Information about Miniaturized Satellites
Miniaturized satellites or small satellites are artificial satellites of unusually low weights and small sizes, usually under 500 kg (1100 lb)[1]. While all such satellites can be referred to as small satellites, different classifications are used to categorize them based on mass (see below).
One reason for miniaturizing satellites is to reduce the cost: heavier satellites require larger rockets of greater cost to finance; smaller and lighter satellites require smaller and cheaper launch vehicles and can sometimes be launched in multiples. They can also be launched 'piggyback', using excess capacity on larger launch vehicles. Miniaturized satellites allow for cheaper designs as well as ease of mass production, although few satellites of any size other than 'communications constellations' where dozens of satellites are used to cover the globe, have been mass produced in practice.
Besides the cost issue, the main rationale for the use of miniaturized satellites is the opportunity to enable missions that a larger satellite could not accomplish, such as:
Larger satellites usually use monopropellants or bipropellant combustion rockets for propulsion and attitude control; these systems are complex and require a minimal amount of volume to surface area to dissipate heat. These systems are used on larger microsats, while other micro/nanosats have to use electric propulsion, compressed gas, vaporizable liquids such as butane or carbon dioxide or other innovative propulsion systems that are simple, cheap and scalable.
Microsats can use conventional radio systems in UHF, VHF, the S-band and X-band, although often miniaturized using more up-to-date technology as compared to larger satellites. Tiny satellites such as nanosats and small microsats may lack the power supply or mass for large conventional radio transponders, and various miniaturized or innovative communications systems have been proposed, such a laser receivers, antenna arrays and satellite to satellite communication networks. Few of these have been demonstrated in practice.
Electronics need to be rigorously tested and modified to be "space hardened" or resistant to the outer space environment (vacuum, microgravity, thermal extremes, and radiation exposure). Miniaturized satellites allow for the opportunity to test new hardware with reduced expense in testing. Furthermore, since the overall cost risk in the mission is much lower, more up-to-date but less space-proven technology can be incorporated into micro and nanosats than can be used in much larger, more expensive missions with less appetite for risk.
Manufacturers of microsatellites include SpaceDev, AeroAstro and Surrey Satellite Technology Ltd.
SuitSat, a retired spacesuit fitted with some basic instrumentation and radio transmitting equipment and released into orbit in 2006, was an unconventional example of a low-cost microsatellite test platform.
One reason for miniaturizing satellites is to reduce the cost: heavier satellites require larger rockets of greater cost to finance; smaller and lighter satellites require smaller and cheaper launch vehicles and can sometimes be launched in multiples. They can also be launched 'piggyback', using excess capacity on larger launch vehicles. Miniaturized satellites allow for cheaper designs as well as ease of mass production, although few satellites of any size other than 'communications constellations' where dozens of satellites are used to cover the globe, have been mass produced in practice.
Besides the cost issue, the main rationale for the use of miniaturized satellites is the opportunity to enable missions that a larger satellite could not accomplish, such as:
- Constellations for low data rate communications
- Using formations to gather data from multiple points
- In-orbit inspection of larger satellites.
Classification groups
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3 microsatellites of Space Technology 5
Minisatellite
The term "minisatellite" usually refers to an artificial satellite with a "wet mass" (including fuel) between 100–500 kg (220–1100 lb), though these are usually simply called "small satellites". Minisatellites are usually simpler but use the same technologies as larger satellites.Microsatellite
Microsatellite or "microsat" is usually applied to the name of an artificial satellite with a wet mass between 10 and 100 kg (22–220 lb). However, this is not an official convention and sometimes microsats can refer to satellites larger than that. Sometimes designs or proposed designs of these types have microsatellites working together or in a formation. The generic term "small satellite" is also sometimes used.Nanosatellite
The term "nanosatellite" or "nanosat" is usually applied to the name of an artificial satellite with a wet mass between 1 and 10 kg (2.2–22 lb). Again designs and proposed designs of these types usually have multiple nanosatellites working together or in formation (sometimes the term "swarm" is applied). Some designs require a larger "mother" satellite for communication with ground controllers or for launching and docking with nanosatellites.Picosatellite
Picosatellite or "picosat" is usually applied to the name of an artificial satellite with a wet mass between 0.1 and 1 kg (0.22–2.2 lb). Again designs and proposed designs of these types usually have multiple picosatellites working together or in formation (sometimes the term "swarm" is applied). Some designs require a larger "mother" satellite for communication with ground controllers or for launching and docking with picosatellites. The CubeSat design is an example of a picosatellite.Technical challenges
Micro/nanosats usually require innovative propulsion, attitude control, communication and computation systems.Larger satellites usually use monopropellants or bipropellant combustion rockets for propulsion and attitude control; these systems are complex and require a minimal amount of volume to surface area to dissipate heat. These systems are used on larger microsats, while other micro/nanosats have to use electric propulsion, compressed gas, vaporizable liquids such as butane or carbon dioxide or other innovative propulsion systems that are simple, cheap and scalable.
Microsats can use conventional radio systems in UHF, VHF, the S-band and X-band, although often miniaturized using more up-to-date technology as compared to larger satellites. Tiny satellites such as nanosats and small microsats may lack the power supply or mass for large conventional radio transponders, and various miniaturized or innovative communications systems have been proposed, such a laser receivers, antenna arrays and satellite to satellite communication networks. Few of these have been demonstrated in practice.
Electronics need to be rigorously tested and modified to be "space hardened" or resistant to the outer space environment (vacuum, microgravity, thermal extremes, and radiation exposure). Miniaturized satellites allow for the opportunity to test new hardware with reduced expense in testing. Furthermore, since the overall cost risk in the mission is much lower, more up-to-date but less space-proven technology can be incorporated into micro and nanosats than can be used in much larger, more expensive missions with less appetite for risk.
Manufacturers of microsatellites include SpaceDev, AeroAstro and Surrey Satellite Technology Ltd.
SuitSat, a retired spacesuit fitted with some basic instrumentation and radio transmitting equipment and released into orbit in 2006, was an unconventional example of a low-cost microsatellite test platform.
See also
References
External links
- http://www.edusat.info edusat project
- http://marsnet.jpl.nasa.gov/index.html
- http://www.accessscience.com/ResUpdates/2004/YB_041170_frameset.html?doi
- http://www.alteich.com/tidbits/t121399.htm
satellite is an object which has been placed into orbit by human endeavor. Such objects are sometimes called artificial satellites to distinguish them from natural satellites such as the Moon.
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CubeSat is a type of space research picosatellite with dimensions of 10×10×10 centimetres (i.e., a volume of exactly one litre), weighing no more than one kilogram, and typically using commercial off-the-shelf electronics components.
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Attitude control is control of the orientation of a spacecraft, or other flight vehicle, either relative to the celestial sphere or to a gravitating body influencing its flight path.
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Monopropellants are chemicals or mixtures of chemicals which can be stored in a single container with some degree of safety. While stable under defined storage conditions, they react very rapidly under certain other conditions to produce a large volume of energetic (hot) gasses for
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bipropellant rocket engine is a rocket engine that uses two fluid propellants (very often liquid propellants) which are stored in separate tanks prior to injection into, and undergo a strong exothermic reaction within, a rocket's combustion chamber.
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Combustion or burning is a complex sequence of exothermic chemical reactions between a fuel and an oxidant accompanied by the production of heat or both heat and light in the form of either a glow or flames.
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rocket is a vehicle, missile or aircraft which obtains thrust by the reaction to the ejection of fast moving fluid from within a rocket engine.
The history of rockets goes back to at least the 13th century[1].
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The history of rockets goes back to at least the 13th century[1].
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Butane, also called n-butane, is the unbranched alkane with four carbon atoms, CH3CH2CH2CH3. Butane is also used as a collective term for n
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Carbon dioxide is a chemical compound composed of two oxygen atoms covalently bonded to a single carbon atom. It is a gas at standard temperature and pressure and exists in Earth's atmosphere in this state.
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transponder (short-for Transmitter-responder and sometimes abbreviated to XPDR, XPNDR or TPDR) has the following meanings:
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- An automatic device that receives, amplifies, and retransmits a signal on a different frequency (see also broadcast translator).
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SpaceDev, Inc.
Public (OTCBB: SPDV )
Founded Poway, California (1997)
Headquarters Poway, California
Key people Mark N. Sirangelo, CEO (Principal Executive Officer) and Chairman of the Board of Directors. Richard B.
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Public (OTCBB: SPDV )
Founded Poway, California (1997)
Headquarters Poway, California
Key people Mark N. Sirangelo, CEO (Principal Executive Officer) and Chairman of the Board of Directors. Richard B.
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Surrey Satellite Technology Ltd
Private
Founded 1985
Headquarters Guildford, Surrey
Key people Professor Sir Martin Sweeting , Group Executive Chairman
Dr John Forrest , Deputy Chairman,
Dr Matt Perkins, CEO.
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Private
Founded 1985
Headquarters Guildford, Surrey
Key people Professor Sir Martin Sweeting , Group Executive Chairman
Dr John Forrest , Deputy Chairman,
Dr Matt Perkins, CEO.
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SuitSat (also known as RadioSkaf, Radio Sputnik, and AMSAT-OSCAR 54) is a retired Russian Orlan spacesuit with a radio transmitter mounted on its helmet. SuitSat-1 was deployed in an ephemeral orbit around the Earth on February 3, 2006.
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The Synchronized Position Hold, Engage, Reorient Experimental Satellites (SPHERES) experiment is a testbed consisting of three 8-inch diameter miniaturized satellites that can operate in a variety of environments, including inside the International Space Station (ISS).
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The Canadian Advanced Nanospace eXperiment (CanX) program is only Canadian picosatellite program at present. It is operated by the University of Toronto Institute for Aerospace Studies, Space Flight Laboratory (UTIAS/SFL).
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Satellite formation flying is the concept that multiple satellites can work together in a group to accomplish the objective of one larger, usually more expensive, satellite.[1]
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