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Aerospace Corporation, THE
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0018-EX-ST-2008
Aerospace Corporation, THE
0018-EX-ST-2008
Status: Grant Expired Due to New License
WD9XJB
2008-05-29
Documents and Communications:
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Description
Category
Date
Aerocube3 design
Images
2008-01-10
Aerocube3 on orbit
Images
2008-01-10
AeroCube3 antenna pattern
Images
2008-01-10
Freewave FGRM bandwidth figure
Images
2008-01-10
FAA sketch and antenna figures v2
Images
2008-04-04
AC3 Testbed orbit lifetime
Text Documents
2008-04-18
FCC Code Part 5 subpart 63e
Text Documents
2008-04-18
FAA sketch and antenna figures
Text Documents
2008-01-10
Aerocube3 design
Images
2008-01-10
Aerocube3 on orbit
Images
2008-01-10
AeroCube3 antenna pattern
Images
2008-01-10
Freewave FGRM bandwidth figure
Images
2008-01-10
FAA sketch and antenna figures v2
Images
2008-04-04
AC3 Testbed orbit lifetime
Text Documents
2008-04-18
FCC Code Part 5 subpart 63e
Text Documents
2008-04-18
FAA sketch and antenna figures
Text Documents
2008-01-10
Application Form:
OET Special Temporary Authority Report
FEDERAL COMMUNICATIONS COMMISSION
APPLICATION FOR SPECIAL TEMPORARY AUTHORITY
Applicant Name
Name of Applicant:
Aerospace Corporation, THE
Address
Attention:
David Hinkley (M2-246)
Street Address:
2350 E. El Segundo Blvd
P.O. Box:
City:
El Segundo
State:
CA
Zip Code:
90245
Country:
E-Mail Address:
[email protected]
Best Contact
Give the following information of person who can best handle inquiries pertaining to this application:
Last Name:
Hinkley
First Name:
David
Title:
PICOSAT project manager
Phone Number:
310-336-5211
Explanation
Please explain in the area below why an STA is necessary:
An STA is required due to the non-commercial, unique research-oriented and short-term nature of the operation. The experiment will be conducted over the maximum STA award period for the AeroCube-3 satellite because it has a rechargeable power system.
Purpose of Operation
Please explain the purpose of operation:
Picosat testing THE RF TECHNICAL DETAILS IN THIS GRANT REQUEST ARE IDENTICAL TO THOSE IN THE GRANT 0802-EX-ST-2006. AeroCube-3 test. The purpose of the operation is to conduct research regarding the space application of MEMS components and related microelectronics technologies. The operation includes a demonstration of principles of the physics of the low-earth-orbit space environment and its effects on MEMS microelectronics. The AeroCube-3 is a PICOSAT class satellite, weighs less than 1 KG and is a 10 cm cube (see ?design? Exhibit). It is being launched as part of a 3-Cubesat complement delivered to Orbital Sciences. The launch is on board a Minotaur vehicle from Wallops Island in Virginia, slated for a June 2006 but it may slip. The orbit is 416 Km circular at 41 degrees inclination. Orbital debris analysis is being performed now and will be added as an exhibit in a couple of weeks. AeroCube-3 inflates a drag enhancing balloon that is at least 24 inches in diameter, creating 452 square inches in drag area. This will reduce the lifetime to TBD years (analysis is being done at this time). The AeroCube-3 satellite has a Freewave Technologies, Inc. FGRM radio inside which outputs 2 Watts. We have fixed the frequency (i.e. not hopping or spread spectrum) at 914.7 MHz (see ?bandwidth? Exhibit) so that we can quickly link up with the satellite rather than waiting for the hopping sequence to sync up. (Each radio has its own serial number so only one can be talked to at any given moment). The AeroCube-3 has an omni-directional patch antenna. We have the pattern calculated and tested but use -10dB as the gain for 90% of the sphere area (see ?pattern? Exhibit). When the AeroCube-3 satellite is ejected, it will power-on. However the radio in each satellite will be in receive-mode only. As the satellite flies over a ground station, the station will be continuously beaconing upwards toward the satellite. When the satellite radio hears the beacon, along with the proper serial number code, it will respond and a link will be established. At that point the ground station will ask the satellite for whatever information it wants namely state of health log files or images from the cameras. The satellite will respond by down-loading the requested information. When the link is lost due to the satellite passing out of view, and if it was transmitting at the time, it will try 256 times to complete the last packet transmitted. If each packet is 72 bytes long and the radio data rate is 38.4 Kbaud, then it will try for only a couple of seconds before the 256 attempts are exceeded. At that point it will go back into a passive receive mode again, awaiting the next beacon from a ground station with the correct serial number. We would like to use three ground stations to communicate with the AeroCube-3 satellite. Each antenna has its benefits and detriments. A typical satellite pass is 5 minutes long, twice per day - so the system spends a lot of time not in use. The largest antenna is the 60? diameter dish in Menlo Park, CA, near Stanford University. It has 41 dB gain, 1.5 deg beam width and would use a 2W Freewave FGRM radio on the feed horn. The second is the 16? dish at The Aerospace Corporation in El Segundo, CA, near LAX airport. It has 30 dB gains, 5 deg beam width and also would use a 2W Freewave FGRM radio on the feed horn. The final ground station is a portable 2-meter diameter dish. This has 22 dB gain, 10 deg beam width and would use a Freewave FGRM radio with the output passed through a 9 W amplifier. This portable station we would like to use somewhere that is RF quiet and also advantageously located for maximum satellite coverage. We are thinking Anchorage Alaska would work well or Irwindale California. The Irwindale site is in the floor of a gravel pit so the power out of the antenna is shielded by the walls of the gravel pit from contaminating the surrounding urban area. See ?FAA? Exhibit. Only the Palo Alto antenna will dip below 30 degrees above the horizon because it is the only one with sufficient gain. It could go as low as 10 degrees off the horizon unless the FCC has an issue however its narrow beam width will prevent it from contaminating urban areas. The other antennas will not go below 30 degrees above the horizon as this would increase the satellite link distance to an unacceptable space loss value for them.
Information
Callsign:
WD9XJB
Class of Station:
FX MO
Nature of Service:
Experimental
Requested Period of Operation
Operation Start Date:
09/14/2008
Operation End Date:
03/14/2009
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
Freewave Technologies
FGRM
1
No
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):
David Hinkley
Title of Applicant (if any):
PICOSAT project Manager
Date:
2008-01-10 00:00:00.0
Station Location
City
State
Latitude
Longitude
Mobile
Radius of Operation
Palo Alto
California
North 37 24 11
West 122 10 24
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:
1.50
(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?
Yes
(a) Overall height above ground to tip of antenna in meters:
20.00
(b) Elevation of ground at antenna site above mean sea level in meters:
150.00
(c) Distance to nearest aircraft landing area in kilometers:
10.00
(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:
None
Action
Frequency
Station Class
Output Power/ERP
Mean Peak
Frequency Tolerance (+/-)
Emission Designator
Modulating Signal
New
914.70000000- MHz
FX
2.000000 W 31600.000000 W
P
0.16000000 %
357KF1D
City
State
Latitude
Longitude
Mobile
Radius of Operation
El Segundo
California
North 33 54 52
West 118 22 49
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:
5.00
(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?
Yes
(a) Overall height above ground to tip of antenna in meters:
7.00
(b) Elevation of ground at antenna site above mean sea level in meters:
10.00
(c) Distance to nearest aircraft landing area in kilometers:
3.00
(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:
None
Action
Frequency
Station Class
Output Power/ERP
Mean Peak
Frequency Tolerance (+/-)
Emission Designator
Modulating Signal
New
914.70000000- MHz
FX
2.000000 W 3162.000000 W
P
0.01600000 %
357KF1D
City
State
Latitude
Longitude
Mobile
Radius of Operation
Anchorage
Alaska
North 61 10 0
West 150 1 0
20 miles south of Airport on Seward Highway 1
1.00
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:
15.00
(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
914.70000000- MHz
MO
9.000000 W 1258.000000 W
P
0.01600000 %
357KF1D
City
State
Latitude
Longitude
Mobile
Radius of Operation
Irwindale
California
North 34 6 44
West 117 58 53
Intersection of Buena Vista St and Galen St
1.00
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:
15.00
(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
914.70000000- MHz
MO
9.000000 W 1258.000000 W
P
0.01600000 %
357KF1D
City
State
Latitude
Longitude
Mobile
Radius of Operation
Hawaii
North 20 42 29
West 156 15 26
AEOS (Adv Electro Optical System), Mount Haleakala, Maui, Hawaii
1.00
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:
15.00
(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
914.70000000- MHz
MO
9.000000 W 1258.000000 W
P
0.01600000 %
357KF1D
City
State
Latitude
Longitude
Mobile
Radius of Operation
New Mexico
North 33 45 10
West 106 22 21
North Oscura Peak, White Sands Missile Range, NM
1.00
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:
15.00
(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
914.70000000- MHz
MO
9.000000 W 1258.000000 W
P
0.01600000 %
357KF1D
43635
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