}; The module also contains a toilet, docking avionics and communications gear. { bidder: 'appnexus', params: { placementId: '11654157' }}, { bidder: 'onemobile', params: { dcn: '8a969411017171829a5c82bb4deb000b', pos: 'cdo_leftslot_160x600' }}, googletag.pubads().setCategoryExclusion('mcp').setCategoryExclusion('resp').setCategoryExclusion('wprod'); Early 7K-OK Soyuz at National Space Centre in Leicester, England, Soyuz spacecraft of the Apollo–Soyuz Test Project (ASTP), A Soyuz mock-up shows how its modules are connected, Soyuz TM-31 moves to Launch Pad on 29 October 2000, Soyuz TMA-2 launch from Baikonur on April 26, 2003, Series of spacecraft designed for the Soviet space programme, For the launch vehicle of the same name, see, List of Soviet human spaceflight missions, List of Russian human spaceflight missions, Orbital Technologies Commercial Space Station, Voskhod Spacecraft "Globus" IMP navigation instrument, "Soyuz launch vehicle: The most reliable means of space travel", "France and Russia agree: Soyuz will launch from Kourou in French Guyana", "Science: Triumph and Tragedy of Soyuz 11", "Russia thriving again on the final frontier", The best ride in the galaxy – coming back to Earth in a Soyuz, "Russia to rollout a full-scale mockup of a next-generation spacecraft", http://www.esa.int/Enabling_Support/Space_Transportation/Launch_vehicles/The_Russian_Soyuz_spacecraft, "Emergency escape rocket: The ultimate lifeboat for spacecraft", "Soyuz 100 Times More Reliable Than Shuttle", "Soyuz crew approved for fast approach to space station", http://www.zakupki.gov.ru/pgz/public/action/orders/info/common_info/show?notificationId=8309758, "Модернизированные пилотируемые корабли "Союз МС" начнут летать к МКС через 2,5 года - президент РКК "Энергия" ОАО "Российские космические системы, Soviet and Russian government human spaceflight programs, https://en.wikipedia.org/w/index.php?title=Soyuz_(spacecraft)&oldid=971744824, Supply vehicles for the International Space Station, Articles containing Russian-language text, Articles with unsourced statements from October 2018, Wikipedia articles needing factual verification from July 2016, Creative Commons Attribution-ShareAlike License, modified docking and attitude control engine positions for redundancy during docking and de-orbit burns, new Kurs NA approach and docking system which weighs half as much and consumes a third of the power of previous system, new TsVM-101 computer, about one eighth the weight (8.3 kg vs. 70 kg) and much smaller than the previous Argon-16 computer, unified digital command/telemetry system (MBITS) to relay telemetry via satellite, and control spacecraft when out of sight of ground stations; also provides the crew with position data when out of ground tracking range, This page was last edited on 7 August 2020, at 23:26.