![]() Vaya Space's Dauntless (1000+ kg LEO 600+ kg SSO).Ĭompanies offering smallsat launch vehicles include: In particular, the secondary payload paradigm does not provide the specificity required for many small satellites that have unique orbital and launch-timing requirements. Small satellite launch vehicle Īlthough smallsats have traditionally been launched as secondary payloads on larger launch vehicles, a number of companies currently are developing or have developed launch vehicles specifically targeted at the smallsat market. Small satellite examples include Demeter, Essaim, Parasol, Picard, MICROSCOPE, TARANIS, ELISA, SSOT, SMART-1, Spirale-A and -B, and Starlink satellites. ![]() The term "small satellite", or sometimes "minisatellite", often refers to an artificial satellite with a wet mass (including fuel) between 100 and 500 kg (220 and 1,100 lb), but in other usage has come to mean any satellite under 500 kg (1,100 lb). Three microsatellites of Space Technology 5 Small satellites The smaller satellites are deemed to be harder for an enemy to target, as well as providing more resilience through redundancy in the design of a large distributed network of satellite assets. The office of space acquisition and integration said in January 2023 that "the era of massive satellites needs to be in the rear view mirror for the Department of Defense" with small satellites being procured for DoD needs in all orbital regimes, regardless of "whether it’s LEO MEO or GEO" while aiming for procurements in under three years. Department of Defense, which has for decades procured heavy satellites on decade-long procurement cycles, is making a transition to smallsats in the 2020s. īy mid-2015, many more launch options had become available for smallsats, and rides as secondary payloads had become both greater in quantity and easier to schedule on shorter notice. Įuropean analyst Euroconsult projects more than 500 smallsats being launched in 2015–2019 with a market value estimated at US$7.4 billion. This rose to 34 launched in 2012 and 92 launched in 2013. In the 1–50 kg range alone, fewer than 15 satellites were launched annually in 2000 to 2005, 34 in 2006, then fewer than 30 launches annually during 2007 to 2011. Development activity in the 1–50 kg (2.2–110.2 lb) range has been significantly exceeding that in the 50–100 kg (110–220 lb) range. The nanosatellite and microsatellite segments of the satellite launch industry have been growing rapidly in recent years. ![]() Testing or qualifying new hardware before using it on a more expensive spacecraft.In-orbit inspection of larger satellites.Using formations to gather data from multiple points.Constellations for low data rate communications.Miniaturized satellites allow for cheaper designs and ease of mass production.Īnother major reason for developing small satellites is the opportunity to enable missions that a larger satellite could not accomplish, such as: They can also be launched 'piggyback', using excess capacity on larger launch vehicles. In contrast, smaller and lighter satellites require smaller and cheaper launch vehicles and can sometimes be launched in multiples. One rationale for miniaturizing satellites is to reduce the cost heavier satellites require larger rockets with greater thrust that also have greater cost to finance. Technical challenges in the construction of small satellites may include the lack of sufficient power storage or of room for a propulsion system. Miniature satellites, especially in large numbers, may be more useful than fewer, larger ones for some purposes – for example, gathering of scientific data and radio relay. Satellites can be built small to reduce the large economic cost of launch vehicles and the costs associated with construction. While all such satellites can be referred to as "small", different classifications are used to categorize them based on mass. A small satellite, miniaturized satellite, or smallsat is a satellite of low mass and size, usually under 1,200 kg (2,600 lb).
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