Satellite system measurements

Kreutel, R.; DiFonzo, D.; Mahle, C.

doi:10.1109/proc.1978.10939

Cited by 6 publications

(4 citation statements)

References 2 publications

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“…A convenient measure, which is also proportional to signal-to-noise ratio, is G/T in dB/K [Orb,Sio81,KJDM78]. G is the antenna gain and T is the receiver noise temperature.…”

Section: Insertion Lossmentioning

confidence: 99%

Electronic Beam Steering and Polarization Agile Planar Antennas in Liquid Crystal Technology

Karabey

2014

Springer Theses

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“…A convenient measure, which is also proportional to signal-to-noise ratio, is G/T in dB/K [Orb,Sio81,KJDM78]. G is the antenna gain and T is the receiver noise temperature.…”

Section: Insertion Lossmentioning

confidence: 99%

Electronic Beam Steering and Polarization Agile Planar Antennas in Liquid Crystal Technology

Karabey

2014

Springer Theses

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“…Of course, Camp Parks is capable of generating and receiving signals to and from the satellite, but only insofar as needed for measurement purposes. While it is desirable to be able to determine a number of characteri sti cs of a satellite, such as saturation level of the output amplifier, gain-transfer characteri Stic of the transponder, gai n-to-noi se temperature ratio of the satellite receiver, and satellite EIRP [2], it is only the last characteri Stic that can be measured from the ground in an advanced nonlinear satellite such as MILSTAR.…”

Section: Camp Parks Measurement Rolementioning

confidence: 99%

Calibration requirements for EHF satellite communication systems

Baird¹,

Daywitt²,

Newell³

et al. 1986

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The calibration and measurement support requirements of millimeter wave satellite systems such as MILSTAR have been investigated. The needs for measurements on satellite systems are reviewed. An overview of the various means available for calibrating antenna gain, one of the key measurements that needs to be accurately accomplished, is presented. Essentially three new measurement problems arise because of operating in the upper SHF and EHF frequency ranges. First, without adequate methods to measure the atmospheric loss, the accuracy of effective isotropic radiated power (EIRP) measurements in the 20-45 GHz range can be no better than 0.5-3 dB (depending on frequency and antenna elevation angle), which is inadequate for MILSTAR requi rements. Second, standards and measurement support services are not presently available from the National Bureau of Standards and are needed to support millimeter wave antenna gain and thermal noise measurements. Third, if the Sun and/or Moon are to be used for measuring Earth terminal G/T, Earth terminal antenna gain, or satellite EIRP in the millimeter region, they need to be appropriately characteri zed at those frequencies.

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“…Mit dem Meßaufbau von Bild 9 wurden auch die Polarisationsentkopplungen (isolation on axis) zwischen rechtszirkularer und linkszirkularer Polarisation im Empfangs-und Sendeband in einer Schleifenmessung zwischen der zu vermessenden Bodenstation und dem Satellit nach dem von Intelsat vorgeschlagenen Meßverfahren bestimmt [4,5]. B.…”

Section: Diagramme -Messungen Mit Hilfe Eines Satellitenunclassified

“…Y-Faktor-Methode besteht darin, daß der Radiostern auf seiner Bahn punktweise verfolgt wird und dabei die von ihm verursachte Rauschüberhöhung gegenüber dem Hintergrundrauschen des Himmels mit Hilfe einer präzisen Eichleitung gemessen wird [4,6]. Y-Faktor-Methode besteht darin, daß der Radiostern auf seiner Bahn punktweise verfolgt wird und dabei die von ihm verursachte Rauschüberhöhung gegenüber dem Hintergrundrauschen des Himmels mit Hilfe einer präzisen Eichleitung gemessen wird [4,6].…”

Section: G/t-verhältnis Antennengewinnunclassified

Aufbau und elektrische Eigenschaften einer 32-m-Satelliten-Funk-Antenne mit Strahlwellenleiter-Speisesystem

Leupelt¹,

Thiere²

1980

Frequenz

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Satellite system measurements

Cited by 6 publications

References 2 publications

Electronic Beam Steering and Polarization Agile Planar Antennas in Liquid Crystal Technology

Electronic Beam Steering and Polarization Agile Planar Antennas in Liquid Crystal Technology

Calibration requirements for EHF satellite communication systems

Aufbau und elektrische Eigenschaften einer 32-m-Satelliten-Funk-Antenne mit Strahlwellenleiter-Speisesystem

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