NTIA Additional Fields 1625MHz

1007-EX-CN-2018 Text Documents

Northwest Nazarene University

2019-02-12ELS_223069

NTIA Space record data form

NTIA requires the following data for space related experiments using government shared spectrum. For
each transmit frequency, please provide the data for both ends of the transmit-receive link. Use Part A
to describe the satellite to ground information. Part B is for all ground to space transmit links.

Part A: Space to Earth Downlink Data

Satellite Transmitter Data

Transmit Frequency:
1616.25 MHz
Satellite Name:
RFTSat
Data Field Data Answer Description/Comments
Polarization (XAP) XAP = L POLARIZATIONS INCLUDE :
H = HORIZONTAL,
V = VERTICAL,
S = HORIZONTAL AND VERTICAL,
L = LEFT HAND CIRCULAR,
R = RIGHT HAND CIRCULAR,
T = RIGHT AND LEFT HAND CIRCULAR,
J = LINEAR POLARIZATION
Orientation (XAZ) XAZ = EC NB= NARROWBEAM
EC = EARTH COVERAGE
Antenna ANTENNA GAIN____5______ (NTIA format (XAD), EXAMPLE, XAD01 16G030B)

Dimension (XAD) BEAMWIDTH ______100______
XAD =
Type of satellite Type = non Choose either:
Geostationary or
(State = SP) Nongeostationary
(City = geo or
non)

For Geostationary Longitude = IF ANY SATELLITES ARE GEOSTATIONARY, REPORT
ITS LATITUDE AS 000000N (XLA AND/OR RLA) AND
REPORT ITS LONGITUDE (XLG AND/OR RLG).
For INCLINATION ANGLE______51.6_______, IF ANY SATELLITES ARE NONGEOSTATIONARY,
REPORT ITS INCLINATION ANGLE, APOGEE
Nongeostationary APOGEE IN KILOMETERS____5100____, IN KILOMETERS, PERIGEE IN KILOMETERS,
(Orbital Data) PERIGEE IN KILOMETERS____500______, ORBITAL PERIOD IN HOURS AND FRACTIONS OF
HOURS IN DECIMAL, THE NUMBER OF SATELLITES
ORBITAL PERIOD IN HOURS ___2___AND
IN THE SYSTEM, THEN T01, EXAMPLE,
FRACTIONS OF HOURS IN REM04
DECIMAL___0.43__, *ORB,98.0IN00510AP00510PE001.58H01NRT01,
AND FOR SPACE-TO-SPACE
THE NUMBER OF SATELLITES IN THE COMMUNICATIONS WITH ANOTHER
SYSTEM______1____, NONGEOSTATIONARY SATELLITE ADD AN
ADDITIONAL
*ORB FOR IT ENDING IN R01, EXAMPLE, REM05
ORB = *ORB,72.9IN03209AP00655PE013.46H01NRR01

Earth Station Data (Receiver)
State (RSC) RSC = N/A, space-to-space
City Name (RAL) RAL =
Latitude Lat =
(DDMMSS)
Longitude Lon =
(DDDMMSS)
Antenna RAP = POLARIZATIONS INCLUDE :
H = HORIZONTAL,
Polarization (RAP) V = VERTICAL,
S = HORIZONTAL AND VERTICAL,
L = LEFT HAND CIRCULAR,
R = RIGHT HAND CIRCULAR,
T = RIGHT AND LEFT HAND CIRCULAR,
J = LINEAR POLARIZATION
Antenna Azimuth RAZ = THE EARTH STATION RECEIVER ANTENNA
AZIMUTH (RAZ), THE MINIMUM ANGLE OF
(RAZ) ELEVATION, V00 TO V90, EXAMPLE, RAZ01 V00

Antenna ANTENNA GAIN__________, EXAMPLE ASSUMING NONGEOSTATIONARY,
RAD01 16G030B000-360A00357H006
Dimensions (RAD) BEAMWIDTH__________,
AZIMUTHAL RANGE_______,
THE SITE ELEVATION ABOVE MEAN SEA
LEVEL IN METERS _________
THE ANTENNA HEIGHT ABOVE TERRAIN
IN METERS _____________

RAD =
FCC notes:
1. Use S-Note S945.
2. REM AGN, Cubesat, (insert name)

Part B: Ground Stations, Earth to Space link data:

Earth Station Transmitter Data

Transmit Frequency: N/A, space-to-space
State (XSC) XSC =
City Name (XAL) XAL =
Latitude Lat =
(DDMMSS)
Longitude Lon =
(DDDMMSS)
Antenna XAP = POLARIZATIONS INCLUDE :
H = HORIZONTAL,
Polarization (XAP) V = VERTICAL,
S = HORIZONTAL AND VERTICAL,
L = LEFT HAND CIRCULAR,
R = RIGHT HAND CIRCULAR,
T = RIGHT AND LEFT HAND CIRCULAR,
J = LINEAR POLARIZATION
Antenna Azimuth XAZ = THE EARTH STATION Transmitter ANTENNA
AZIMUTH (XAZ), THE MINIMUM ANGLE OF
(XAZ) ELEVATION, V00 TO V90, EXAMPLE, XAZ01 V00

Antenna ANTENNA GAIN______________, EXAMPLE ASSUMING NONGEOSTATIONARY,
XAD01 16G030B000-360A00357H006
Dimensions (XAD) BEAMWIDTH_____________,
AZIMUTHAL RANGE____________,
THE SITE ELEVATION ABOVE MEAN SEA
LEVEL IN METERS ___________
THE ANTENNA HEIGHT ABOVE TERRAIN
IN METERS ______________

XAD =
Satellite Receive Specifications

Polarization (RAP) RAP = POLARIZATIONS INCLUDE :
H = HORIZONTAL,
V = VERTICAL,
S = HORIZONTAL AND VERTICAL,
L = LEFT HAND CIRCULAR,
R = RIGHT HAND CIRCULAR,
T = RIGHT AND LEFT HAND CIRCULAR,
J = LINEAR POLARIZATION
Azimuth (RAZ) RAZ = STATION RECEIVER ANTENNA AZIMUTH (XAZ),
THE MINIMUM ANGLE OF
ELEVATION, V00 TO V90, EXAMPLE, RAZ01 V00

Dimension (RAD) ANTENNA GAIN__________ (NTIA format (RAD), EXAMPLE, RAD01 16G030B)

BEAMWIDTH ____________
RAD =
Type of satellite Type = Choose either:
Geostationary or
(State = SP) Nongeostationary
City = G/No

For Geostationary Longitude = IF ANY SATELLITES ARE GEOSTATIONARY, REPORT
ITS LATITUDE AS 000000N (XLA AND/OR RLA) AND
REPORT ITS LONGITUDE (XLG AND/OR RLG).
For INCLINATION ANGLE________________, IF ANY SATELLITES ARE NONGEOSTATIONARY,
REPORT ITS INCLINATION ANGLE, APOGEE
Nongeostationary APOGEE IN KILOMETERS_____________, IN KILOMETERS, PERIGEE IN KILOMETERS,
(Orbital Data) PERIGEE IN KILOMETERS_____________, ORBITAL PERIOD IN HOURS AND FRACTIONS OF
HOURS IN DECIMAL, THE NUMBER OF SATELLITES
ORBITAL PERIOD IN HOURS _______AND
IN THE SYSTEM, THEN T01, EXAMPLE,
FRACTIONS OF HOURS IN REM04
DECIMAL______, *ORB,98.0IN00510AP00510PE001.58H01NRT01,
AND FOR SPACE-TO-SPACE
THE NUMBER OF SATELLITES IN THE COMMUNICATIONS WITH ANOTHER
SYSTEM___________, NONGEOSTATIONARY SATELLITE ADD AN
ADDITIONAL
*ORB FOR IT ENDING IN R01, EXAMPLE, REM05
*ORB,72.9IN03209AP00655PE013.46H01NRR01

Document Created: 0490-05-28 00:00:00
Document Modified: 0490-05-28 00:00:00

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