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Spacecraft Interface Standards Analysis and Simple Breadboarding Examensarbete LITH-ITN-ED-EX--05/003--SE Spacecraft Interface Standards Analysis and Simple Breadboarding Birgitta Ljunggren 2005-03-14 Department of Science and Technology Institutionen för teknik och naturvetenskap Linköpings Universitet Linköpings Universitet SE-601 74 Norrköping, Sweden 601 74 Norrköping LITH-ITN-ED-EX--05/003--SE Spacecraft Interface Standards Analysis and Simple Breadboarding Examensarbete utfört i Elektronikdesign vid Linköpings Tekniska Högskola, Campus Norrköping Birgitta Ljunggren Handledare Hans-Jakob Schneider Examinator Shaofang Gong Norrköping 2005-03-14 Datum Avdelning, Institution Date Division, Department Institutionen för teknik och naturvetenskap 2005-03-14 Department of Science and Technology Språk Rapporttyp ISBN Language Report category _____________________________________________________ Svenska/Swedish Examensarbete ISRN LITH-ITN-ED-EX--05/003--SE x Engelska/English B-uppsats _________________________________________________________________ C-uppsats Serietitel och serienummer ISSN x D-uppsats Title of series, numbering ___________________________________ _ ________________ _ ________________ URL för elektronisk version http://www.ep.liu.se/exjobb/itn/2005ed/003/ Titel Title Spacecraft Interface Standards Analysis and Simple Breadboarding Författare Author Birgitta Ljunggren Sammanfattning Abstract I detta examensarbete undersöks 12 olika data kommunikationsstandarder mellan vilka det också görs en jämförelse. Jämförelsen mål är att få reda på vilken eller vilka av standarderna som är bäst lämpade för framtida rymdapplikationer. Förutom detta har också ett testsystem för en av standarderna (MIL-STD-1553) byggts upp med hjälp av FPGA teknologi. Examensarbetet utfördes i samarbete med Contraves Space AG i Zürich, Schweiz. Nyckelord Keyword datakommunikation, standard, interfaces, communication, MIL-STD-1553, CAN, GPIB, FireWire, SpaceWire, USB, RS-422, WLAN, Bluetooth, ZigBee, 1-Wire, IEEE1451 Upphovsrätt Detta dokument hålls tillgängligt på Internet – eller dess framtida ersättare – under en längre tid från publiceringsdatum under förutsättning att inga extra- ordinära omständigheter uppstår. Tillgång till dokumentet innebär tillstånd för var och en att läsa, ladda ner, skriva ut enstaka kopior för enskilt bruk och att använda det oförändrat för ickekommersiell forskning och för undervisning. Överföring av upphovsrätten vid en senare tidpunkt kan inte upphäva detta tillstånd. All annan användning av dokumentet kräver upphovsmannens medgivande. För att garantera äktheten, säkerheten och tillgängligheten finns det lösningar av teknisk och administrativ art. Upphovsmannens ideella rätt innefattar rätt att bli nämnd som upphovsman i den omfattning som god sed kräver vid användning av dokumentet på ovan beskrivna sätt samt skydd mot att dokumentet ändras eller presenteras i sådan form eller i sådant sammanhang som är kränkande för upphovsmannens litterära eller konstnärliga anseende eller egenart. För ytterligare information om Linköping University Electronic Press se förlagets hemsida http://www.ep.liu.se/ Copyright The publishers will keep this document online on the Internet - or its possible replacement - for a considerable time from the date of publication barring exceptional circumstances. The online availability of the document implies a permanent permission for anyone to read, to download, to print out single copies for your own use and to use it unchanged for any non-commercial research and educational purpose. Subsequent transfers of copyright cannot revoke this permission. All other uses of the document are conditional on the consent of the copyright owner. The publisher has taken technical and administrative measures to assure authenticity, security and accessibility. According to intellectual property law the author has the right to be mentioned when his/her work is accessed as described above and to be protected against infringement. For additional information about the Linköping University Electronic Press and its procedures for publication and for assurance of document integrity, please refer to its WWW home page: http://www.ep.liu.se/ © Birgitta Ljunggren THESIS WORK Spacecraft Interface Standards Analysis and Simple Breadboarding Birgitta Ljunggren 2005-03-14 Department of Science and Technology Professor: Shaofang Gong Linköpings Universitet SE-601 74 Norrköping, Sweden ABSTRACT This report is a result of a thesis work done for Linköping University at Contraves Space AG in Zürich, Switzerland. The aim was to perform an analysis of 12 spacecraft interface standards and to construct a simple breadboard, which should work as a test system. The conclusion of the extensive analysis is that SpaceWire, MIL-STD-1553 and CAN are the most interesting interfaces for future data communication in spacecrafts. In the breadboard part of the work, a test system was built and data gathered with help from a demonstration program that came with one of the components. PREFACE This report is a result of a thesis work done for Linköping University at Contraves Space AG in Zürich, Switzerland. I would like to thank all people from Contraves Space AG who have helped me with technical support and material. A special thanks to my supervisor at Contraves Space Hans-Jakob Schneider and my professor Shaofang Gong. I would also like to direct a personal thanks to Teresa Braun at Contraves Space who proofread the paper. Last, but not least, my family. I would like to thank them for their support during my studies and for helping me reaching my goals. TABLE OF CONTENTS 1 INTRODUCTION................................................................................................................................. 1 1.1 Purpose........................................................................................................................................ 1 1.2 Scope ........................................................................................................................................... 2 1.3 Structure of the report .................................................................................................................. 2 1.4 Presentation of Contraves Space ................................................................................................ 2 2 ANALYSIS DETAILS.......................................................................................................................... 3 2.1 Overview and History................................................................................................................... 3 2.1.1 MIL-STD-1553 ...................................................................................................................... 3 2.1.2 Simple Parallel Interface – GPIB .......................................................................................... 3 2.1.3 CAN-bus ............................................................................................................................... 3 2.1.4 SpaceWire ............................................................................................................................ 4 2.1.5 FireWire ................................................................................................................................ 4 2.1.6 USB....................................................................................................................................... 4 2.1.7 RS-422.................................................................................................................................. 4 2.1.8 IEEE 802.11a/b/g.................................................................................................................. 5 2.1.9 Bluetooth............................................................................................................................... 5 2.1.10 IEEE 802.15.4 and ZigBee ................................................................................................... 5 2.1.11 1-Wire ................................................................................................................................... 5 2.1.12 IEEE 1451............................................................................................................................. 5 2.2 Interface Analysis......................................................................................................................... 6 2.2.1 MIL-STD-1553 ...................................................................................................................... 6 2.2.2 GPIB ................................................................................................................................... 11 2.2.3 CAN Bus ............................................................................................................................. 13 2.2.4 SpaceWire .......................................................................................................................... 17 2.2.5 FireWire .............................................................................................................................. 21 2.2.6 USB..................................................................................................................................... 26 2.2.7 RS-422................................................................................................................................ 33 2.2.8 IEEE 802.11a/b/g................................................................................................................36
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