Attachment SESAMD2013011100035D

SESAMD2013011100035D

DECISION submitted by FCC

DISMISS IN PART DEFER IN PART

2013-03-07

This document pretains to SES-AMD-20130111-00035 for Amended Filing on a Satellite Earth Station filing.

IBFS_SESAMD2013011100035_988745

                              Federal Communications Commission
                                       Washington, D.C. 20554


                                                                                                  DA 13—334




                                                March 7, 2013

  Ms. Anisa A. Latif
  New Cingular Wireless PCS, LLC
   1120 20* Street, NW
  Suite 1000
  Washington, DC 20036


                                                        Call Sign: E120228
                                                        File No.: SES—LIC—20121108—00995
                                                                   SES—AMD—20130111—00035

  Dear Ms. Latif:

  On November 8, 2012, New Cingular Wireless PCS, LLC (New Cingular) filed the above—
  captioned application for a fixed—satellite service VSAT network license to operate several
  models of remote terminals to connect temporary cell sites and mobile switching centers
  throughout the United States. On January 11, 2013, New Cingular filed the above—captioned
  amendment to reduce the requested transmit frequency range from 13.75—14.5 GHz to 14.0—14.5
  GHz. For the reason stated below, we dismiss the portion of New Cingular‘s application that
  proposes to use 1.2—meter Raysat antennas with emission designator 3M00G7ZW, without
  prejudice to refiling.‘

  Section 25.112 of the Commission‘s rules, 47 C.F.R. § 25.112, requires the Commission to
  return, as unacceptable for filing, any application that is not substantially complete, that contains
  internal inconsistencies, or that does not substantially comply with the Commission‘s rules.

  New Cingular states in item E49 of Schedule B that the maximum EIRP density per carrier will
  be 22.9 dBw/4kHz for emission designator 3M00G7W for the 1.2—meter Raysat antennas. Our
  analysis indicates that the proposed input power into the antenna will be —7.10 dBW/4kHz," which
  exceeds the maximum power density of —14dBW/4kHz for routinely authorized earth stations
  specified in Section 25.212(c), 47 C.F.R. § 25.212(c). Consequently, pursuant to Section
  25.212(e), 47 C.F.R. § 25.212(e), the procedures set forth in Section 25.220(d)(1), 47 C.F.R. §
  25.220( d)(1), apply and New Cingular must submit the certifications listed in paragraphs
  25.220(d)(1)(i) through (d)(1)(iv). New Cingular did not provide this documentation, and its
  application is therefore incomplete.

. \ IfNew Cingular refiles an application identical to the one dismissed, with the exception of supplying the
  corrected information, it need not pay an application fee. See 47 C.F.R. § 1.1111(d).
  > The carrier‘s EIRP density listed in item E49 (22.9 dB/4kHz) minus the transmit antenna gain listed in
  item E41 for the 1.2—meter Raysat antenna (30.0 dBi) equals the input power density into the antenna (—7.10
  dBW/4kHz).


                               Federal Communications Commission                   DA 13—XXXX



Accordingly, pursuant to Section 25.112(a)(1)of the Commission‘s rules, 47 C.F.R.
§ 25.112(a)(1), and Section 0.261 of the Commission‘s rules on delegations of authority, 47
C.F.R. § 0.261, we dismiss, without prejudice to refiling, New Cingular‘s application to use
1.2—meter Raysat antennas with emission designator 3MOO0G7W.

                                                         Sincerely,


                                                                . Blais           .
                                                         Chief, Systems Analysis Branch
                                                         Satellite Division
                                                         International Bureau



Document Created: 2013-03-08 10:46:43
Document Modified: 2013-03-08 10:46:43

© 2024 FCC.report
This site is not affiliated with or endorsed by the FCC