NTIA Space Record Data Form

0683-EX-CN-2019 Text Documents

Swarm Technologies, Inc.

2019-08-30ELS_236823

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: ​137.880-138.000 MHz Satellite Name: ​SPACEBEE-22, SPACEBEE-23, SPACEBEE-24, SPACEBEE-25, SPACEBEE-26, SPACEBEE-27, SPACEBEE-28, SPACEBEE-29, SPACEBEE-30, SPACEBEE-31, SPACEBEE-32, SPACEBEE-33 Data Field Data Answer Description/Comments Polarization (XAP) XAP = ​R 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 = ​0.00 dBi (NTIA format (XAD), EXAMPLE, XAD01 16G030B) Dimension (XAD) BEAMWIDTH = ​360 degrees XAD = ​00G360B Type of satellite Type = ​Nongeostationary 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____​97.4​_______, IF ANY SATELLITES ARE NONGEOSTATIONARY, REPORT ITS INCLINATION ANGLE, APOGEE Nongeostationary APOGEE IN KILOMETERS____​505​_____, IN KILOMETERS, PERIGEE IN KILOMETERS, (Orbital Data) PERIGEE IN KILOMETERS_____​505​____, ORBITAL PERIOD IN HOURS AND FRACTIONS OF HOURS IN DECIMAL, THE NUMBER OF SATELLITES ORBITAL PERIOD IN HOURS __​1​__AND IN THE SYSTEM, THEN T01, EXAMPLE, FRACTIONS OF HOURS IN REM04 DECIMAL___​0.579​___, *ORB,98.0IN00510AP00510PE001.58H01NRT01, AND FOR SPACE-TO-SPACE THE NUMBER OF SATELLITES IN THE COMMUNICATIONS WITH ANOTHER SYSTEM_____​12​______, NONGEOSTATIONARY SATELLITE ADD AN ADDITIONAL *ORB FOR IT ENDING IN R01, EXAMPLE, REM05 ORB = *ORB,72.9IN03209AP00655PE013.46H01NRR01 97.4IN00505AP00505PE001.58H12NRT01 1

Earth Station Data (Receiver) ​#1 State (RSC) RSC = ​CA City Name (RAL) RAL = ​Los Altos Latitude Lat = ​37 21 53 N (DDMMSS) Longitude Lon = ​122 06 39 W (DDDMMSS) Antenna RAP = ​V 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 = ​V00 THE EARTH STATION RECEIVER ANTENNA AZIMUTH (RAZ), THE MINIMUM ANGLE OF (RAZ) ELEVATION, V00 TO V90, EXAMPLE, RAZ01 V00 Antenna ANTENNA GAIN__​11.0​__________, EXAMPLE ASSUMING NONGEOSTATIONARY, RAD01 16G030B000-360A00357H006 Dimensions (RAD) BEAMWIDTH__​50​___________, AZIMUTHAL RANGE__​0 to 50​________, THE SITE ELEVATION ABOVE MEAN SEA LEVEL IN METERS __​132​_________ THE ANTENNA HEIGHT ABOVE TERRAIN IN METERS __​3​____________ RAD = ​11G050B000-360A00132H003 FCC notes: 1. Use S-Note S945. 2. REM AGN, Cubesat, (​SPACEBEE​) Earth Station Data (Receiver) ​#2 State (RSC) RSC = ​GA City Name (RAL) RAL = ​Flowery Branch Latitude Lat = ​034 11 29 N (DDMMSS) Longitude Lon = ​083 56 29 W (DDDMMSS) Antenna RAP = ​V 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 = ​V00 THE EARTH STATION RECEIVER ANTENNA AZIMUTH (RAZ), THE MINIMUM ANGLE OF (RAZ) ELEVATION, V00 TO V90, EXAMPLE, RAZ01 V00 2

Antenna ANTENNA GAIN__​11.0​__________, EXAMPLE ASSUMING NONGEOSTATIONARY, RAD01 16G030B000-360A00357H006 Dimensions (RAD) BEAMWIDTH__​50​___________, AZIMUTHAL RANGE__​0 to 50​________, THE SITE ELEVATION ABOVE MEAN SEA LEVEL IN METERS __​366​_________ THE ANTENNA HEIGHT ABOVE TERRAIN IN METERS __​3​____________ RAD = ​11G050B000-360A00366H003 FCC notes: 1. Use S-Note S945. 2. REM AGN, Cubesat, (​SPACEBEE​) Earth Station Data (Receiver) ​#3 State (RSC) RSC = ​UT City Name (RAL) RAL = ​Draper Latitude Lat = ​40 28 53 N (DDMMSS) Longitude Lon = ​111 49 23 W (DDDMMSS) Antenna RAP = ​V 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 = ​V00 THE EARTH STATION RECEIVER ANTENNA AZIMUTH (RAZ), THE MINIMUM ANGLE OF (RAZ) ELEVATION, V00 TO V90, EXAMPLE, RAZ01 V00 Antenna ANTENNA GAIN__​11.0​__________, EXAMPLE ASSUMING NONGEOSTATIONARY, RAD01 16G030B000-360A00357H006 Dimensions (RAD) BEAMWIDTH__​50​___________, AZIMUTHAL RANGE__​0 to 50​________, THE SITE ELEVATION ABOVE MEAN SEA LEVEL IN METERS __​1796​_________ THE ANTENNA HEIGHT ABOVE TERRAIN IN METERS __​3​____________ RAD = ​11G050B000-360A01796H003 FCC notes: 1. Use S-Note S945. 2. REM AGN, Cubesat, (​SPACEBEE​) 3

Part B: Ground Stations, Earth to Space link data: Earth Station Transmitter Data ​#1 Transmit Frequency: ​148.300-148.420 MHz State (XSC) XSC = ​CA City Name (XAL) XAL = ​Los Altos Latitude Lat = ​37 21 53 N (DDMMSS) Longitude Lon = ​122 06 39 W (DDDMMSS) Antenna XAP = ​V 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 = ​V00 THE EARTH STATION Transmitter ANTENNA AZIMUTH (XAZ), THE MINIMUM ANGLE OF (XAZ) ELEVATION, V00 TO V90, EXAMPLE, XAZ01 V00 Antenna ANTENNA GAIN__​11.0​__________, EXAMPLE ASSUMING NONGEOSTATIONARY, XAD01 16G030B000-360A00357H006 Dimensions (XAD) BEAMWIDTH__​50​___________, AZIMUTHAL RANGE__​0 to 360​________, THE SITE ELEVATION ABOVE MEAN SEA LEVEL IN METERS __​132​_________ THE ANTENNA HEIGHT ABOVE TERRAIN IN METERS __​3​____________ XAD = ​11G050B000-360A00132H003 Satellite Receive Specifications (​SPACEBEE-22, SPACEBEE-23, SPACEBEE-24, SPACEBEE-25, SPACEBEE-26, SPACEBEE-27, SPACEBEE-28, SPACEBEE-29, SPACEBEE-30, SPACEBEE-31, SPACEBEE-32, SPACEBEE-33​) Polarization (RAP) RAP = ​R 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 = ​EC NB= NARROWBEAM EC = EARTH COVERAGE Dimension (RAD) ANTENNA GAIN = ​0.00 dBi (NTIA format (RAD), EXAMPLE, RAD01 16G030B) BEAMWIDTH ​= 360 degrees RAD =​ 00G360B Type of satellite Type = ​Nongeostationary 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). 4

For INCLINATION ANGLE____​97.4​_______, IF ANY SATELLITES ARE NONGEOSTATIONARY, REPORT ITS INCLINATION ANGLE, APOGEE Nongeostationary APOGEE IN KILOMETERS____​505​_____, IN KILOMETERS, PERIGEE IN KILOMETERS, (Orbital Data) PERIGEE IN KILOMETERS_____​505​____, ORBITAL PERIOD IN HOURS AND FRACTIONS OF HOURS IN DECIMAL, THE NUMBER OF SATELLITES ORBITAL PERIOD IN HOURS __​1​__AND IN THE SYSTEM, THEN T01, EXAMPLE, FRACTIONS OF HOURS IN REM04 DECIMAL___​0.579​__, *ORB,98.0IN00510AP00510PE001.58H01NRT01, AND FOR SPACE-TO-SPACE THE NUMBER OF SATELLITES IN THE COMMUNICATIONS WITH ANOTHER SYSTEM_____​12​______, NONGEOSTATIONARY SATELLITE ADD AN ADDITIONAL *ORB FOR IT ENDING IN R01, EXAMPLE, REM05 ORB = *ORB,72.9IN03209AP00655PE013.46H01NRR01 97.4IN00505AP00505PE001.58H12NRT01 Earth Station Transmitter Data ​#2 Transmit Frequency: ​148.300-148.420 MHz State (XSC) XSC = ​UT City Name (XAL) XAL = ​Draper Latitude Lat = ​40 28 53 N (DDMMSS) Longitude Lon = ​111 49 23 W (DDDMMSS) Antenna XAP = ​V 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 = ​V00 THE EARTH STATION Transmitter ANTENNA AZIMUTH (XAZ), THE MINIMUM ANGLE OF (XAZ) ELEVATION, V00 TO V90, EXAMPLE, XAZ01 V00 Antenna ANTENNA GAIN__​11.0​__________, EXAMPLE ASSUMING NONGEOSTATIONARY, XAD01 16G030B000-360A00357H006 Dimensions (XAD) BEAMWIDTH__​50​___________, AZIMUTHAL RANGE__​0 to 360​________, THE SITE ELEVATION ABOVE MEAN SEA LEVEL IN METERS __​1798​_________ THE ANTENNA HEIGHT ABOVE TERRAIN IN METERS __​3​____________ XAD = ​11G050B000-360A01798H003 Satellite Receive Specifications (​SPACEBEE-22, SPACEBEE-23, SPACEBEE-24, SPACEBEE-25, SPACEBEE-26, SPACEBEE-27, SPACEBEE-28, SPACEBEE-29, SPACEBEE-30, SPACEBEE-31, SPACEBEE-32, SPACEBEE-33​) Polarization (RAP) RAP = ​R POLARIZATIONS INCLUDE : H = HORIZONTAL, V = VERTICAL, S = HORIZONTAL AND VERTICAL, L = LEFT HAND CIRCULAR, R = RIGHT HAND CIRCULAR, 5

T = RIGHT AND LEFT HAND CIRCULAR, J = LINEAR POLARIZATION Azimuth (RAZ) RAZ = ​EC NB= NARROWBEAM EC = EARTH COVERAGE Dimension (RAD) ANTENNA GAIN = ​0.00 dBi (NTIA format (RAD), EXAMPLE, RAD01 16G030B) BEAMWIDTH ​= 360 degrees RAD =​ 00G360B Type of satellite Type = ​Nongeostationary 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____​97.4​_______, IF ANY SATELLITES ARE NONGEOSTATIONARY, REPORT ITS INCLINATION ANGLE, APOGEE Nongeostationary APOGEE IN KILOMETERS____​505​_____, IN KILOMETERS, PERIGEE IN KILOMETERS, (Orbital Data) PERIGEE IN KILOMETERS_____​505​____, ORBITAL PERIOD IN HOURS AND FRACTIONS OF HOURS IN DECIMAL, THE NUMBER OF SATELLITES ORBITAL PERIOD IN HOURS __​1​__AND IN THE SYSTEM, THEN T01, EXAMPLE, FRACTIONS OF HOURS IN REM04 DECIMAL___​0.579​___, *ORB,98.0IN00510AP00510PE001.58H01NRT01, AND FOR SPACE-TO-SPACE THE NUMBER OF SATELLITES IN THE COMMUNICATIONS WITH ANOTHER SYSTEM_____​12​______, NONGEOSTATIONARY SATELLITE ADD AN ADDITIONAL *ORB FOR IT ENDING IN R01, EXAMPLE, REM05 ORB = *ORB,72.9IN03209AP00655PE013.46H01NRR01 97.4IN00505AP00505PE001.58H12NRT01 Earth Station Transmitter Data ​#3 Transmit Frequency: ​148.300-148.420 MHz State (XSC) XSC = ​GA City Name (XAL) XAL = ​Flowery Branch Latitude Lat = ​34 11 32 N (DDMMSS) Longitude Lon = ​083 56 28 W (DDDMMSS) Antenna XAP = ​V 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 = ​V00 THE EARTH STATION Transmitter ANTENNA AZIMUTH (XAZ), THE MINIMUM ANGLE OF (XAZ) ELEVATION, V00 TO V90, EXAMPLE, XAZ01 V00 Antenna ANTENNA GAIN__​11.0​__________, EXAMPLE ASSUMING NONGEOSTATIONARY, XAD01 16G030B000-360A00357H006 Dimensions (XAD) BEAMWIDTH__​50​___________, AZIMUTHAL RANGE__​0 to 360​________, THE SITE ELEVATION ABOVE MEAN SEA LEVEL IN METERS __​348​_________ 6

THE ANTENNA HEIGHT ABOVE TERRAIN IN METERS __​3​____________ XAD = ​11G050B000-360A00348H003 Satellite Receive Specifications (​SPACEBEE-22, SPACEBEE-23, SPACEBEE-24, SPACEBEE-25, SPACEBEE-26, SPACEBEE-27, SPACEBEE-28, SPACEBEE-29, SPACEBEE-30, SPACEBEE-31, SPACEBEE-32, SPACEBEE-33​) Polarization (RAP) RAP = ​R 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 = ​EC NB= NARROWBEAM EC = EARTH COVERAGE Dimension (RAD) ANTENNA GAIN = ​0.00 dBi (NTIA format (RAD), EXAMPLE, RAD01 16G030B) BEAMWIDTH ​= 360 degrees RAD =​ 00G360B Type of satellite Type = ​Nongeostationary 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____​97.4​_______, IF ANY SATELLITES ARE NONGEOSTATIONARY, REPORT ITS INCLINATION ANGLE, APOGEE Nongeostationary APOGEE IN KILOMETERS____​505​_____, IN KILOMETERS, PERIGEE IN KILOMETERS, (Orbital Data) PERIGEE IN KILOMETERS_____​505​____, ORBITAL PERIOD IN HOURS AND FRACTIONS OF HOURS IN DECIMAL, THE NUMBER OF SATELLITES ORBITAL PERIOD IN HOURS __​1​__AND IN THE SYSTEM, THEN T01, EXAMPLE, FRACTIONS OF HOURS IN REM04 DECIMAL___​0.579​___, *ORB,98.0IN00510AP00510PE001.58H01NRT01, AND FOR SPACE-TO-SPACE THE NUMBER OF SATELLITES IN THE COMMUNICATIONS WITH ANOTHER SYSTEM_____​12​______, NONGEOSTATIONARY SATELLITE ADD AN ADDITIONAL *ORB FOR IT ENDING IN R01, EXAMPLE, REM05 ORB = *ORB,72.9IN03209AP00655PE013.46H01NRR01 97.4IN00505AP00505PE001.58H12NRT01 7


Document Created: 2019-09-12 16:55:47
Document Modified: 2019-09-12 16:55:47
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