Vivint Wireless, Inc.

1759-EX-ST-2017

Status: Granted

WM9XEE
2018-01-22

Documents and Communications: [refresh]

DescriptionCategoryDate
Grant E-mail Notification generated [Jan 22 2018]Correspondence2018-01-22
PUBLIC Narrative ExhibitText Documents2018-01-03
PUBLIC Technical ExhibitText Documents2018-01-03
CONFIDENTIAL Narrative ExhibitText Documents2018-01-03
CONFIDENTIAL Technical ExhibitText Documents2018-01-03
Request for Confidential TreatmentText Documents2018-01-03
Application Form:
OET Special Temporary Authority Report
FEDERAL COMMUNICATIONS COMMISSION
APPLICATION FOR SPECIAL TEMPORARY AUTHORITY

Applicant Name
Name of Applicant:  Vivint Wireless, Inc.

Address
Attention: Mr. Jason Hruban
Street Address: 4931 North 300 West
P.O. Box:
City: Provo
State: UT
Zip Code: 84604
Country: United States
E-Mail Address: [email protected]

Best Contact
Give the following information of person who can best handle inquiries pertaining to this application:  
Last Name: Bransford
First Name: Timothy
Title: Legal Counsel
Phone Number: 202-373-6140

Explanation
Please explain in the area below why an STA is necessary:
Given unforeseen delays in certification of Spectrum Access System (SAS) and Environmental Sensing Capability (ESC) administrators, Vivint Wireless, Inc. (Vivint) requests STA to perform tests of prototype LTE-enabled 3550-3700 MHz Citizens Broadband Radio Service (CBRS) equipment to evaluate and debug various SAS/ESC capabilities.

Purpose of Operation
Please explain the purpose of operation:  Test of LTE-enabled equipment during the pendency of SAS/ESC administrators for the purposes of confirming device performance and SAS/ESC capabilities.

Information
Callsign: WM9XEE
Class of Station: FX
Nature of Service: Experimental

Requested Period of Operation
Operation Start Date: 01/18/2017
Operation End Date: 06/17/2018

Manufacturer
List below transmitting equipment to be installed (if experimental, so state) if additional rows are required, please submit equipment list as an exhibit:  
Manufacturer Model Number No. Of Units Experimental
Prototype LTE Small Cell 1 1 50 Yes
Prototype LTE Small Cell 2 2 50 Yes
Prototype CPE Outdoor 1 1 200 Yes
Prototype CPE Indoor 1 1 200 Yes
Prototype CPE Outdoor 2 2 200 Yes
Prototype CPE Indoor 2 2 200 Yes

Certification
Neither the applicant nor any other party to the application is subject to a denial of Federal benefits that includes FCC benefits pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C. Section 862, because of a conviction for possession or distribution of a controlled substance. The applicant hereby waives any claim to the use of any particular frequency or electromagnetic spectrum as against the regulatory power of the United States because of the prvious use of the same, whether by license or otherwise, and requests authorization in accordance with this application. (See Section 304 of the Communications Act of 1934, as amended.) The applicant acknowledges that all statements made in this application and attached exhibits are considered material representations, and that all the exhibits part hereof and are incorporated herein as if set out in full in this application; undersigned certifies that all statements in this application are true, complete and correct to the best of his/her knowledge and belief and are made in good faith. Applicant certifies that construction of the station would NOT be an action which is likely to have a significant environmental effect. See the Commission's Rules, 47 CFR1.1301-1.1319.
Signature of Applicant (Authorized person filing form): Jason Hruban
Title of Applicant (if any): Network Planning Manager
Date: 2017-12-07 00:00:00.0

Station Location
City State Latitude Longitude Mobile Radius of Operation
Chandler Arizona North  33  21  6 West  111  51  26 20.00
Datum:  NAD 83
Is a directional antenna (other than radar) used?   No
Exhibit submitted:   No
(a) Width of beam in degrees at the half-power point:  
(b) Orientation in horizontal plane:  
(c) Orientation in vertical plane:  
Will the antenna extend more than 6 meters above the ground, or if mounted on an existing building, will it extend more than 6 meters above the building, or will the proposed antenna be mounted on an existing structure other than a building?   No
(a) Overall height above ground to tip of antenna in meters:  
(b) Elevation of ground at antenna site above mean sea level in meters:  
(c) Distance to nearest aircraft landing area in kilometers:  
(d) List any natural formations of existing man-made structures (hills, trees, water tanks, towers, etc.) which, in the opinion of the applicant, would tend to shield the antenna from aircraft:
Action Frequency Station Class Output Power/ERP Mean Peak Frequency Tolerance (+/-) Emission Designator Modulating Signal
New 3550.00000000-3700.00000000 MHz FX 0.631000 W 3.848000 W P 0.00000500 % 18M5D7D Digital, LTE

City State Latitude Longitude Mobile Radius of Operation
Chandler Arizona North  33  21  6 West  111  51  26 20.00
Datum:  NAD 83
Is a directional antenna (other than radar) used?   Yes
Exhibit submitted:   Yes
(a) Width of beam in degrees at the half-power point:   63.00
(b) Orientation in horizontal plane:  
(c) Orientation in vertical plane:  
Will the antenna extend more than 6 meters above the ground, or if mounted on an existing building, will it extend more than 6 meters above the building, or will the proposed antenna be mounted on an existing structure other than a building?   No
(a) Overall height above ground to tip of antenna in meters:  
(b) Elevation of ground at antenna site above mean sea level in meters:  
(c) Distance to nearest aircraft landing area in kilometers:  
(d) List any natural formations of existing man-made structures (hills, trees, water tanks, towers, etc.) which, in the opinion of the applicant, would tend to shield the antenna from aircraft:
Action Frequency Station Class Output Power/ERP Mean Peak Frequency Tolerance (+/-) Emission Designator Modulating Signal
New 3550.00000000-3700.00000000 MHz FX 0.390000 W 4.750000 W P 0.00001000 % 20M0W7W Digital, LTE

City State Latitude Longitude Mobile Radius of Operation
Chandler Arizona North  33  21  6 West  111  51  26 20.00
Datum:  NAD 83
Is a directional antenna (other than radar) used?   Yes
Exhibit submitted:   Yes
(a) Width of beam in degrees at the half-power point:   90.00
(b) Orientation in horizontal plane:  
(c) Orientation in vertical plane:  
Will the antenna extend more than 6 meters above the ground, or if mounted on an existing building, will it extend more than 6 meters above the building, or will the proposed antenna be mounted on an existing structure other than a building?   No
(a) Overall height above ground to tip of antenna in meters:  
(b) Elevation of ground at antenna site above mean sea level in meters:  
(c) Distance to nearest aircraft landing area in kilometers:  
(d) List any natural formations of existing man-made structures (hills, trees, water tanks, towers, etc.) which, in the opinion of the applicant, would tend to shield the antenna from aircraft:
Action Frequency Station Class Output Power/ERP Mean Peak Frequency Tolerance (+/-) Emission Designator Modulating Signal
New 3550.00000000-3700.00000000 MHz FX 0.500000 W 1.530000 W P 0.00001000 % 20M0W7W Digital, LTE

City State Latitude Longitude Mobile Radius of Operation
Riverton Utah North  40  31  22 West  111  56  15 20.00
Datum:  NAD 83
Is a directional antenna (other than radar) used?   No
Exhibit submitted:   No
(a) Width of beam in degrees at the half-power point:  
(b) Orientation in horizontal plane:  
(c) Orientation in vertical plane:  
Will the antenna extend more than 6 meters above the ground, or if mounted on an existing building, will it extend more than 6 meters above the building, or will the proposed antenna be mounted on an existing structure other than a building?   No
(a) Overall height above ground to tip of antenna in meters:  
(b) Elevation of ground at antenna site above mean sea level in meters:  
(c) Distance to nearest aircraft landing area in kilometers:  
(d) List any natural formations of existing man-made structures (hills, trees, water tanks, towers, etc.) which, in the opinion of the applicant, would tend to shield the antenna from aircraft:
Action Frequency Station Class Output Power/ERP Mean Peak Frequency Tolerance (+/-) Emission Designator Modulating Signal
New 3550.00000000-3700.00000000 MHz FX 0.500000 W 3.050000 W P 0.00001000 % 20M0W7D Digital, LTE

City State Latitude Longitude Mobile Radius of Operation
Riverton Utah North  40  31  22 West  111  56  15 20.00
Datum:  NAD 83
Is a directional antenna (other than radar) used?   Yes
Exhibit submitted:   Yes
(a) Width of beam in degrees at the half-power point:   54.00
(b) Orientation in horizontal plane:  
(c) Orientation in vertical plane:  
Will the antenna extend more than 6 meters above the ground, or if mounted on an existing building, will it extend more than 6 meters above the building, or will the proposed antenna be mounted on an existing structure other than a building?   No
(a) Overall height above ground to tip of antenna in meters:  
(b) Elevation of ground at antenna site above mean sea level in meters:  
(c) Distance to nearest aircraft landing area in kilometers:  
(d) List any natural formations of existing man-made structures (hills, trees, water tanks, towers, etc.) which, in the opinion of the applicant, would tend to shield the antenna from aircraft:
Action Frequency Station Class Output Power/ERP Mean Peak Frequency Tolerance (+/-) Emission Designator Modulating Signal
New 3550.00000000-3700.00000000 MHz FX 0.390000 W 11.920000 W P 0.00001000 % 20M0W7D Digital, LTE

City State Latitude Longitude Mobile Radius of Operation
Riverton Utah North  40  31  22 West  111  56  15 20.00
Datum:  NAD 83
Is a directional antenna (other than radar) used?   No
Exhibit submitted:   No
(a) Width of beam in degrees at the half-power point:  
(b) Orientation in horizontal plane:  
(c) Orientation in vertical plane:  
Will the antenna extend more than 6 meters above the ground, or if mounted on an existing building, will it extend more than 6 meters above the building, or will the proposed antenna be mounted on an existing structure other than a building?   No
(a) Overall height above ground to tip of antenna in meters:  
(b) Elevation of ground at antenna site above mean sea level in meters:  
(c) Distance to nearest aircraft landing area in kilometers:  
(d) List any natural formations of existing man-made structures (hills, trees, water tanks, towers, etc.) which, in the opinion of the applicant, would tend to shield the antenna from aircraft:
Action Frequency Station Class Output Power/ERP Mean Peak Frequency Tolerance (+/-) Emission Designator Modulating Signal
New 3550.00000000-3700.00000000 MHz FX 0.400000 W 1.940000 W P 0.00001000 % 20M0W7D Digital, LTE

41174

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