List of spacecraft manufacturers
History
During the early years of spaceflight only nation states had the resources to develop and fly spacecraft. Both the U.S. space program and Soviet space program were operated using mainly military pilots as astronauts. During this period, no commercial space launches were available to private operators, and no private organization was able to offer space launches.
In the 1980s, the European Space Agency created Arianespace, the world's first commercial space transportation company, and, following the Challenger disaster, the American government deregulated the American space transportation market as well. In the 1990s the Russian government sold their majority stake in RSC Energia to private investors (although it has recently renationalized the Russian space sector in 2013–2014.[1]) These events for the first time allowed private organizations to purchase, develop and offer space launch services; beginning the period of private spaceflight in the late-1980s and early-1990s.
Satellite manufacturers
There are 8 major companies that build large, commercial, Geosynchronous satellite platforms:
Company | Location | No of satellites launched | Comments |
---|---|---|---|
Airbus Defence and Space | formerly Astrium | ||
OHB SE | |||
Boeing Defense, Space & Security | formerly Boeing Integrated Defense Systems | ||
INVAP | 6 - SAC-A SAC-B SAC-C SAC-D ARSAT-1 ARSAT-2 |
INVAP is developing new satellites ARSAT-3 SAOCOM SABIA-Mar | |
JSC Information Satellite Systems | 1160 | formerly NPO PM | |
Lockheed Martin | |||
Orbital ATK | formerly Orbital Sciences Corporation | ||
Space Systems/Loral | 240[2] | formerly Space Systems/Loral, LLC | |
Thales Alenia Space | formerly Alcatel Alenia Space |
In addition to those above, the following companies have successfully built and launched (smaller) satellite platforms:
Launch vehicle manufactures and providers of third party services
Commercial wings of national space agencies:
Lander, rover and probe manufacturers
Company | Location | No. of probes launched | Comments |
---|---|---|---|
Brown Engineering Company | Huntsville, AL |
Rover for Apollo lunar program | |
China National Space Administration | for Chang'e 3 program in 2013 | ||
Deep Space Industries | Mountain View, CA |
DragonFly for asteroid material return mission | |
Lavochkin | rovers for Lunokhod 1 | ||
NASA JPL | for ATHLETE lunar missions, Mars Pathfinder, Opportunity and Spirit rover | ||
ISRO | Chandrayaan-1, Chandrayaan-2, Mars Orbiter Mission | ||
Planetary Resources | Redmond, WA |
Arkyd-100 for asteroid searching |
Spacecraft component manufacturers
Company | Location | Production | Notes |
---|---|---|---|
Astro- und Feinwerktechnik Adlershof GmbH | Berlin, Germany | Design, Manufacturing, Assembly, Integration and Verification of small satellite buses (TET-1, launched July 2012) and components. Attitude control components (reaction wheels, gyro system, GPS receiver, magnetometer)
Supplier of space systems and ISS payload NightPod |
|
Dynetics | Madison, AL |
used on Sundancer and Ares I | |
American Technology Consortium | Oxnard, CA |
Mars Pathfinder Airbag Retraction Actuator Planetary Gearboxes, Mars Pathfinder Camera Pointing Mechanisms, Stardust Scan Mirror Mechanism, Mars Volatiles and Climate Surveyor (MVACS) Robot Arm Brush Motors, MVACS Camera Pointing Mechanisms, Genesis Array Deployment Mechanism, Shuttle Radar Topography Mapper (SRTM) Mast Deployment Actuators, SRTM Harmonic Drive Actuators, A2100 & A2100M Bus Antenna Pointing Mechanism Linear Actuators, Orbview 3 & 4 Antenna Gimbals, Sirius Satellite Radio Antenna Gimbal Motors, Champollion Cryogenic Comet Drill Actuator, TES Filter Wheel Actuator, Mars Odyssey Mission PanCam Mast Deployment Actuator, Mars Odyssey PanCam Azimuth Twist Capsule and Actuator Assembly, Mars Odyssey PanCam Elevation Actuator, Mars Odyssey Drill Mechanism Gearboxes, and Mars Phoenix Camera Pointing Mechanisms | Asset sale to competitor in 2000, Original corporation renamed to Rocketstar Robotics Inc in 2006 |
Tethers Unlimited, Inc. | Seattle, WA |
De-Orbiting Devices, Deployable Solar Arrays, Propulsion Systems, Radio Communications, and Robotics | |
RUAG Space | Structures, Fairings, Mechanisms, Opto-Electronics | ||
GAUSS Srl | Rome, |
Complete Space Platforms, Nanosatellites Structures and Deployers, OBDH, EPS, Radio Communications, Solar Panels and Groundstation systems | |
Andrews Space | Seattle, WA |
||
Jena-Optronik[15] | Jena, |
Attitude and Orbit Control Systems (AOCS) sensors: star sensors, sun sensors, rendezvous- and docking sensors; Optical space instruments and components: multi-spectral imager (e.g. JSS 56 for RapidEye satellite constellation, efficient radiometer (e.g. METimage), electronic as well as opto-mechanical subsystems and components for operational Earth observation (e.g. for Copernicus Sentinel missions) | |
Pumpkin, Inc | San Francisco, CA |
CubeSat Kits[16] | |
Mynaric | Munich |
Laser communication equipment for airborne and spaceborne communication networks, so called constellations. | |
Kongsberg Defence & Aerospace[17] | Kongsberg |
Kongsberg Adaptive Rotational Mechanism Assembly [KARMA] in configuration as Solar Array Drive Mechanism (SADM), used on Rosetta (spacecraft), Mars Express, Venus Express, Sentinel 1, Sentinel 3 and BepiColombo MTM.
Drive electronics for Sentinel 1 and BepiColombo MTM. Booster attachment struts, including separation function, for Ariane 5. |
|
Production Corporation Polyot | |||
Rocketstar Robotics Inc[18] | Camarillo, CA |
Space Interferometry Mission Optical Shutter Mechanisms | |
SNC Space Systems | formerly SpaceDev, owned by Sierra Nevada Corporation | ||
Clyde Space | Power System Electronics, Batteries, Solar Panels, Attitude Control Systems | Acquired by ÅAC Microtec[19] | |
Astro Aerospace[20] | Carpinteria, CA |
Deployable mechanisms, spacecraft structures, AstroMesh deployable reflector, deployable booms, large and small aperature mesh reflector antennas, STEM (Storable Tubular Extendable Member), hinge mechanisms, | A special business unit of Northrop Grumman |
TRANSPACE Technologies[21] | Bangalore, KA |
On-Board Satellite Sub-Systems Fabrication, Testing, Reliability Analysis and PCB Design | Approved Vendor for ISRO Satellite Center, India |
RadioBro Corporation[22] | Huntsville, Alabama |
Small Spacecraft Communications, Flight Readiness Testing, Training Services[23] | |
Solar MEMS Technologies[24] | Sun Sensors for Satellites[25] | ||
Propulsion manufacturers
Company name | Country | Engine | Engine type | Comments |
---|---|---|---|---|
Moog-ISP (In Space Propulsion) | Westcott, Buckinghamshire Niagara Falls, NY |
All Forms of Chemical Propulsion including Main Apogee Engines and AOCS Thrusters | Bipropellant and Monopropellant Product Families Include: LEROS, MONARC Thruster, LTT Thruster | Division of Moog Inc. |
Busek | Natick, Massachusetts |
BHT-200, BHT-1500, BHT-20k, BET-1, BmP-220, BIT-1, BIT-3, BIT-7, uPPT-3 | Hall-effect thruster, Gridded Ion, Electrospray, micro Pulsed Plasma, Green Monopropellant, Electrothermal, Hollow Cathodes, Field Emission Cathode | TacSat-2, FalconSat-5, FalconSat-6, ST-7/LISA Pathfinder. Licensed technology for BPT-4000 aboard AEHF 1, AEHF 2, AEHF 3. Propulsion options ranging from CubeSats to GEO Communications Satellites to Asteroid Redirect Mission Spacecraft.[26] |
Aerojet Rocketdyne | Rancho Cordova, California |
Numerous | liquid rocket engine, Solid rocket engine, Hall-effect thruster, Gridded Ion thruster. | |
American Rocket Company | hybrid rocket | intellectual property acquired by SpaceDev | ||
CU Aerospace | Champaign, IL |
PUC, CHIPS, PPT-11 | MCD[27] / Resistojet / PPT[28] | Small satellite / CubeSat Propulsion Modules [29] |
Frontier Astronautics | Valencia, CA |
VIPER | liquid rocket engine | reusable rocket engine [30] |
Asp | high test peroxide | reusable monopropellant rocket engine | ||
Ad Astra Rocket Company | Webster, TX |
VASIMR | magnetoplasma | may be used for future Mars missions |
Enpulsion GmbH | Wiener Neustadt, Austria | Propulsion Systems for Cubesats, Small Sats, and Medium/Large Satellites | Field Emission Electric Propulsion | Enpulsion is commercializing a technology that has been developed for ESA science missions for more than 10 years.[31] |
Reaction Engines Ltd. | Oxfordshire, England |
SABRE | combined cycle precooled jet engine and closed cycle rocket engine | planned to be used in Skylon |
SpaceDev | Poway, CA |
hybrid rocket | used on SpaceShipOne and SpaceShipTwo | |
SpaceX | Hawthorne, California, |
Merlin / Raptor / Draco / Kestrel | liquid rocket engine | used on Falcon Rockets |
TGV Rockets | Washington, DC, |
PF-X / Electrocycle | liquid rocket engine | used on customer vehicles |
ArianeGroup | Vernon, |
Vinci / Viking / Vulcain / HM7B | liquid rocket engine | used on Ariane rockets |
NPO Energomash | liquid rocket engine | used on R-7, Molniya, Soyuz, Energia, Zenit, Atlas III, Atlas V, Angara, Antares | ||
KBKhA | liquid rocket engine | used on Soyuz, Proton, Energia | ||
KBKhM | liquid rocket engine | used on Vostok, Voskhod, Zenit, Soyuz, Progress, Salyut 1, Salyut 4, Salyut 6, Salyut 7, Mir Core Module, Zvezda, GSLV Mk I | ||
NIIMash | liquid rocket engine | used on Almaz, Buran, Briz-M | ||
TsNIIMash | used on STEX | |||
Kuznetsov Design Bureau | liquid rocket engine | used on N1, Soyuz-2-1v, Antares | ||
OKB Fakel | Hall-effect thruster | used on SMART-1, LS-1300 | ||
Proton-PM | liquid rocket engine | used on Proton, Angara | ||
Keldysh Research Center | ||||
Voronezh Mechanical Plant | liquid rocket engine | used on Vostok, Voskhod, Molniya, Soyuz, Proton, Energia, Luna | ||
Yuzhnoye Design Office / Yuzhmash |
|
used on
|
See also
- List of private spaceflight companies including only companies with primarily private funding and missions ("NewSpace")
- Russian aerospace industry
References
- ↑ Messier, Doug (2013-10-09). "Rogozin Outlines Plans for Consolidating Russia's Space Industry". Parabolic Arc. Retrieved 2014-07-31.
- ↑ "Archived copy". Archived from the original on 11 April 2013. Retrieved 22 March 2013.
- ↑ "Comtech To Shut Down AeroAstro Small-satellite Operation - SpaceNews.com". Spacenews.com. 16 July 2012. Retrieved 11 August 2017.
- ↑ "Dhruva Space". Archived from the original on 28 September 2013. Retrieved 26 September 2013.
- ↑ "ISIS". Retrieved 9 December 2013.
- ↑ Werner, Debra (2012-08-13). "Builder Packing More Capability into Small Satellites". Space News. Retrieved 26 September 2013.
- ↑ Henry, Caleb (22 February 2018). "SpaceX launches pair of its demo internet satellites with Spanish radar satellite". SpaceNews. Retrieved 2 March 2018.
- ↑ "TRANSPACE". Retrieved 18 August 2014.
- ↑ "TRW Plays Key Role in Aerospace". Retrieved 3 Dec 2017.
- ↑ "Xovian". Retrieved 26 December 2014.
- ↑ "Iran unveils three new home-made satellites". Retrieved 26 September 2013.
- ↑ https://3dprintingindustry.com/news/patent-granted-rocket-crafters-3d-printed-rocket-fuel-102775/
- ↑ "Launch Manifest". Spacex.com. Retrieved 11 August 2017.
- ↑ https://web.archive.org/web/20160111234912/http://unitedstartlaunch.com/
- ↑ "BDLI manufacturer for space". Retrieved 18 February 2014.
- ↑ https://www.forbes.com/forbes/2010/1122/technology-pumpkin-inc-andrew-kalman-toasters-in-space.html#44fcba301e69
- ↑ "Kongsberg Gruppen". Retrieved 26 September 2013.
- ↑ "Rocketstar Robotics". Retrieved 26 September 2013.
- ↑ https://www.bbc.com/news/uk-scotland-scotland-business-42459554
- ↑ "Astro Aerospace". Retrieved 4 June 2013.
- ↑ "TRANSPACE". Retrieved 18 August 2014.
- ↑ "RadioBro". Retrieved 15 September 2014.
- ↑ http://alabamanewscenter.com/2016/08/09/radiobro-entrepreneurs-prep-launch-cyclone-flight-test-system/
- ↑ "SolarMEMS". Retrieved 1 September 2016.
- ↑ http://www.esa-tec.eu/space-technologies/from-space/sun-sensor-on-a-chip-ssoc-miniaturized-sun-sensor-for-high-accurate-sun-position-determination-in-the-aerospace-industry/
- ↑ "Busek Home Page". Busek.com. Retrieved 11 August 2017.
- ↑ Chadenedes, Mark de; Ahern, Drew; Cho, Jin-Hoon; Park, Sung-Jin; Eden, J.; Burton, Rodney; Yoon, Je Kwon; Garrett, Stephen; Sitaraman, Hariswaran; Raja, Laxminarayan; Laystrom-Woodard, Julia; Carroll, David; Benavides, Gabriel. 46th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit. American Institute of Aeronautics and Astronautics. doi:10.2514/6.2010-6616. Retrieved 11 August 2017 – via American Institute of Aeronautics and Astronautics.
- ↑ Laystrom, Julia; Burton, Rodney; Benavides, Gabriel. "Geometric Optimization of a Coaxial Pulsed Plasma Thruster". Arc.aiaa.org. doi:10.2514/6.2003-5025. Retrieved 11 August 2017.
- ↑ "CU Aerospace - Small-Satellite Propulsion". Web.archive.org. 10 August 2014. Archived from the original on 10 August 2014. Retrieved 11 August 2017.
- ↑ https://www.popsci.com/scitech/article/2008-05/rocket-engine-masses
- ↑ http://spacenews.com/austrian-startup-ramping-to-mass-produce-tricky-electric-propulsion-thrusters/