Modular Common Spacecraft Bus
The Modular Common Spacecraft Bus (MCSB) is a fast-development, low-cost, general purpose spacecraft platform. Its modular design is intended to reduce the cost, complexity, and lead time on missions by providing a reliable, well-characterized system that can carry a variety of payloads. According to NASA, "the spacecraft is roughly one tenth the price of a conventional unmanned mission and could be used to land on the Moon, orbit Earth, or rendezvous with near-Earth objects."[1][2]
NASA's Ames Research Center in Moffett Field, California, designed, developed, built, integrated, tested and controlled the spacecraft.[3]
History
The MCSB supervisor, Alan Weston, obtained from NASA Ames Research Center $4 million in internal funding to get the project started. Using that money, the prototype was built in about 15 months during 2007—2008. The fast concept development time is due in part to the preliminary use of repurposed SCUBA air tanks and an engine that uses cold gas, in place of a conventional rocket engine. This allowed the team to perform indoor flight tests as fast as every 40 minutes in their laboratory, rather than waiting weeks or months for a time slot at an appropriate rocket testing facility.[4] After a flight demonstration to top NASA officials, the system was selected as the bus for the planned Lunar Atmosphere and Dust Environment Explorer (LADEE) mission to the Moon, and the project awarded $80 million for further development and construction.[1] When the team switched to a conventional engine, most of the flight control software was modified at minimum cost.
In October 7, 2014, the MCSB design received the Popular Mechanics 2014 Breakthrough Award for innovation in science and technology.[3]
General description
The modular MCSB spacecraft bus structure has a versatile octagonal shape that can carry up to 50 kg (110 lb) of instruments so long as they can fit inside.[4] The bus is made of a lightweight carbon composite and has the ability to perform on various kinds of missions, including voyages to the Moon and Near-Earth objects, with different modules or applicable systems. This modular concept is an innovative way of transitioning away from custom designs and toward multi-use designs and assembly-line production, which could dramatically reduce the cost of spacecraft development.[2] It can be adapted as an orbiter or a lander.[1]
Power
Electrical power is generated by a photovoltaic system composed of 30 panels of silicon solar cells producing 295 W at one AU. The solar panels are mounted on the satellite's exterior surfaces and the electrical power is stored in one lithium-ion battery providing up to 24 amp-hours of 28-volt power.[5]
Propulsion system
The propulsion system consists of an orbit control system (OCS) and a reaction control system (RCS). The OCS provides velocity control along the +Z axis for large velocity adjustments. The RCS provides three-axis attitude control during burns of the OCS system, and also provides momentum dumps for the reaction wheels which are the primary attitude control system between OCS burns.[6]
On its first flight (LADEE), the bus was equipped with a 455N High Performance Apogee Thruster (HiPAT) main engine. The high efficiency 22N attitude control thrusters are manufactured using high temperature materials and similar to the HiPAT. The main engine provides the majority of the thrust for spacecraft trajectory correction maneuvers. The control system thrusters are used for small maneuvers planned for the science phase of the mission.[5]
Missions
- The system was first flown as the bus for the Lunar Atmosphere and Dust Environment Explorer (LADEE) mission, a successful lunar orbiter launched in September 2013.
- Moon Express, a commercial lunar company participating in the Google Lunar X PRIZE competition, plans on using the MCSB in its MoonEx-1 lander.[7]
- Proposed bus for the 2020 Phobos And Deimos & Mars Environment (PADME) orbiter mission to Mars' moons Phobos and Deimos.
See also
References
- 1 2 3 "Common Spacecraft Bus for Lunar Explorer Missions". NASA. NASA. 2007. Retrieved 2014-10-08.
- 1 2 "LADEE Spacecraft". NASA. Retrieved October 8, 2014.
- 1 2 Brown, Dwayne; Hoover, Rachel (October 7, 2014). "NASA Lunar Mission Wins 2014 Popular Mechanics Breakthrough Award". NASA. Retrieved 2014-10-09.
- 1 2 Rowe, Aaron (May 7, 2008). "Exclusive Video: Meet the Spacecraft That Could Save NASA a Fortune". Wired Science (blog). Retrieved October 8, 2014.
- 1 2 "Press Kit: Lunar Atmosphere and Dust Environment Explorer (LADEE) Launch" (PDF). NASA. August 2013. Retrieved October 8, 2014.
- ↑ "Statement of Work - LADEE Spacecraft Propulsion System". NASA ARC. August 27, 2009. Retrieved October 8, 2014.
- ↑ "Moon Express Technology". Google Lunar X-Prize. November 2010.