no individual
sidelobe exceeds the gain envelope given
above by more than 3 dB.
..........................................................
..........................................................
..........................................................
..........................................................
..........................................................
For
For
For
For
For
(4) In all other directions, or in the
plane of the horizon including any outof-plane potential terrestrial interference
dBi ..........................................................
dBi ..........................................................
PO 00000
Frm 00041
Fmt 4700
Sfmt 4700
3° < q ≤ 48°
48° < q ≤ 180°
paths, for all earth stations operating in
the Ka-band or conventional Ku-band:
Outside the main beam, the gain of
the antenna shall lie below the envelope
defined by:
For ..........................................................
For ..........................................................
For ..........................................................
(5) Elliptical earth station antennas
may be operated only when the major
axis of the antenna is aligned with the
plane of the geostationary satellite orbit
as it appears at the particular earth
station location.
(b) The off-axis cross-polarization gain
of any antenna to be employed in
1.5° ≤ q ≤ 7°
7° < q ≤ 9.2°
9.2° < q ≤ 48°
48° < q ≤ 85°
85° < q ≤ 180°
Outside the main beam, the gain of
the antenna shall lie below the envelope
defined by:
For ..........................................................
For ..........................................................
reflector spillover energy is to be interpreted
as a single lobe and shall not exceed the
envelope by more than 6 dB.
1.5° ≤ q ≤ 7°
7° < q ≤ 9.2°
9.2° < q ≤ 48°
48° < q ≤ 180°
(2) In the plane of the geostationary
satellite orbit as it appears at the
particular earth station location, for
earth stations operating in the Ka-band
or conventional Ku-band:
..........................................................
..........................................................
..........................................................
..........................................................
..........................................................
paths, for all earth stations not operating
in the Ka-band or conventional Kuband:
dBi ..........................................................
dBi ..........................................................
dBi ..........................................................
where q and dBi are defined above. For the
purposes of this section, the envelope may be
exceeded by no more than 10% of the
sidelobes provided no individual sidelobe
exceeds the gain envelope given above by
more than 6 dB. The region of the main
reflector spillover energy is to be interpreted
as a single lobe and shall not exceed the
envelope by more than 6 dB.
19–25log10q .............................................
¥2 ...........................................................
5. Section 25.209 is amended by
revising paragraphs (a), (b), and (c)(1),
removing and reserving paragraph (d),
revising paragraph (f), and removing
and reserving paragraph (g), to read as
follows:
■
dBi ..........................................................
dBi ..........................................................
where q and dBi are defined above. For the
purposes of this section, the envelope may be
exceeded by no more than 10% of the
sidelobes provided no individual sidelobe
exceeds the gain envelope given above by
more than 6 dB. The region of the main
For ..........................................................
For ..........................................................
70901
3° < q ≤ 48°
48° < q ≤ 85°
85° < q ≤ 180°
transmission from an earth station to a
space station in the domestic fixedsatellite service shall be defined as
follows:
(1) In the plane of the geostationary
satellite orbit as it appears at the
particular earth station location:
For ..........................................................
For ..........................................................
E:\FR\FM\24NOR1.SGM
24NOR1
1.8° < q ≤ 7°
7° < q ≤ 9.2°
70902
Federal Register / Vol. 73, No. 227 / Monday, November 24, 2008 / Rules and Regulations
where q is the angle in degrees from the axis
of the main lobe, and dBi refers to dB relative
to an isotropic radiator.
19–25log10q .............................................
¥2 ...........................................................
dBi ..........................................................
dBi ..........................................................
where q and dBi are defined above.
(c)(1) Earth station antennas licensed
for reception of radio transmissions
from a space station in the fixed-satellite
service are protected from radio
interference caused by other space
stations only to the degree to which
harmful interference would not be
expected to be caused to an earth station
employing an antenna conforming to the
referenced patterns defined in
paragraphs (a) and
(b) of this section, and protected from
radio interference caused by terrestrial
radio transmitters identified by the
frequency coordination process only to
the degree to which harmful
interference would not be expected to
be caused to an earth station conforming
to the reference pattern defined in
paragraphs (a)(3) and (a)(4) of this
section.
*
*
*
*
*
(f) An earth station with an antenna
not conforming to the standards of
paragraphs (a) and (b) of this section
will be authorized only if the applicant
meets its burden of demonstrating that
its antenna will not cause unacceptable
interference. For ESVs in the C-band,
this demonstration must comply with
the procedures set forth in § 25.221. For
ESVs in the Ku-band, this
demonstration must comply with the
procedures set forth in § 25.222. For
feeder-link earth stations in the 17/24
29.5–25log10q ..........................................
8.5 ............................................................
32.5–25log10q ..........................................
¥9.5 ........................................................
mstockstill on PROD1PC66 with RULES
19:21 Nov 21, 2008
Jkt 217001
§ 25.212 Narrowband analog
transmissions, digital transmissions, and
video transmissions in the GSO FixedSatellite Service.
*
*
*
*
*
(c) In the 14.0 through 14.5 GHz band,
an earth station with an antenna
equivalent diameter of 1.2 meters or
greater may be routinely licensed for
transmission of narrowband analog
services with bandwidths up to 200 kHz
if the maximum input power spectral
density into the antenna does not
exceed ¥8 dBW/4 kHz and the
maximum transmitted satellite carrier
EIRP density does not exceed 17 dBW/
4 kHz. Such earth stations may be
routinely licensed for transmission of
narrowband and/or wideband digital
services, including digital video
services, if the maximum input spectral
power density into the antenna does not
exceed ¥14 dBW/4 kHz, and the
.............................................
.............................................
.............................................
.............................................
For
For
For
For
PO 00000
Frm 00042
Fmt 4700
Sfmt 4700
§ 25.218 Off-axis EIRP envelopes for FSS
earth station operations.
(a) This section applies to all earth
station applications, except for:
(1) ESV applications,
(2) Analog video earth station
applications,
(3) Applications for feeder-link earth
stations in the 17/24 GHz BSS.
(b) Earth station applications subject
to this section are eligible for routine
processing if they meet the applicable
off-axis EIRP envelope set forth in this
section below. For purposes of this
section, the term ‘‘extended Ku-band’’ is
the 10.7 through 11.7 GHz, 12.75
through 13.25 GHz, and 13.75 through
14.0 GHz band. The term ‘‘conventional
Ku-band’’ is defined in § 25.201 of this
chapter.
(c) C-band analog earth station
operations. (1) In the plane of the
geostationary satellite orbit as it appears
at the particular earth station location:
1.5° ≤ q ≤ 7°
7° < q ≤ 9.2°
9.2° < q ≤ 48°
48° < q ≤ 180°
exceeds the envelope given above by more
than 3 dB.
(2) In all other directions, or in the
plane of the horizon including any outof-plane potential terrestrial interference
paths:
For ..........................................................
For ..........................................................
geostationary satellite orbit at the position of
the target satellite. For the purposes of this
section, the envelope may be exceeded by no
more than 10% of the sidelobes provided no
individual sidelobe exceeds the envelope
given above by more than 6 dB. The region
3° < q ≤ 7°
7° < q ≤ 9.2°
maximum transmitted satellite carrier
EIRP density does not exceed +10.0
dBW/4 kHz. Antennas transmitting in
the 14.0 through 14.5 GHz band with a
major and/or minor axis smaller than
1.2 meters are subject to the provisions
of § 25.220, which may include power
reduction requirements.
*
*
*
*
*
■ 7. Section 25.218 is added to read as
follows:
..........................................................
..........................................................
..........................................................
..........................................................
section, the peak EIRP of an individual
sidelobe may not exceed the envelope
defined above for q between 1.5° and 7.0°.
For q greater than 7.0°, the envelope may be
exceeded by no more than 10% of the
sidelobes, provided no individual sidelobe
dBW/4 kHz .............................................
dBW/4 kHz .............................................
where q is the angle in degrees from the line
connecting the focal point of the antenna to
the target satellite, within any plane that
includes that line, with the exception of the
plane determined by the focal point of the
antenna and the line tangent to the arc of the
VerDate Aug<31>2005
6. Section 25.212 is amended by
revising paragraph (c) to read as follows:
■
kHz
kHz
kHz
kHz
of-plane potential terrestrial interference
paths:
For ..........................................................
For ..........................................................
GHz BSS, this demonstration must
comply with the procedures set forth in
§ 25.223. For other FSS earth stations,
this demonstration must comply with
the procedures set forth in §§ 25.218 or
25.220. In any case, the Commission
will impose appropriate terms and
conditions in its authorization of such
facilities and operations.
*
*
*
*
*
dBW/4
dBW/4
dBW/4
dBW/4
where q is the angle in degrees from the line
connecting the focal point of the antenna to
the target satellite, and the geostationary orbit
plane is determined by the focal point of the
antenna and the line tangent to the arc of the
geostationary satellite orbit at the position of
the target satellite. For the purposes of this
32.5–25log10q ..........................................
¥9.5 ........................................................
(2) In all other directions, or in the
plane of the horizon including any out-
3° ≤ q ≤ 48°
48° < q ≤ 180°
of the main reflector spillover energy is to be
interpreted as a single lobe and shall not
exceed the envelope by more than 6 dB.
(d) C-band digital earth station
operations. (1) In the plane of the
E:\FR\FM\24NOR1.SGM
24NOR1
Federal Register / Vol. 73, No. 227 / Monday, November 24, 2008 / Rules and Regulations
70903
geostationary satellite orbit as it appears
at the particular earth station location:
26.3–10log10(N)–25log10q .......................
5.3–10log10(N) .........................................
29.3 –10log10(N)–25log10q ......................
¥12.7–10log10(N) ...................................
dBW/4
dBW/4
dBW/4
dBW/4
where q and the plane of the geostationary
satellite orbit are defined in paragraph (c)(1)
of this section, and N is defined below. For
the purposes of this section, the peak EIRP
of an individual sidelobe may not exceed the
envelope defined above for q between 1.5°
and 7.0°. For q greater than 7.0°, the envelope
may be exceeded by no more than 10% of the
29.3–10log10(N)–25log10q .......................
¥12.7–10log10(N) ...................................
mstockstill on PROD1PC66 with RULES
15–10log10(N)–25log10q ..........................
¥6–10log10(N) ........................................
18–10log10(N)–25log10q ..........................
¥24–10log10(N) ......................................
¥14–10log10(N) ......................................
18–10log10(N)–25log10q ..........................
¥24–10log10(N) ......................................
VerDate Aug<31>2005
19:21 Nov 21, 2008
Jkt 217001
kHz
kHz
kHz
kHz
kHz
.............................................
.............................................
.............................................
.............................................
.............................................
For
For
For
For
For
kHz
kHz
kHz
kHz
kHz
.............................................
.............................................
.............................................
.............................................
.............................................
For
For
For
For
For
PO 00000
Frm 00043
Fmt 4700
Sfmt 4700
3° ≤ q ≤ 48°
48° < q ≤ 180°
(e) Conventional Ku-band analog
earth station operations. (1) In the plane
of the geostationary satellite orbit as it
appears at the particular earth station
location:
1.5° ≤ q ≤ 7°
7° < q ≤ 9.2°
9.2° < q ≤ 48°
48° < q ≤ 85°
85° < q ≤ 180°
(2) In all other directions, or in the
plane of the horizon including any outof-plane potential terrestrial interference
paths:
For ..........................................................
For ..........................................................
For ..........................................................
3° ≤ q ≤ 48°
48° < q ≤ 85°
85° < q ≤ 180°
(f) Conventional Ku-band digital earth
station operations. (1) In the plane of
the geostationary satellite orbit as it
appears at the particular earth station
location:
..........................................................
..........................................................
..........................................................
..........................................................
..........................................................
sidelobes, provided no individual sidelobe
exceeds the envelope given above by more
than 3 dB. For digital SCPC using frequency
division multiple access (FDMA) or time
division multiple access (TDMA) technique,
N is equal to one. For digital SCPC using
code division multiple access (CDMA)
technique, N is the maximum number of co-
dBW/4 kHz .............................................
dBW/4 kHz .............................................
(2) In all other directions, or in the
plane of the horizon including any outof-plane potential terrestrial interference
paths:
..........................................................
..........................................................
..........................................................
..........................................................
..........................................................
more than 6 dB. The region of the main
reflector spillover energy is to be interpreted
as a single lobe and shall not exceed the
envelope by more than 6 dB.
1.5° ≤ q ≤ 7°
7° < q ≤ 9.2°
9.2° < q ≤ 48°
48° < q ≤ 180°
frequency simultaneously transmitting earth
stations in the same satellite receiving beam.
For ..........................................................
For ..........................................................
between 1.5° and 7.0°. For q greater than 7.0°,
the envelope may be exceeded by no more
than 10% of the sidelobes, provided no
individual sidelobe exceeds the envelope
given above by more than 3 dB.
dBW/4
dBW/4
dBW/4
dBW/4
dBW/4
where q and the plane of the geostationary
satellite orbit are defined in paragraph (c)(1)
of this section, and N is defined below. For
the purposes of this section, the peak EIRP
of an individual sidelobe may not exceed the
envelope defined above for q between 1.5°
and 7.0°. For q greater than 7.0°, the envelope
may be exceeded by no more than 10% of the
..........................................................
..........................................................
..........................................................
..........................................................
individual sidelobe exceeds the envelope
given above by more than 6 dB. The region
of the main reflector spillover energy is to be
interpreted as a single lobe and shall not
exceed the envelope by more than 6 dB.
dBW/4 kHz .............................................
dBW/4 kHz .............................................
dBW/4 kHz .............................................
where q is defined in paragraph (c)(2) of this
section. For the purposes of this section, the
envelope may be exceeded by no more than
10% of the sidelobes provided no individual
sidelobe exceeds the envelope given above by
For
For
For
For
sidelobes, provided no individual sidelobe
exceeds the envelope given above by more
than 3 dB. For digital SCPC using frequency
division multiple access (FDMA) or time
division multiple access (TDMA) technique,
N is equal to one. For digital SCPC using
code division multiple access (CDMA)
technique, N is the maximum number of co-
dBW/4
dBW/4
dBW/4
dBW/4
dBW/4
where q and the plane of the geostationary
satellite are defined in paragraph (c)(1) of this
section. For the purposes of this section, the
peak EIRP of an individual sidelobe may not
exceed the envelope defined above for q
24–25log10q .............................................
¥18 .........................................................
¥8 ...........................................................
.............................................
.............................................
.............................................
.............................................
dBW/4 kHz .............................................
dBW/4 kHz .............................................
where q is defined in paragraph (c)(2) of this
section, and N is defined in paragraph (d)(1)
of this section. For the purposes of this
section, the envelope may be exceeded by no
more than 10% of the sidelobes provided no
21–25log10q .............................................
0 ...............................................................
24–25log10q .............................................
¥18 .........................................................
¥8 ...........................................................
kHz
kHz
kHz
kHz
1.5° ≤ q ≤ 7°
7° < q ≤ 9.2°
9.2° < q ≤ 48°
48° < q ≤ 85°
85° < q ≤ 180°
frequency simultaneously transmitting earth
stations in the same satellite receiving beam.
(2) In all other directions, or in the
plane of the horizon including any outof-plane potential terrestrial interference
paths:
For ..........................................................
For ..........................................................
E:\FR\FM\24NOR1.SGM
24NOR1
3° ≤ q ≤ 48°
48° < q ≤ 85°
70904
Federal Register / Vol. 73, No. 227 / Monday, November 24, 2008 / Rules and Regulations
¥14–10log10(N) ......................................
dBW/4 kHz .............................................
where q is defined in paragraph (c)(2) of this
section, and N is defined in paragraph (f)(1)
of this section. For the purposes of this
section, the envelope may be exceeded by no
more than 10% of the sidelobes provided no
21–25log10q .............................................
0 ...............................................................
24–25log10q .............................................
¥18 .........................................................
24–25log10q .............................................
¥18 .........................................................
8. Section 25.220 is amended by
revising paragraphs (a) and (d), and
removing and reserving paragraphs (c),
(e), and (f), to read as follows:
mstockstill on PROD1PC66 with RULES
■
§ 25.220 Non-conforming transmit/receive
earth station operations.
VerDate Aug<31>2005
19:21 Nov 21, 2008
Jkt 217001
For
For
For
For
kHz
kHz
kHz
kHz
.............................................
.............................................
.............................................
.............................................
PO 00000
Frm 00044
Fmt 4700
Sfmt 4700
1.5° ≤ q ≤ 7°
7° < q ≤ 9.2°
9.2° < q ≤ 48°
48° < q ≤ 180°
frequency simultaneously transmitting earth
stations in the same satellite receiving beam.
(2) In all other directions, or in the
plane of the horizon including any outof-plane potential terrestrial interference
paths:
For ..........................................................
For ..........................................................
applications and 17/24 GHz BSS feeder
link applications, in which the
proposed earth station operations do not
fall within the applicable off-axis EIRP
envelope specified in Section 25.218 of
this chapter.
(2) The requirements for petitions to
deny applications filed pursuant to this
section are set forth in § 25.154.
*
*
*
*
*
(d)(1) The applicant must submit the
certifications listed in paragraphs
(d)(1)(i) through (d)(1)(iv) of this
section. The applicant will be
authorized to transmit only to the
satellite systems included in the
coordination agreements referred to in
the certification required by paragraph
3° ≤ q ≤ 48°
48° < q ≤ 180°
(h) Extended Ku-band digital earth
station operations. (1) In the plane of
the geostationary satellite orbit as it
appears at the particular earth station
location:
..........................................................
..........................................................
..........................................................
..........................................................
sidelobes, provided no individual sidelobe
exceeds the envelope given above by more
than 3 dB. For digital SCPC using frequency
division multiple access (FDMA) or time
division multiple access (TDMA) technique,
N is equal to one. For digital SCPC using
code division multiple access (CDMA)
technique, N is the maximum number of co-
1.5° ≤ q ≤ 7°
7° < q ≤ 9.2°
9.2° < q ≤ 48°
48° < q ≤ 180°
(2) In all other directions, or in the
plane of the horizon including any outof-plane potential terrestrial interference
paths:
For ..........................................................
For ..........................................................
For
For
For
For
85° < q ≤ 180°
(g) Extended Ku-band analog earth
station operations. (1) In the plane of
the geostationary satellite orbit as it
appears at the particular earth station
location:
..........................................................
..........................................................
..........................................................
..........................................................
more than 6 dB. The region of the main
reflector spillover energy is to be interpreted
as a single lobe and shall not exceed the
envelope by more than 6 dB.
dBW/4 kHz .............................................
dBW/4 kHz .............................................
where q is defined in paragraph (c)(2) of this
section and N is defined in paragraph (h)(1)
of this section. For the purposes of this
section, the envelope may be exceeded by no
more than 10% of the sidelobes provided no
individual sidelobe exceeds the envelope
given above by more than 6 dB. The region
of the main reflector spillover energy is to be
interpreted as a single lobe and shall not
exceed the envelope by more than 6 dB.
(a)(1) This section applies to earth
station applications, other than ESV
.............................................
.............................................
.............................................
.............................................
For q greater than 7.0°, the envelope may be
exceeded by no more than 10% of the
sidelobes, provided no individual sidelobe
exceeds the envelope given above by more
than 3 dB.
dBW/4
dBW/4
dBW/4
dBW/4
where q and the plane of the geostationary
satellite orbit are defined in paragraph (c)(1)
of this section, and N is defined below. For
the purposes of this section, the peak EIRP
of an individual sidelobe may not exceed the
envelope defined above for q between 1.5°
and 7.0°. For q greater than 7.0°, the envelope
may be exceeded by no more than 10% of the
18–10log10(N)–25log10q ..........................
¥24–10log10(N) ......................................
kHz
kHz
kHz
kHz
dBW/4 kHz .............................................
dBW/4 kHz .............................................
where q is defined in paragraph (c)(2) of this
section. For the purposes of this section, the
envelope may be exceeded by no more than
10% of the sidelobes provided no individual
sidelobe exceeds the envelope given above by
15–10log10(N)–25log10q ..........................
¥6–10log10(N) ........................................
18–10log10(N)–25log10q ..........................
¥24–10log10(N) ......................................
individual sidelobe exceeds the envelope
given above by more than 6 dB. The region
of the main reflector spillover energy is to be
interpreted as a single lobe and shall not
exceed the envelope by more than 6 dB.
dBW/4
dBW/4
dBW/4
dBW/4
where q and the plane of the geostationary
satellite orbit are defined in paragraph (c)(1)
of this section. For the purposes of this
section, the peak EIRP of an individual
sidelobe may not exceed the envelope
defined above for q between 1.5° and 7.0°.
For ..........................................................
3° ≤ q ≤ 48°
48° < q ≤ 85°
(d)(1)(ii) of this section. The applicant
will be granted protection from
receiving interference only with respect
to the satellite systems included in the
coordination agreements referred to in
the certification required by paragraph
(d)(1)(ii) of this section, and only to the
extent that protection from receiving
interference is afforded by those
coordination agreements.
(i) A statement from the satellite
operator acknowledging that the
proposed operation of the subject nonconforming earth station with its
satellite(s) has the potential to receive
interference from adjacent satellite
networks that may be unacceptable.
E:\FR\FM\24NOR1.SGM
24NOR1
mstockstill on PROD1PC66 with RULES
Federal Register / Vol. 73, No. 227 / Monday, November 24, 2008 / Rules and Regulations
(ii) A statement from the satellite
operator that it has coordinated the
operation of the subject non-conforming
earth station accessing its satellite(s),
including its required downlink power
density based on the information
contained in the application, with all
adjacent satellite networks within 6° of
orbital separation from its satellite(s),
and the operations will operate in
conformance with existing coordination
agreement for its satellite(s) with other
satellite systems, except as set forth in
paragraph (d)(4) of this section.
(iii) A statement from the satellite
operator that it will include the subject
non-conforming earth station operations
in all future satellite network
coordinations, and
(iv) A statement from the earth station
applicant certifying that it will comply
with all coordination agreements
reached by the satellite operator(s).
(2) A license granted pursuant to
paragraph (d)(1) of this section will
include, as a condition on that license,
that if a good faith agreement cannot be
reached between the satellite operator
and the operator of a future 2°
compliant satellite, the earth station
operator shall accept the power density
levels that would accommodate the 2°
compliant satellite.
(3) In the event that a coordination
agreement discussed in paragraph
(d)(1)(ii) of this section is reached, but
that coordination agreement does not
address protection from interference for
the earth station, that earth station will
be protected from interference to the
same extent that an earth station that
meets the requirements of § 25.209 of
this title would be protected from
interference.
(4) Notwithstanding paragraph
(d)(1)(ii) of this section, a party applying
for an earth station license pursuant to
this section will not be required to
certify that its target satellite operator
has reached a coordination agreement
with another satellite operator whose
satellite is within 6° of orbital
separation from its satellite in cases
where the off-axis EIRP density level of
the proposed earth station operations
will be less than or equal to the levels
specified by the applicable off-axis EIRP
envelope set forth in § 25.218 of this
chapter in the direction of the part of
the geostationary orbit arc within 1° of
the nominal orbit location of the
adjacent satellite.
*
*
*
*
*
[FR Doc. E8–27769 Filed 11–21–08; 8:45 am]
BILLING CODE 6712–01–P
VerDate Aug<31>2005
19:21 Nov 21, 2008
Jkt 217001
FEDERAL COMMUNICATIONS
COMMISSION
47 CFR Part 64
[CG Docket No. 03–123 and WC Docket No.
05–196; FCC 08–151]
Telecommunications Relay Services
and Speech-to-Speech Services for
Individuals With Hearing and Speech
Disabilities; E911 Requirements for IPEnabled Service Providers
Federal Communications
Commission.
ACTION: Final rule; announcement of
effective date.
AGENCY:
SUMMARY: In this document, the
Commission announces that the Office
of Management and Budget (OMB) has
approved, for a period of three years, the
information collection associated with
the Commission’s Telecommunications
Relay Services and Speech-to-Speech
Services for Individuals with Hearing
and Speech Disabilities; E911
Requirements for IP-Enabled Service
Providers, Report and Order and Further
Notice of Proposed Rulemaking, FCC
08–151 (Report and Order). This notice
is consistent with the Report and Order,
which stated that the Commission
would publish a document in the
Federal Register announcing the
effective date of the rules.
DATES: 47 CFR 64.605(a) and (b), and
64.611(a), (b), (c) and (f), published at 73
FR 41286, July 18, 2008, are effective
November 24, 2008.
FOR FURTHER INFORMATION CONTACT:
Heather Hendrickson, Competition
Policy Division, Wireline Competition
Bureau, at (202) 418–7295.
SUPPLEMENTARY INFORMATION: This
document announces that, on November
14, 2008, OMB approved, for a period of
three years, the information collection
requirements contained in the
Commission’s Report and Order, FCC
08–151, published at 73 FR 41286, July
18, 2008. The OMB Control Number is
3060–1089. The Commission publishes
this notice as an announcement of the
effective date of the rules. If you have
any comments on the burden estimates
listed below, or how the Commission
can improve the collections and reduce
any burdens caused thereby, please
contact Cathy Williams, Federal
Communications Commission, Room 1–
C823, 445 12th Street, SW., Washington,
DC 20554. Please include the OMB
Control Number, 3060–1089, in your
correspondence. The Commission will
also accept your comments via the
Internet if you send them to
PRA@fcc.gov.
PO 00000
Frm 00045
Fmt 4700
Sfmt 4700
70905
To request materials in accessible
formats for people with disabilities
(Braille, large print, electronic files,
audio format), send an e-mail to
fcc504@fcc.gov or call the Consumer &
Governmental Affairs Bureau at (202)
418–0530 (voice), (202) 418–0432
(TTY).
Synopsis
As required by the Paperwork
Reduction Act of 1995 (44 U.S.C. 3507),
the FCC is notifying the public that it
received OMB approval on November
14, 2008, for the information collection
requirements contained in the
Commission’s rules at 47 CFR 64.605(a)
and (b), and 47 CFR 64.611(a), (b), (c)
and (f). The OMB Control Number is
3060–1089. The total annual reporting
burden for respondents for these
collections of information, including the
time for gathering and maintaining the
collection of information, is estimated to
be: 11 respondents, 1,680,044 responses,
total annual burden hours of 98,616
hours, and $4,224,346 in total annual
costs.
Under 5 CFR part 1320, an agency
may not conduct or sponsor a collection
of information unless it displays a
current, valid OMB Control Number.
No person shall be subject to any
penalty for failing to comply with a
collection of information subject to the
Paperwork Reduction Act, which does
not display a current, valid OMB
Control Number.
The foregoing notice is required by
the Paperwork Reduction Act of 1995,
Public Law 104–13, October 1, 1995,
and 44 U.S.C. 3507.
Federal Communications Commission.
Marlene H. Dortch,
Secretary.
[FR Doc. E8–27854 Filed 11–21–08; 8:45 am]
BILLING CODE 6712–01–P
DEPARTMENT OF DEFENSE
Defense Acquisition Regulations
System
48 CFR Parts 201, 202, 213, and 215
Defense Federal Acquisition
Regulation Supplement; Technical
Amendments
Defense Acquisition
Regulations System, Department of
Defense (DoD).
ACTION: Final rule.
AGENCY:
SUMMARY: DoD is making technical
amendments to the Defense Federal
Acquisition Regulation Supplement
E:\FR\FM\24NOR1.SGM
24NOR1
]]>Agencies
[Federal Register Volume 73, Number 227 (Monday, November 24, 2008)]
[Rules and Regulations]
[Pages 70897-70905]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E8-27769]
=======================================================================
-----------------------------------------------------------------------
FEDERAL COMMUNICATIONS COMMISSION
47 CFR Part 25
[IB Docket No. 00-248; CC Docket No. 95-117; FCC 08-246]
Satellite Licensing Procedures
AGENCY: Federal Communications Commission.
ACTION: Final rule.
-----------------------------------------------------------------------
SUMMARY: In this document, the Commission adopts new procedures for
non-routine earth station applications, and adopts a reasonableness
standard for contention protocol usage. These actions are necessary to
expedite the licensing of earth stations often used to provide
satellite-based broadband Internet access services.
DATES: Effective December 24, 2008, except for the amendments to
Sec. Sec. 25.115, 25.134, 25.218, and 25.220, which contain
information requirements that have not been approved by OMB. The
Federal Communications Commission will publish a document in the
Federal Register announcing the effective date for these rules once OMB
approval has been received for the information collection requirements.
FOR FURTHER INFORMATION CONTACT: Steven Spaeth, International Bureau,
telephone (202) 418-1539 or via the Internet at steven.spaeth@fcc.gov.
SUPPLEMENTARY INFORMATION: This summary of the Commission's Eighth
Report and Order, IB Docket No. 00-248, and Order on Reconsideration,
CC Docket No. 95-117, FCC 08-246, adopted October 10, 2008, and
released October 17, 2008. The complete text of this Eighth Report and
Order and Order on Reconsideration is available for inspection and
copying during normal business hours in the FCC Reference Center
(Room), 445 12th Street, SW., Washington, DC 20554, and also may be
purchased from the Commission's copy contractor, Best Copy and
Printing, Inc., Portals II, 445 12th Street, SW., Room CY-B402,
Washington, DC 20554. It is also available on the Commission's Web site
at https://www.fcc.gov.
Paperwork Reduction Act Analysis: The actions taken in the Eighth
Report and Order have been analyzed with respect to the Paperwork
Reduction Act of 1995 (PRA), Public Law 104-13 (44 U.S.C. 3501-3520),
and found to impose new and modified requirements. Implementation of
these new and modified requirements will be subject to approval by the
Office of Management and Budget (OMB) as prescribed by the PRA, and
will go into effect upon announcement in the Federal Register of OMB
approval. The Commission will publish a separate notice in the Federal
Register inviting comment on the new and revised information collection
requirements contained in this document. In addition, pursuant to the
Small Business Paperwork Relief Act of 2002, Public Law 107-198, 44
U.S.C. 3506(c)(4), we will also seek specific comment on how the
Commission might ``further reduce the information collection burden for
small business concerns with fewer than 25 employees.''
Regulatory Flexibility Analysis
As required by the Regulatory Flexibility Act of 1980, as amended
(RFA), an Initial Regulatory Flexibility Analysis (IRFA) was
incorporated in the Third Further Notice of Proposed Rulemaking (Third
Further Notice) in IB Docket No. 00-248, 70 FR 33426 (June 8, 2005).
The Commission sought written public comment on the proposals in the
Third Further Notice, including comment on the IRFA. This Final
Regulatory Flexibility Analysis (FRFA) conforms to the RFA.\1\
---------------------------------------------------------------------------
\1\ See 5 U.S.C. 604.
---------------------------------------------------------------------------
A. Need for, and Objectives of, the Report and Order
The Telecommunications Act of 1996 requires the Commission in every
even-numbered year beginning in 1998 to review all regulations that
apply to the operations or activities of any provider of
telecommunications service and to determine whether any such regulation
is no longer necessary in the public interest due to meaningful
economic competition. Our objective is to repeal or modify any rules in
part 25 that are no longer necessary in the public interest, as
required by section 11 of the Communications Act of 1934, as amended.
We codify streamlined procedures that allow for routine treatment
of applications for earth stations that will comply with an off-axis
EIRP envelope.
B. Summary of Significant Issues Raised by Public Comments in Response
to the IRFA
No comments were submitted directly in response to the IRFA in the
Third Further Notice.
C. Description and Estimate of the Number of Small Entities to Which
Rules Will Apply
The RFA directs agencies to provide a description of, and, where
feasible, an estimate of, the number of small entities that may be
affected by the rules adopted herein.\2\ The RFA generally defines the
term ``small entity'' as having the same meaning as the terms ``small
business,'' ``small organization,'' and ``small governmental
jurisdiction.'' \3\ In addition, the term ``small business'' has the
same meaning as the term ``small business concern'' under the Small
Business Act.\4\ A small business concern is one which: (1) Is
independently owned and operated; (2) is not dominant in its field of
operation; and (3) satisfies any additional criteria established by the
Small Business Administration (SBA).\5\
---------------------------------------------------------------------------
\2\ 5 U.S.C. 604(a)(3).
\3\ 5 U.S.C. 601(6).
\4\ 5 U.S.C. 601(3) (incorporating by reference the definition
of ``small business concern'' in 15 U.S.C. 632). Pursuant to the
RFA, the statutory definition of a small business applies ``unless
an agency, after consultation with the Office of Advocacy of the
Small Business Administration and after opportunity for public
comment, establishes one or more definitions of such term which are
appropriate to the activities of the agency and publishes such
definition(s) in the Federal Register.'' 5 U.S.C. 601(3).
\5\ 15 U.S.C. 632.
---------------------------------------------------------------------------
1. Cable Services. The SBA has developed a small business size
[[Page 70898]]
standard for Cable and Other Program Distribution, which consists of
all such firms having $12.5 million or less in annual receipts.\6\
According to Census Bureau data for 1997, in this category there was a
total of 1,311 firms that operated for the entire year.\7\ Of this
total, 1,180 firms had annual receipts of under $10 million, and an
additional fifty-two firms had receipts of $10 million to
$24,999,999.\8\ Thus, under this size standard, the majority of firms
can be considered small.
---------------------------------------------------------------------------
\6\ 13 CFR 121.201, NAICS code 517510.
\7\ U.S. Census Bureau, 1997 Economic Census, Subject Series:
Information, ``Establishment and Firm Size (Including Legal Form of
Organization),'' Table 4, NAICS code 513220 (issued October 2000).
\8\ Id.
---------------------------------------------------------------------------
The Commission has developed its own small business size standard
for a small cable operator for the purposes of rate regulation. Under
the Commission's rules, a ``small cable company'' is one serving fewer
than 400,000 subscribers nationwide.\9\ Based on our most recent
information, we estimate that there were 1,439 cable operators that
qualified as small cable companies at the end of 1995.\10\ Since then,
some of those companies may have grown to serve over 400,000
subscribers, and others may have been involved in transactions that
caused them to be combined with other cable operators. Consequently, we
estimate that there are fewer than 1,439 small cable companies that may
be affected by the proposed rules.
---------------------------------------------------------------------------
\9\ 47 CFR 76.901(e). The Commission developed this definition
based on its determinations that a small cable company is one with
annual revenues of $100 million or less. See Implementation of
Sections of the Cable Television Consumer Protection and Competition
Act of 1992: Rate Regulation, MM Doc. Nos. 92-266 and 93-215, Sixth
Report and Order and Eleventh Order on Reconsideration, 10 FCC Rcd
7393, 7408-7409 (paras. 28-30) (1995).
\10\ Paul Kagan Assocs., Inc., Cable TV Investor, Feb. 29, 1996
(based on figures for Dec. 30, 1995).
---------------------------------------------------------------------------
The Communications Act of 1934, as amended, also contains a size
standard for a ``small cable operator,'' which is ``a cable operator
that, directly or through an affiliate, serves in the aggregate fewer
than one percent of all subscribers in the United States and is not
affiliated with any entity or entities whose gross annual revenues in
the aggregate exceed $250,000,000.'' \11\ The Commission has determined
that there are 67,700,000 subscribers in the United States.\12\
Therefore, an operator serving fewer than 677,000 subscribers shall be
deemed a small operator, if its annual revenues, when combined with the
total annual revenues of all of its affiliates, do not exceed $250
million in the aggregate.\13\ Based on available data, we estimate that
the number of cable operators serving 677,000 subscribers or less
totals approximately 1,450.\14\ We do not request or collect
information on whether cable operators are affiliated with entities
whose gross annual revenues exceed $250,000,000,\15\ and therefore are
unable to estimate accurately the number of cable system operators that
would qualify as small cable operators under the definition in the
Communications Act.
---------------------------------------------------------------------------
\11\ 47 U.S.C. 543(m)(2).
\12\ See FCC Announces New Subscriber Count for the Definition
of Small Cable Operator, Public Notice, 16 FCC Rcd 2225 (2001).
\13\ 47 CFR 76.1403(b).
\14\ See FCC Announces New Subscriber Count for the Definition
of Small Cable Operator, Public Notice, 16 FCC Rcd 2225 (2001).
\15\ We do receive such information on a case-by-case basis only
if a cable operator appeals a local franchise authority's finding
that the operator does not qualify as a small cable operator
pursuant to section 76.901(f) of the Commission's rules. See 47 CFR
76.990(b).
---------------------------------------------------------------------------
2. Satellite Telecommunications. The rules proposed in the Third
Further Notice would affect providers of satellite telecommunications
services, if adopted. Satellite telecommunications service providers
include satellite operators and earth station operators. The Commission
has not developed a definition of small entities applicable to
satellite operators. Therefore, the applicable definition of small
entity is generally the definition under the SBA rules applicable to
Satellite Telecommunications.\16\ This definition provides that a small
entity is expressed as one with $12.5 million or less in annual
receipts.\17\ 1997 Census Bureau data indicate that, for 1997, 273
satellite communication firms had annual receipts of under $10 million.
In addition, 24 firms had receipts for that year of $10 million to
$24,999,990.\18\
---------------------------------------------------------------------------
\16\ ``This industry comprises establishments primarily engaged
in providing point-to-point telecommunications services to other
establishments in the telecommunications and broadcasting industries
by forwarding and receiving communications signals via a system of
satellites or reselling satellite telecommunications.'' Small
Business Administration, NAICS code 517310.
\17\ 13 CFR 120.121, NAICS code 517310.
\18\ U.S. Census Bureau, 1997 Economic Census, Subject Service:
Information, ``Establishment and Firm Size,'' Table 4, NAICS 513340
(Issued Oct. 2000).
---------------------------------------------------------------------------
3. Auxiliary, Special Broadcast and other program distribution
services. This service involves a variety of transmitters, generally
used to relay broadcast programming to the public (through translator
and booster stations) or within the program distribution chain (from a
remote news gathering unit back to the station). The Commission has not
developed a definition of small entities applicable to broadcast
auxiliary licensees. Therefore, the applicable definition of small
entity is the definition under the Small Business Administration (SBA)
rules applicable to radio broadcasting stations,\19\ and television
broadcasting stations.\20\ These definitions provide that a small
entity is one with either $6.0 million or less in annual receipts for a
radio broadcasting station or $12.0 million in annual receipts for a TV
station.\21\ There are currently 3,237 FM translators and boosters,
4913 TV translators.\22\ The FCC does not collect financial information
on any broadcast facility and the Department of Commerce does not
collect financial information on these auxiliary broadcast facilities.
We believe, however, that most, if not all, of these auxiliary
facilities could be classified as small businesses by themselves. We
also recognize that most translators and boosters are owned by a parent
station which, in some cases, would be covered by the revenue
definition of small business entity discussed above. These stations
would likely have annual revenues that exceed the SBA maximum to be
designated as a small business (as noted, either $6.0 million for a
radio station or $12.0 million for a TV station). Furthermore, they do
not meet the Small Business Act's definition of a ``small business
concern'' because they are not independently owned and operated.
---------------------------------------------------------------------------
\19\ 13 CFR 121.201, NAICS code 515112.
\20\ 13 CFR 121.201, NAICS code 515120.
\21\ 13 CFR 121.201.
\22\ FCC News Release, Broadcast Station Totals as of September
30, 1999, No. 71831 (Jan. 21, 1999).
---------------------------------------------------------------------------
4. Microwave Services. Microwave services include common
carrier,\23\ private-operational fixed,\24\ and broadcast auxiliary
radio services.\25\ At present, there are approximately 22,015 common
carrier fixed licensees and 61,670 private operational-fixed licensees
and broadcast auxiliary radio licensees in the microwave services. The
Commission has not yet defined a small business with respect to
[[Page 70899]]
microwave services. For purposes of this FRFA, we will use the SBA's
definition applicable to cellular and other wireless communications
companies--i.e., an entity with no more than 1,500 persons.\26\ We
estimate that all of the Fixed Microwave licensees (excluding broadcast
auxiliary licensees) would qualify as small entities under the SBA
definition for radiotelephone (wireless) companies.
---------------------------------------------------------------------------
\23\ See 47 CFR 101 et seq. (formerly, part 21 of the
Commission's Rules).
\24\ Persons eligible under parts 80 and 90 of the Commission's
rules can use Private Operational-Fixed Microwave services. See 47
CFR parts 80 and 90. Stations in this service are called
operational-fixed to distinguish them from common carrier and public
fixed stations. Only the licensee may use the operational-fixed
station, and only for communications related to the licensee's
commercial, industrial, or safety operations.
\25\ Auxiliary Microwave Service is governed by part 74 of Title
47 of the Commission's Rules. See 47 CFR part 74 et seq. Available
to licensees of broadcast stations and to broadcast and cable
network entities, broadcast auxiliary microwave stations are used
for relaying broadcast television signals from the studio to the
transmitter, or between two points such as a main studio and an
auxiliary studio. The service also includes mobile TV pickups, which
relay signals from a remote location back to the studio.
\26\ See 13 CFR 121.201, NAICS code 517212.
---------------------------------------------------------------------------
D. Description of Projected Reporting, Recordkeeping, and Other
Compliance Requirements
The rules adopted in the Eighth Report and Order are not intended
to increase the reporting, recordkeeping and other compliance
requirements of any licensee, and we do not anticipate any differential
treatment to be received by larger and smaller entities. The reporting
requirements associated with the off-axis EIRP envelope method for
reviewing earth station applications are the same as the reporting
requirements associated with one of the earth station application
procedures adopted in the Fifth Report and Order in IB Docket No. 00-
248, 70 FR 32249 (June 2, 2005). These requirements will not affect
small businesses differently from other non-routine earth station
applicants.
E. Steps Taken to Minimize Significant Economic Impact on Small
Entities, and Significant Alternatives Considered
The RFA requires an agency to describe any significant alternatives
that it has considered in reaching its proposed approach, which may
include the following four alternatives: (1) The establishment of
differing compliance or reporting requirements or timetables that take
into account the resources available to small entities; (2) the
clarification, consolidation, or simplification of compliance or
reporting requirements under the rule for small entities; (3) the use
of performance, rather than design, standards; and (4) an exemption
from coverage of the rule, or any part thereof, for small entities.\27\
---------------------------------------------------------------------------
\27\ 5 U.S.C. 603(c)(1)-(c)(4).
---------------------------------------------------------------------------
In this Eighth Report and Order, the Commission considers and
rejects a proposal to require analog video earth station operators to
comply with an off-axis EIRP envelope. Commenters persuasively argued
that such a requirement would have been burdensome for all analog video
earth station operators, including small business analog video earth
station operators.
F. Report to Congress
The Commission will send a copy of the Eighth Report and Order,
including this FRFA, in a report to be sent to Congress and the
Government Accountability Office pursuant to the Congressional Review
Act, see 5 U.S.C. 801(a)(1)(A). In addition, the Commission will send a
copy of the Eighth Report and Order, including FRFA, to the Chief
Counsel for Advocacy of the Small Business Administration. A copy of
the Eighth Report and Order and FRFA (or summaries thereof) will also
be published in the Federal Register. See 5 U.S.C. 604(b).
Summary of Report and Order
The Eighth Report and Order adopts an off-axis equivalent
isotropically radiated power (EIRP) approach for licensing non-routine
FSS earth stations, thus giving earth station operators greater
flexibility to make technical adjustments and request routine
application processing. Part 25 specifies technical requirements for
``routine'' FSS earth station applications. ``Routine'' applications
are those that can be granted without a detailed engineering review.
There are many non-routine earth stations that can be licensed without
increasing the risk of harmful interference, but determining whether a
particular non-routine earth station can be licensed requires a
detailed engineering review. Licensing non-routine earth stations is
important because they are often used to provide broadband Internet
access.
The off-axis EIRP approach is based on a limit on the EIRP of side
lobes. Decreasing the diameter of an earth station antenna increases
the side lobes. Increasing the power into an earth station antenna also
increases the side lobes. Thus, an earth station operator could
compensate for a high power level by increasing its antenna diameter,
or vice versa. An off-axis EIRP rule would make it easier for earth
station license applicants to make these trade-offs, and to obtain
Commission authorizations on a more expedited basis.
The Eighth Report and Order also adopts rules based on a study on
contention protocols submitted by a commenter in this proceeding. This
contention protocol issue is related to very small aperture terminal
(VSAT) networks. VSAT networks are generally comprised of a hub station
transmitting to a satellite, which then transmits the signal to
multiple remote earth stations, or vice versa. VSAT networks use a
number of different techniques, or protocols, to prevent or limit
interference among the multiple remote earth stations, and to prevent
them from interfering with other adjacent satellite networks.
Sometimes, the remotes are assigned different frequencies, or transmit
times. This is known as Frequency Division Multiple Access (FDMA), and
Time Division Multiple Access (TDMA). Other protocols are referred to
as ``contention protocols.'' Under this approach, the VSAT system
operator allows simultaneous transmissions to interfere with each
other, but uses statistical techniques to keep the intra-VSAT network
interference to a minimum.
Simultaneous transmissions in contention protocol usage are called
``collisions.'' Collisions result in power levels in excess of the
levels allowed by the Commission's rules, although for no more than
tens of milliseconds. Originally, the Commission assumed that the power
levels during ``collisions'' could increase the likelihood of harmful
interference. Therefore, the Commission has requested comment on a
number of proposals over the course of this proceeding to limit various
aspects of contention protocol usage to reduce the probability and
duration of collisions. However, the record in this proceeding includes
a technical study that convincingly shows contention protocol usage
decreases the likelihood of harmful interference in most areas of the
country, and the increases in other areas are de minimis. Based on this
study, the Eighth Report and Order decides not to adopt any of the
contention protocol proposals considered previously in this proceeding.
Instead, contention protocol users are required to be ``reasonable,''
which is defined as not increasing the likelihood of harmful
interference any more than the sample VSAT networks modeled in the
study discussed in the Eighth Report and Order.
In addition, the Eighth Report and Order considers and rejects a
proposal to revise procedures for licensing earth stations in the Quiet
Zone. The ``Quiet Zone'' is a 13,000 square mile area in Virginia, West
Virginia, and Maryland, created to protect radio astronomy. The current
procedure, in place since 1958, requires the Commission to notify the
National Radio Astronomy Observatory (NRAO) when it receives an
application for an earth station in the Quiet Zone. In an earlier phase
of this proceeding, NRAO proposed replacing the traditional
notification procedure with a coordination procedure. The Eighth Report
and Order does not adopt NRAO's proposal, because the current
notification requirement has been in place since 1958, and nothing in
the
[[Page 70900]]
record suggests that it has not been sufficient.
Finally, the Commission considers several miscellaneous issues
raised in petitions for reconsideration of the Fifth Report and Order
in IB Docket No. 00-248, 70 FR 32249 (June 2, 2005), the Sixth Report
and Order in IB Docket No. 00-248, 70 FR 33373 (June 8, 2005), and the
1996 Streamlining Order, 62 FR 5924 (Feb. 10, 1997). Based on those
petitions for reconsideration, the Commission clarified, among other
things, that non-routine earth stations need not be afforded more
protection from interference than a routine earth station would. The
Commission also clarified the satellites with whom a target satellite
operator must coordinate prior to the time a non-routine earth station
operator communicating with that target satellite operator plans to
begin operations. All other issues raised in these petitions for
reconsideration were dismissed as moot, denied because they were
outside the scope of the proceeding, or denied because the Commission
had considered and rejected the petitioner's proposal in a previous
Order.
Ordering Clauses
Accordingly, it is ordered, pursuant to sections 4(i), 7(a),
303(c), 303(f), 303(g), and 303(r) of the Communications Act of 1934,
as amended, 47 U.S.C. 154(i), 157(a), 303(c), 303(f), 303(g), 303(r),
that this Eighth Report and Order in IB Docket No. 00-248 is hereby
adopted.
It is further ordered that part 25 of the Commission's rules is
amended as set forth below. An announcement of the effective date of
these rule revisions will be published in the Federal Register.
It is further ordered that the Consumer and Governmental Affairs
Bureau, Reference Information Center, shall send a copy of this Order,
including the Final Regulatory Flexibility Certification, to the Chief
Counsel for Advocacy of the Small Business Administration.
It is further ordered, pursuant to Sec. 1.106 of the Commission's
rules, 47 CFR 1.106, that the Petition for Reconsideration of the Fifth
Report and Order filed by the Satellite Industry Association (SIA) is
granted in part and denied in part.
It is further ordered, pursuant to Sec. 1.106 of the Commission's
rules, 47 CFR 1.106, that the Petition for Reconsideration of the Sixth
Report and Order filed by SIA is Granted.
It is further ordered, pursuant to Sec. 1.106 of the Commission's
rules, 47 CFR 1.106, that the Petition for Reconsideration of the Sixth
Report and Order filed by Boeing is dismissed as moot.
It is further ordered, pursuant to Sec. 1.106 of the Commission's
rules, 47 CFR 1.106, that the Petitions for Reconsideration of the 1996
Streamlining Order filed by EDS Corporation (EDS) and GE American
Communications, Inc. (GE Americom) are dismissed as moot.
It is further ordered, pursuant to Sec. 1.106 of the Commission's
rules, 47 CFR 1.106, that the Petition for Reconsideration of the 1996
Streamlining Order filed by Telquest Ventures, Inc. (Telquest) is
denied.
List of Subjects in 47 CFR Part 25
Satellites.
Federal Communications Commission.
Marlene H. Dortch,
Secretary.
0
For the reasons discussed in the preamble, the Federal Communications
Commission amends 47 CFR part 25 as follows:
PART 25--SATELLITE COMMUNICATIONS
0
1. The authority citation for part 25 continues to read as follows:
Authority: 47 U.S.C. 701-744. Interprets or applies Sections 4,
301, 302, 303, 307, 309, and 332 of the Communications Act, as
amended, 47 U.S.C. Sections 154, 301, 302, 303, 307, 309, and 332,
unless otherwise noted.
0
2. Section 25.115 is amended by adding paragraphs (h) and (i) to read
as follows:
Sec. 25.115 Application for earth station authorizations.
* * * * *
(h) Any earth station applicant filing an application pursuant to
Sec. 25.218 of this chapter must file three tables showing the off-
axis EIRP level of the proposed earth station antenna of the plane of
the geostationary orbit, the elevation plane, and towards the horizon.
In each table, the EIRP level must be provided at increments of
0.1[deg] for angles between 0[deg] and 10[deg] off-axis, and at
increments of 5[deg] for angles between 10[deg] and 180[deg] off-axis.
(1) For purposes of the off-axis EIRP table in the plane of the
geostationary orbit, the off-axis angle is the angle in degrees from
the line connecting the focal point of the antenna to the target
satellite, within the plane determined by the focal point of the
antenna and the line tangent to the arc of the geostationary satellite
orbit at the position of the target satellite.
(2) For purposes of the off-axis EIRP table in the elevation plane,
the off-axis angle is the angle in degrees from the line connecting the
focal point of the antenna to the target satellite, within the plane
perpendicular to the plane determined by the focal point of the antenna
and the line tangent to the arc of the geostationary satellite orbit at
the position of the target satellite.
(3) For purposes of the off-axis EIRP table towards the horizon,
the off-axis angle is the angle in degrees from the line determined by
the intersection of the horizontal plane and the elevation plane
described in paragraph (h)(2) of this section, in the horizontal plane.
The horizontal plane is the plane determined by the focal point of the
antenna and the horizon.
(4) In addition, in an attachment to its application, the earth
station applicant must certify that it will limit its pointing error to
0.5[deg], or demonstrate that it will comply with the applicable off-
axis EIRP envelopes in Sec. 25.218 of this part when the antenna is
mispointed at its maximum pointing error.
(i) Any earth station applicant filing an application for a VSAT
network made up of FSS earth stations and planning to use a contention
protocol must include in its application a certification that it will
comply with the requirements of Sec. 25.134(g)(4).
0
3. Section 25.134 is amended by adding paragraph (g)(4) to read as
follows:
Sec. 25.134 Licensing provisions of Very Small Aperture Terminal
(VSAT) and C-band Small Aperture Terminal (CSAT) networks.
* * * * *
(g) * * *
(4) Any earth station applicant filing an application to operate a
VSAT network after December 24, 2008 in the Ku-band and planning to use
a contention protocol must certify that its contention protocol usage
will be reasonable.
* * * * *
0
4. Section 25.138 is amended by revising paragraph (a)(4) to read as
follows:
Sec. 25.138 Blanket Licensing provisions of GSO FSS Earth Stations in
the 18.3-18.8 GHz (space-to-Earth), 19.7-20.2 GHz (space-to-Earth),
28.35-28.6 GHz (Earth-to-space), and 29.25-30.0 GHz (Earth-to-space)
bands.
(a) * * *
(4) GSO FSS earth station antenna off-axis EIRP spectral density
for cross-polarized signals shall not exceed the following values, in
all directions relative to the GSO arc, under clear sky conditions:
[[Page 70901]]
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
8.5-25log([thetas])-10log(N)....... dBW/40 kHz............ For................... 2.0[deg] < [thetas] <=
7.0[deg]
-12.63-10log(N).................... dBW/40 kHz............ For................... 7.0[deg] < [thetas] <=
9.23[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] is the angle in degrees from the axis of the main
lobe. For systems where more than one earth station is expected to
transmit simultaneously in the same bandwidth, e.g., CDMA systems, N
is the likely maximum number of simultaneously transmitting co-
frequency earth stations in the receive beam of the satellite. N=1
for TDMA and FDMA systems.
* * * * *
0
5. Section 25.209 is amended by revising paragraphs (a), (b), and
(c)(1), removing and reserving paragraph (d), revising paragraph (f),
and removing and reserving paragraph (g), to read as follows:
Sec. 25.209 Antenna performance standards.
(a) The gain of any antenna to be employed in transmission from an
earth station in the fixed-satellite service shall lie below the
envelope defined below:
(1) In the plane of the geostationary satellite orbit as it appears
at the particular earth station location, for earth stations not
operating in the Ka-band or conventional Ku-band:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
29-25log10[thetas]................. dBi................... For................... 1.5[deg] <= [thetas] <=
7[deg]
8.................................. dBi................... For................... 7[deg] < [thetas] <=
9.2[deg]
32-25log10[thetas]................. dBi................... For................... 9.2[deg] < [thetas] <=
48[deg]
-10................................ dBi................... For................... 48[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] is the angle in degrees from the axis of the main
lobe, and dBi refers to dB relative to an isotropic radiator. For
the purposes of this section, the peak gain of an individual
sidelobe may not exceed the envelope defined above for [thetas]
between 1.5 and 7.0 degrees. For [thetas] greater than 7.0 degrees,
the envelope may be exceeded by no more than 10% of the sidelobes,
provided no individual sidelobe exceeds the gain envelope given
above by more than 3 dB.
(2) In the plane of the geostationary satellite orbit as it appears
at the particular earth station location, for earth stations operating
in the Ka-band or conventional Ku-band:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
29-25log10[thetas]................. dBi................... For................... 1.5[deg] <= [thetas] <=
7[deg]
8.................................. dBi................... For................... 7[deg] < [thetas] <=
9.2[deg]
32-25log10[thetas]................. dBi................... For................... 9.2[deg] < [thetas] <=
48[deg]
-10................................ dBi................... For................... 48[deg] < [thetas] <=
85[deg]
0.................................. dBi................... For................... 85[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
(3) In all other directions, or in the plane of the horizon
including any out-of-plane potential terrestrial interference paths,
for all earth stations not operating in the Ka-band or conventional Ku-
band:
Outside the main beam, the gain of the antenna shall lie below the
envelope defined by:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
32-25log10[thetas]................. dBi................... For................... 3[deg] < [thetas] <=
48[deg]
-10................................ dBi................... For................... 48[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] and dBi are defined above. For the purposes of this
section, the envelope may be exceeded by no more than 10% of the
sidelobes provided no individual sidelobe exceeds the gain envelope
given above by more than 6 dB. The region of the main reflector
spillover energy is to be interpreted as a single lobe and shall not
exceed the envelope by more than 6 dB.
(4) In all other directions, or in the plane of the horizon
including any out-of-plane potential terrestrial interference paths,
for all earth stations operating in the Ka-band or conventional Ku-
band:
Outside the main beam, the gain of the antenna shall lie below the
envelope defined by:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
32-25log10[thetas]................. dBi................... For................... 3[deg] < [thetas] <=
48[deg]
-10................................ dBi................... For................... 48[deg] < [thetas] <=
85[deg]
0.................................. dBi................... For................... 85[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] and dBi are defined above. For the purposes of this
section, the envelope may be exceeded by no more than 10% of the
sidelobes provided no individual sidelobe exceeds the gain envelope
given above by more than 6 dB. The region of the main reflector
spillover energy is to be interpreted as a single lobe and shall not
exceed the envelope by more than 6 dB.
(5) Elliptical earth station antennas may be operated only when the
major axis of the antenna is aligned with the plane of the
geostationary satellite orbit as it appears at the particular earth
station location.
(b) The off-axis cross-polarization gain of any antenna to be
employed in transmission from an earth station to a space station in
the domestic fixed-satellite service shall be defined as follows:
(1) In the plane of the geostationary satellite orbit as it appears
at the particular earth station location:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
19-25log10[thetas]................. dBi................... For................... 1.8[deg] < [thetas] <=
7[deg]
-2................................. dBi................... For................... 7[deg] < [thetas] <=
9.2[deg]
----------------------------------------------------------------------------------------------------------------
[[Page 70902]]
where [thetas] is the angle in degrees from the axis of the main
lobe, and dBi refers to dB relative to an isotropic radiator.
(2) In all other directions, or in the plane of the horizon
including any out-of-plane potential terrestrial interference paths:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
19-25log10[thetas]................. dBi................... For................... 3[deg] < [thetas] <= 7[deg]
-2................................. dBi................... For................... 7[deg] < [thetas] <=
9.2[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] and dBi are defined above.
(c)(1) Earth station antennas licensed for reception of radio
transmissions from a space station in the fixed-satellite service are
protected from radio interference caused by other space stations only
to the degree to which harmful interference would not be expected to be
caused to an earth station employing an antenna conforming to the
referenced patterns defined in paragraphs (a) and
(b) of this section, and protected from radio interference caused
by terrestrial radio transmitters identified by the frequency
coordination process only to the degree to which harmful interference
would not be expected to be caused to an earth station conforming to
the reference pattern defined in paragraphs (a)(3) and (a)(4) of this
section.
* * * * *
(f) An earth station with an antenna not conforming to the
standards of paragraphs (a) and (b) of this section will be authorized
only if the applicant meets its burden of demonstrating that its
antenna will not cause unacceptable interference. For ESVs in the C-
band, this demonstration must comply with the procedures set forth in
Sec. 25.221. For ESVs in the Ku-band, this demonstration must comply
with the procedures set forth in Sec. 25.222. For feeder-link earth
stations in the 17/24 GHz BSS, this demonstration must comply with the
procedures set forth in Sec. 25.223. For other FSS earth stations,
this demonstration must comply with the procedures set forth in
Sec. Sec. 25.218 or 25.220. In any case, the Commission will impose
appropriate terms and conditions in its authorization of such
facilities and operations.
* * * * *
0
6. Section 25.212 is amended by revising paragraph (c) to read as
follows:
Sec. 25.212 Narrowband analog transmissions, digital transmissions,
and video transmissions in the GSO Fixed-Satellite Service.
* * * * *
(c) In the 14.0 through 14.5 GHz band, an earth station with an
antenna equivalent diameter of 1.2 meters or greater may be routinely
licensed for transmission of narrowband analog services with bandwidths
up to 200 kHz if the maximum input power spectral density into the
antenna does not exceed -8 dBW/4 kHz and the maximum transmitted
satellite carrier EIRP density does not exceed 17 dBW/4 kHz. Such earth
stations may be routinely licensed for transmission of narrowband and/
or wideband digital services, including digital video services, if the
maximum input spectral power density into the antenna does not exceed -
14 dBW/4 kHz, and the maximum transmitted satellite carrier EIRP
density does not exceed +10.0 dBW/4 kHz. Antennas transmitting in the
14.0 through 14.5 GHz band with a major and/or minor axis smaller than
1.2 meters are subject to the provisions of Sec. 25.220, which may
include power reduction requirements.
* * * * *
0
7. Section 25.218 is added to read as follows:
Sec. 25.218 Off-axis EIRP envelopes for FSS earth station operations.
(a) This section applies to all earth station applications, except
for:
(1) ESV applications,
(2) Analog video earth station applications,
(3) Applications for feeder-link earth stations in the 17/24 GHz
BSS.
(b) Earth station applications subject to this section are eligible
for routine processing if they meet the applicable off-axis EIRP
envelope set forth in this section below. For purposes of this section,
the term ``extended Ku-band'' is the 10.7 through 11.7 GHz, 12.75
through 13.25 GHz, and 13.75 through 14.0 GHz band. The term
``conventional Ku-band'' is defined in Sec. 25.201 of this chapter.
(c) C-band analog earth station operations. (1) In the plane of the
geostationary satellite orbit as it appears at the particular earth
station location:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
29.5-25log10[thetas]............... dBW/4 kHz............. For................... 1.5[deg] <= [thetas] <=
7[deg]
8.5................................ dBW/4 kHz............. For................... 7[deg] < [thetas] <=
9.2[deg]
32.5-25log10[thetas]............... dBW/4 kHz............. For................... 9.2[deg] < [thetas] <=
48[deg]
-9.5............................... dBW/4 kHz............. For................... 48[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] is the angle in degrees from the line connecting the
focal point of the antenna to the target satellite, and the
geostationary orbit plane is determined by the focal point of the
antenna and the line tangent to the arc of the geostationary
satellite orbit at the position of the target satellite. For the
purposes of this section, the peak EIRP of an individual sidelobe
may not exceed the envelope defined above for [thetas] between
1.5[deg] and 7.0[deg]. For [thetas] greater than 7.0[deg], the
envelope may be exceeded by no more than 10% of the sidelobes,
provided no individual sidelobe exceeds the envelope given above by
more than 3 dB.
(2) In all other directions, or in the plane of the horizon
including any out-of-plane potential terrestrial interference paths:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
32.5-25log10[thetas]............... dBW/4 kHz............. For................... 3[deg] <= [thetas] <=
48[deg]
-9.5............................... dBW/4 kHz............. For................... 48[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] is the angle in degrees from the line connecting the
focal point of the antenna to the target satellite, within any plane
that includes that line, with the exception of the plane determined
by the focal point of the antenna and the line tangent to the arc of
the geostationary satellite orbit at the position of the target
satellite. For the purposes of this section, the envelope may be
exceeded by no more than 10% of the sidelobes provided no individual
sidelobe exceeds the envelope given above by more than 6 dB. The
region of the main reflector spillover energy is to be interpreted
as a single lobe and shall not exceed the envelope by more than 6
dB.
(d) C-band digital earth station operations. (1) In the plane of
the
[[Page 70903]]
geostationary satellite orbit as it appears at the particular earth
station location:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
26.3-10log10(N)-25log10[thetas].... dBW/4 kHz............. For................... 1.5[deg] <= [thetas] <=
7[deg]
5.3-10log10(N)..................... dBW/4 kHz............. For................... 7[deg] < [thetas] <=
9.2[deg]
29.3 -10log10(N)-25log10[thetas]... dBW/4 kHz............. For................... 9.2[deg] < [thetas] <=
48[deg]
-12.7-10log10(N)................... dBW/4 kHz............. For................... 48[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] and the plane of the geostationary satellite orbit
are defined in paragraph (c)(1) of this section, and N is defined
below. For the purposes of this section, the peak EIRP of an
individual sidelobe may not exceed the envelope defined above for
[thetas] between 1.5[deg] and 7.0[deg]. For [thetas] greater than
7.0[deg], the envelope may be exceeded by no more than 10% of the
sidelobes, provided no individual sidelobe exceeds the envelope
given above by more than 3 dB. For digital SCPC using frequency
division multiple access (FDMA) or time division multiple access
(TDMA) technique, N is equal to one. For digital SCPC using code
division multiple access (CDMA) technique, N is the maximum number
of co-frequency simultaneously transmitting earth stations in the
same satellite receiving beam.
(2) In all other directions, or in the plane of the horizon
including any out-of-plane potential terrestrial interference paths:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
29.3-10log10(N)-25log10[thetas].... dBW/4 kHz............. For................... 3[deg] <= [thetas] <=
48[deg]
-12.7-10log10(N)................... dBW/4 kHz............. For................... 48[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] is defined in paragraph (c)(2) of this section, and N
is defined in paragraph (d)(1) of this section. For the purposes of
this section, the envelope may be exceeded by no more than 10% of
the sidelobes provided no individual sidelobe exceeds the envelope
given above by more than 6 dB. The region of the main reflector
spillover energy is to be interpreted as a single lobe and shall not
exceed the envelope by more than 6 dB.
(e) Conventional Ku-band analog earth station operations. (1) In
the plane of the geostationary satellite orbit as it appears at the
particular earth station location:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
21-25log10[thetas]................. dBW/4 kHz............. For................... 1.5[deg] <= [thetas] <=
7[deg]
0.................................. dBW/4 kHz............. For................... 7[deg] < [thetas] <=
9.2[deg]
24-25log10[thetas]................. dBW/4 kHz............. For................... 9.2[deg] < [thetas] <=
48[deg]
-18................................ dBW/4 kHz............. For................... 48[deg] < [thetas] <=
85[deg]
-8................................. dBW/4 kHz............. For................... 85[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] and the plane of the geostationary satellite are
defined in paragraph (c)(1) of this section. For the purposes of
this section, the peak EIRP of an individual sidelobe may not exceed
the envelope defined above for [thetas] between 1.5[deg] and
7.0[deg]. For [thetas] greater than 7.0[deg], the envelope may be
exceeded by no more than 10% of the sidelobes, provided no
individual sidelobe exceeds the envelope given above by more than 3
dB.
(2) In all other directions, or in the plane of the horizon
including any out-of-plane potential terrestrial interference paths:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
24-25log10[thetas]................. dBW/4 kHz............. For................... 3[deg] <= [thetas] <=
48[deg]
-18................................ dBW/4 kHz............. For................... 48[deg] < [thetas] <=
85[deg]
-8................................. dBW/4 kHz............. For................... 85[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] is defined in paragraph (c)(2) of this section. For
the purposes of this section, the envelope may be exceeded by no
more than 10% of the sidelobes provided no individual sidelobe
exceeds the envelope given above by more than 6 dB. The region of
the main reflector spillover energy is to be interpreted as a single
lobe and shall not exceed the envelope by more than 6 dB.
(f) Conventional Ku-band digital earth station operations. (1) In
the plane of the geostationary satellite orbit as it appears at the
particular earth station location:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
15-10log10(N)-25log10[thetas]...... dBW/4 kHz............. For................... 1.5[deg] <= [thetas] <=
7[deg]
-6-10log10(N)...................... dBW/4 kHz............. For................... 7[deg] < [thetas] <=
9.2[deg]
18-10log10(N)-25log10[thetas]...... dBW/4 kHz............. For................... 9.2[deg] < [thetas] <=
48[deg]
-24-10log10(N)..................... dBW/4 kHz............. For................... 48[deg] < [thetas] <=
85[deg]
-14-10log10(N)..................... dBW/4 kHz............. For................... 85[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] and the plane of the geostationary satellite orbit
are defined in paragraph (c)(1) of this section, and N is defined
below. For the purposes of this section, the peak EIRP of an
individual sidelobe may not exceed the envelope defined above for
[thetas] between 1.5[deg] and 7.0[deg]. For [thetas] greater than
7.0[deg], the envelope may be exceeded by no more than 10% of the
sidelobes, provided no individual sidelobe exceeds the envelope
given above by more than 3 dB. For digital SCPC using frequency
division multiple access (FDMA) or time division multiple access
(TDMA) technique, N is equal to one. For digital SCPC using code
division multiple access (CDMA) technique, N is the maximum number
of co-frequency simultaneously transmitting earth stations in the
same satellite receiving beam.
(2) In all other directions, or in the plane of the horizon
including any out-of-plane potential terrestrial interference paths:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
18-10log10(N)-25log10[thetas]...... dBW/4 kHz............. For................... 3[deg] <= [thetas] <=
48[deg]
-24-10log10(N)..................... dBW/4 kHz............. For................... 48[deg] < [thetas] <=
85[deg]
[[Page 70904]]
-14-10log10(N)..................... dBW/4 kHz............. For................... 85[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] is defined in paragraph (c)(2) of this section, and N
is defined in paragraph (f)(1) of this section. For the purposes of
this section, the envelope may be exceeded by no more than 10% of
the sidelobes provided no individual sidelobe exceeds the envelope
given above by more than 6 dB. The region of the main reflector
spillover energy is to be interpreted as a single lobe and shall not
exceed the envelope by more than 6 dB.
(g) Extended Ku-band analog earth station operations. (1) In the
plane of the geostationary satellite orbit as it appears at the
particular earth station location:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
21-25log10[thetas]................. dBW/4 kHz............. For................... 1.5[deg] <= [thetas] <=
7[deg]
0.................................. dBW/4 kHz............. For................... 7[deg] < [thetas] <=
9.2[deg]
24-25log10[thetas]................. dBW/4 kHz............. For................... 9.2[deg] < [thetas] <=
48[deg]
-18................................ dBW/4 kHz............. For................... 48[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] and the plane of the geostationary satellite orbit
are defined in paragraph (c)(1) of this section. For the purposes of
this section, the peak EIRP of an individual sidelobe may not exceed
the envelope defined above for [thetas] between 1.5[deg] and
7.0[deg]. For [thetas] greater than 7.0[deg], the envelope may be
exceeded by no more than 10% of the sidelobes, provided no
individual sidelobe exceeds the envelope given above by more than 3
dB.
(2) In all other directions, or in the plane of the horizon
including any out-of-plane potential terrestrial interference paths:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
24-25log10[thetas]................. dBW/4 kHz............. For................... 3[deg] <= [thetas] <=
48[deg]
-18................................ dBW/4 kHz............. For................... 48[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] is defined in paragraph (c)(2) of this section. For
the purposes of this section, the envelope may be exceeded by no
more than 10% of the sidelobes provided no individual sidelobe
exceeds the envelope given above by more than 6 dB. The region of
the main reflector spillover energy is to be interpreted as a single
lobe and shall not exceed the envelope by more than 6 dB.
(h) Extended Ku-band digital earth station operations. (1) In the
plane of the geostationary satellite orbit as it appears at the
particular earth station location:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
15-10log10(N)-25log10[thetas]...... dBW/4 kHz............. For................... 1.5[deg] <= [thetas] <=
7[deg]
-6-10log10(N)...................... dBW/4 kHz............. For................... 7[deg] < [thetas] <=
9.2[deg]
18-10log10(N)-25log10[thetas]...... dBW/4 kHz............. For................... 9.2[deg] < [thetas] <=
48[deg]
-24-10log10(N)..................... dBW/4 kHz............. For................... 48[deg] < [thetas] <=
180[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] and the plane of the geostationary satellite orbit
are defined in paragraph (c)(1) of this section, and N is defined
below. For the purposes of this section, the peak EIRP of an
individual sidelobe may not exceed the envelope defined above for
[thetas] between 1.5[deg] and 7.0[deg]. For [thetas] greater than
7.0[deg], the envelope may be exceeded by no more than 10% of the
sidelobes, provided no individual sidelobe exceeds the envelope
given above by more than 3 dB. For digital SCPC using frequency
division multiple access (FDMA) or time division multiple access
(TDMA) technique, N is equal to one. For digital SCPC using code
division multiple access (CDMA) technique, N is the maximum number
of co-frequency simultaneously transmitting earth stations in the
same satellite receiving beam.
(2) In all other directions, or in the plane of the horizon
including any out-of-plane potential terrestrial interference paths:
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
18-10log10(N)-25log10[thetas]...... dBW/4 kHz............. For................... 3[deg] <= [thetas] <=
48[deg]
-24-10log10(N)..................... dBW/4 kHz............. For................... 48[deg] < [thetas] <=
85[deg]
----------------------------------------------------------------------------------------------------------------
where [thetas] is defined in paragraph (c)(2) of this section and N
is defined in paragraph (h)(1) of this section. For the purposes of
this section, the envelope may be exceeded by no more than 10% of
the sidelobes provided no individual sidelobe exceeds the
