CALIBRATION ISSUES FOR MILLIMETER WAVE EARTH TERMINALS

International Telemetering Conference Proceedings / October 13-16, 1986 / Riviera Hotel, Las Vegas, Nevada === The National Bureau of Standards (NBS) has investigated the calibration and measurement support requirements of millimeter wave satellite systems such as MILSTAR. Essentially three new meas...

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Main Authors: Wait, D. F., Baird, R. C., Daywitt, W. C., Newell, A. C., Perera, S., Repjar, A. G.
Other Authors: CyberLink Corporation
Language:en_US
Published: International Foundation for Telemetering 1986
Online Access:http://hdl.handle.net/10150/615580
http://arizona.openrepository.com/arizona/handle/10150/615580
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spelling ndltd-arizona.edu-oai-arizona.openrepository.com-10150-6155802016-07-07T03:00:50Z CALIBRATION ISSUES FOR MILLIMETER WAVE EARTH TERMINALS Wait, D. F. Baird, R. C. Daywitt, W. C. Newell, A. C. Perera, S. Repjar, A. G. CyberLink Corporation International Telemetering Conference Proceedings / October 13-16, 1986 / Riviera Hotel, Las Vegas, Nevada The National Bureau of Standards (NBS) has investigated the calibration and measurement support requirements of millimeter wave satellite systems such as MILSTAR. 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 EIRP measurements in the 20 GHz to 45 GHz range can be no better than 0.5 dB to 3 dB (depending on frequency and antenna elevation angle). The atmosphere absorbs and scatters radiation traveling through it, both reducing the magnitude of and depolarizing a received signal. Second, standards, measurement support services, and some measurement techniques are not presently available from NBS and they are needed to support millimeter wave antenna gain and thermal noise measurements. Of special concern are the effects of connectors and adapters, since they can introduce significant errors into mm-wave measurements. Theird, if the sun and/or moon are to be used for measuring earth terminal G/T, earth terminal antenna gain, or satellite effective isotropic radiated power in the millimeter region, they need to be appropriately characterized at those frequencies. The sun and moon are only useful as measurement sources for antenna systems with gains less than about 50 dB, but most MILSTAR systems are expected to fall in this category. 1986-10 text Proceedings 0884-5123 0074-9079 http://hdl.handle.net/10150/615580 http://arizona.openrepository.com/arizona/handle/10150/615580 International Telemetering Conference Proceedings en_US http://www.telemetry.org/ Copyright © International Foundation for Telemetering International Foundation for Telemetering
collection NDLTD
language en_US
sources NDLTD
description International Telemetering Conference Proceedings / October 13-16, 1986 / Riviera Hotel, Las Vegas, Nevada === The National Bureau of Standards (NBS) has investigated the calibration and measurement support requirements of millimeter wave satellite systems such as MILSTAR. 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 EIRP measurements in the 20 GHz to 45 GHz range can be no better than 0.5 dB to 3 dB (depending on frequency and antenna elevation angle). The atmosphere absorbs and scatters radiation traveling through it, both reducing the magnitude of and depolarizing a received signal. Second, standards, measurement support services, and some measurement techniques are not presently available from NBS and they are needed to support millimeter wave antenna gain and thermal noise measurements. Of special concern are the effects of connectors and adapters, since they can introduce significant errors into mm-wave measurements. Theird, if the sun and/or moon are to be used for measuring earth terminal G/T, earth terminal antenna gain, or satellite effective isotropic radiated power in the millimeter region, they need to be appropriately characterized at those frequencies. The sun and moon are only useful as measurement sources for antenna systems with gains less than about 50 dB, but most MILSTAR systems are expected to fall in this category.
author2 CyberLink Corporation
author_facet CyberLink Corporation
Wait, D. F.
Baird, R. C.
Daywitt, W. C.
Newell, A. C.
Perera, S.
Repjar, A. G.
author Wait, D. F.
Baird, R. C.
Daywitt, W. C.
Newell, A. C.
Perera, S.
Repjar, A. G.
spellingShingle Wait, D. F.
Baird, R. C.
Daywitt, W. C.
Newell, A. C.
Perera, S.
Repjar, A. G.
CALIBRATION ISSUES FOR MILLIMETER WAVE EARTH TERMINALS
author_sort Wait, D. F.
title CALIBRATION ISSUES FOR MILLIMETER WAVE EARTH TERMINALS
title_short CALIBRATION ISSUES FOR MILLIMETER WAVE EARTH TERMINALS
title_full CALIBRATION ISSUES FOR MILLIMETER WAVE EARTH TERMINALS
title_fullStr CALIBRATION ISSUES FOR MILLIMETER WAVE EARTH TERMINALS
title_full_unstemmed CALIBRATION ISSUES FOR MILLIMETER WAVE EARTH TERMINALS
title_sort calibration issues for millimeter wave earth terminals
publisher International Foundation for Telemetering
publishDate 1986
url http://hdl.handle.net/10150/615580
http://arizona.openrepository.com/arizona/handle/10150/615580
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AT daywittwc calibrationissuesformillimeterwaveearthterminals
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