NanoRacks CubeSat Deployer deploying SHARC

The Nanoracks CubeSat Deployer (NRCSD) is a device to deploy

CubeSat A CubeSat is a class of miniaturized satellite based around a form factor consisting of cubes. CubeSats have a mass of no more than per unit, and often use commercial off-the-shelf (COTS) components for their electronics and structure. CubeSats ...

s into orbit from the

International Space Station The International Space Station (ISS) is the largest modular space station currently in low Earth orbit. It is a multinational collaborative project involving five participating space agencies: NASA (United States), Roscosmos (Russia), JAXA ...

(ISS). In 2014, two

deployers were on board the

(ISS): the

Japanese Experiment Module Japanese may refer to: * Something from or related to Japan, an island country in East Asia * Japanese language, spoken mainly in Japan * Japanese people, the ethnic group that identifies with Japan through ancestry or culture ** Japanese diaspor ...

(JEM) Small Satellite Orbital Deployer (J-SSOD) and the

Nanoracks Nanoracks LLC is a private in-space services companywhich builds space hardware and in-space repurposing tools.The company also facilitates experiments and launches of CubeSats to Low Earth Orbit. Nanoracks's main office is in Houston, Tex ...

CubeSat Deployer (NRCSD). The J-SSOD is the first of its kind to deploy small satellites from the

(ISS). The NRCSD is the first commercially operated small satellite deployer from the ISS, maximizing full capabilities of each airlock cycle of deployments. CubeSats belong to a class of research spacecraft called

nanosatellite A small satellite, miniaturized satellite, or smallsat is a satellite of low mass and size, usually under . While all such satellites can be referred to as "small", different classifications are used to categorize them based on mass. Satellites ca ...

s. The basic cube-shaped satellites measure on each side, weigh less than , and have a volume of about , although there are CubeSats which are built and deployed with sizes of multiples of 10 cm in length. , one method of getting CubeSats to

orbit In celestial mechanics, an orbit is the curved trajectory of an object such as the trajectory of a planet around a star, or of a natural satellite around a planet, or of an artificial satellite around an object or position in space such as a p ...

is to

transport Transport (in British English), or transportation (in American English), is the intentional movement of humans, animals, and goods from one location to another. Modes of transport include air, land (rail and road), water, cable, pipeline, an ...

them aboard a larger spacecraft as part of a cargo load to a larger

space station A space station is a spacecraft capable of supporting a human crew in orbit for an extended period of time, and is therefore a type of space habitat. It lacks major propulsion or landing systems. An orbital station or an orbital space station i ...

. When this is done, deploying the CubeSats into orbit as a separate

artificial satellite A satellite or artificial satellite is an object intentionally placed into orbit in outer space. Except for passive satellites, most satellites have an electricity generation system for equipment on board, such as solar panels or radioisoto ...

requires a special apparatus, such as the Nanoracks CubeSat Deployer. The NRCSD is put into position to be grabbed by one of the ISS's robotic arms, which then places the CubeSat deployer into the correct position externally mounted to the ISS to be able to release the miniature satellites into proper orbit.

Background

The

was designed to be used as both a microgravity laboratory, as well as a launch pad for

low Earth orbit A low Earth orbit (LEO) is an orbit around Earth with a period of 128 minutes or less (making at least 11.25 orbits per day) and an eccentricity less than 0.25. Most of the artificial objects in outer space are in LEO, with an altitude never mor ...

services. The Japanese Space Agency's (

JAXA The is the Japanese national air and space agency. Through the merger of three previously independent organizations, JAXA was formed on 1 October 2003. JAXA is responsible for research, technology development and launch of satellites into orb ...

) Kibō ISS module includes a small satellite-deployment system called the J-SSOD.

, via its Space Act Agreement with

NASA The National Aeronautics and Space Administration (NASA ) is an independent agency of the US federal government responsible for the civil space program, aeronautics research, and space research. NASA was established in 1958, succeeding t ...

, deployed a CubeSat using the J-SSOD. Seeing the emerging market demand for CubeSats, Nanoracks self-funded its own ISS deployer, with the permission of both NASA and JAXA. Nanoracks evolved away from the J-SSOD due to the small number of satellites that could be deployed in one airlock cycle and their desire to maximize the capacity of each airlock cycle. The J-SSOD used a full airlock cycle to only launch 6U. The Nanoracks CubeSat Deployer uses two airlock cycles, each holding 8 deployers. Each deployer is capable of holding 6U, allowing a total of 48U per airlock cycle. Deploying CubeSats from ISS has a number of benefits. Launching the vehicles aboard the logistics carrier of ISS visiting vehicle reduces the vibration and loads they have to encounter during launch. In addition, they can be packed in protective materials so that the probability of CubeSat damage during launch is reduced significantly. In addition, for earth observation satellites, such as those of

Planet Labs Planet Labs PBC (formerly Planet Labs, Inc. and Cosmogia, Inc.) is an American public Earth imaging company based in San Francisco, California. Their goal is to image the entirety of the Earth daily to monitor changes and pinpoint trends. The co ...

, the lower orbit of the ISS orbit, at roughly 400 km, is an advantage. In addition, the lower orbit allows a natural decay of the satellites, thus reducing the build-up of orbital debris.

History

JEM Small Satellite Orbital Deployer

The Japanese Experiment Module Small Satellite Orbital Deployer (J-SSOD) is the first of its kind to deploy small satellites from the International Space Station. The facility provides a unique satellite install case to the Japanese Experiment Module (JEM) Remote Manipulator System (RMS) for deploying small, CubeSat, satellites from the ISS. The J-SSOD holds up to 3 small one-unit (1U, 10 x 10 x 10 cm) small CubeSats per satellite install case, 6 in total, though other sizes up to 55 x 55 x 35 cm may also be used. Each pre-packed satellite install case is loaded by crewmembers onto the Multi-Purpose Experiment Platform (MPEP) within the JEM habitable volume. The MPEP platform is then attached to the JEM Slide Table inside the JEM airlock for transfer to the JEMRMS and space environment. The JEMRMS grapples and maneuvers the MPEP and J-SSOD to a predefined deployment orientation and then jettisons the small CubeSat satellites. The MPEP is a platform that acts as an interface between operations inside and outside the ISS, and the J-SSOD mechanism is installed on this platform. On 21 July 2012, JAXA launched the

Kounotori 3 Kounotori 3 ( ja, こうのとり3号機; English: "white stork" ), also known as HTV-3, was the third flight of the Japanese H-II Transfer Vehicle. It was launched on 21 July 2012 to resupply the International Space Station (ISS) aboard the H ...

(HTV-3) cargo spacecraft to the ISS on

Expedition 33 Expedition 33 was the 33rd long-duration expedition to the International Space Station (ISS). It began on 16 September 2012 with the departure from the ISS of the Soyuz TMA-04M spacecraft, which returned the Expedition 32 crew to Earth. Crew ...

. The J-SSOD was a payload on this flight along with five CubeSats that were planned to be deployed by the J-SSOD mounted on the JEMRMS (JEM- Remote Manipulator System), a robotic arm, later in 2012. The five CubeSats were deployed successfully on 4 October 2012 by the JAXA astronaut Akihiko Hoshide using the newly installed J-SSOD. This represented the first deployment service of J-SSOD.

Nanoracks CubeSat Deployer development

In October 2013, Nanoracks became the first company to coordinate the deployment of small satellites (CubeSats/nanosatellites) from the ISS via the airlock in the Japanese Kibō module. This deployment was done by Nanoracks using J-SSOD. Nanoracks' first customer was FPT

Vietnam National University, Hanoi Vietnam National University, Hanoi (VNU; vi, Đại học Quốc gia Hà Nội, ĐHQGHN) is a public research university in Vietnam. The university has 10 member colleges (called "universities") and faculties. VNU is one of two Vietnam's nationa ...

Vietnam Vietnam or Viet Nam ( vi, Việt Nam, ), officially the Socialist Republic of Vietnam,., group="n" is a country in Southeast Asia, at the eastern edge of mainland Southeast Asia, with an area of and population of 96 million, making i ...

. Their F-1

was developed by young engineers and students at FSpace laboratory at FPT Vietnam National University, Hanoi. The mission of F-1 was to "survive" the space environment for one month, measuring temperature and magnetic data while taking low-resolution photos of Earth. In 2013, Nanoracks sought permission from

to develop their own hardware and CubeSat/SmallSat deployer to use over the JEM-Small Satellite Deployer. Nanoracks brought leadership to the American small satellite industry by building a larger deployer capable of deploying 48U of satellites. Nanoracks designed, manufactured, and tested the deployer for NASA and JAXA approval to reach the International Space Station. The Nanoracks CubeSat Deployer was launched on 9 January 2014, on the

Orbital Sciences Orbital Sciences Corporation (commonly referred to as Orbital) was an American company specializing in the design, manufacture, and launch of small- and medium- class space and launch vehicle systems for commercial, military and other governmen ...

Cygnus CRS Orb-1 Orbital-1, also known as Orb-1, was the second flight of the Orbital Sciences Cygnus cargo spacecraft, its second flight to the International Space Station (ISS) and the third launch of the company's Antares launch vehicle. The mission launche ...

mission along with 33 small satellites.

Manufacturing the NRCSD

Quad-M, Inc. developed the CubeSat Deployer to be compliant with the Cal Poly standard. It was redesigned and manufactured to Nanoracks' specification for use on the International Space Station. Quad-M performed an initial design analysis to ensure a compliant design. The structural analysis included a modal analysis to evaluate vibration response, and the thermal analysis included calculations to evaluate different door coating options and an initial transient thermal analysis to estimate. In addition, Quad-M performed development tests for: the door release, the CSD/CubeSat Deployment test, random vibration test, and temperature cycling.

Mission profile

Integrating the CubeSats

CubeSat integration begins with unpacking the CSD from the shipping container and then removing the Base Plate Assembly from the rear of the CSD. Next, the CubeSat is inserted from the rear and is slid up snug against the doors. Additional CubeSats are then inserted from the rear in the same progress. The Base Plate Assembly is then reinstalled. Four jack screws are then adjusted with the Pusher Plate and locked. The Containment Bolt is then removed, and the deployer is packed for shipment.

Orbital Sciences CRS Orb-1

: Launch vehicle: Orbital Sciences Cygnus (Orb-1) : Launch date: 9 January 2014 : Total number of CubeSats: 33 *

: Doves, Flock 1A (28) : Purpose: These 28 3U CubeSats are working to build an Earth-observation constellation based solely on CubeSats. The CubeSats contain batteries that provide power to the various systems in each Dove. Each satellite has an optical telescope for acquiring high-resolution images of Earth. Each satellites uses an X-band system for the downlink of acquired images and systems telemetry at data rates of 120 Mbit/s. *

NanoSatisfi Spire Global, Inc. is a space-to-cloud data and analytics company that specializes in the tracking of global data sets powered by a large constellation of nanosatellites, such as the tracking of maritime, aviation and weather patterns. The comp ...

ArduSat ArduSat is an Arduino based nanosatellite, based on the CubeSat standard. It contains a set of Arduino boards and sensors. The general public will be allowed to use these Arduinos and sensors for their own creative purposes while they are in spac ...

(1) : Purpose: This 2U CubeSat will provide a platform for students and space enthusiasts to run space-based Arduino experiments. This is a follow up of ArduSat-1 launched in November 2013. *

Kaunas University of Technology Kaunas University of Technology (abbreviated as KTU, ) is a public research university located in Kaunas, Lithuania. Established in 1922, KTU has been one of the top centers of Lithuanian science education. According to Lithuanian National Univ ...

: LitSat-1 (1) : Purpose: To use low-cost open-source hardware and software for its flight computers that will control the satellite payload. The CubeSat carries a VGA camera, a GPS receiver, a linear transponder, and an AX-25 packet radio transponder. *

Vilnius University Vilnius University ( lt, Vilniaus universitetas) is a public research university, oldest in the Baltic states and in Northern Europe outside the United Kingdom (or 6th overall following foundations of Oxford, Cambridge, St. Andrews, Glasgow and ...

: LituanicaSAT-1 (1) : Purpose: One of Lithuania's first satellites (together with LitSat-1). This CubeSat is equipped with a low resolution VGA camera, GPS receiver, 9k6 AX25 FSK telemetry beacon, UHF CW beacon, and a 150 mW V/U FM mode voice repeater. The satellite will transmit payload and sensor data images and three Lithuanian words. * Southern Stars: SkyCube (1) : Purpose: This crowd-funded 1.3-kilogram 1U satellites that features deployable solar panels, four cameras, and communication antennas that are used to receive messages from Earth that are then transmitted at pre-determined times. * University of Peru: UAPSat-1 (1) : Purpose: This 1U CubeSat uses body-mounted solar panels for power-generation. It is equipped with a minicomputer, radio transmitters/receivers, a power control module, and a basic attitude control system. The satellite will transmit telemetry data and temperature sensor readings from inside and outside the spacecraft.

Orbital Sciences CRS Orb-2

: Launch vehicle: Orbital Sciences Cygnus (Orb-2) : Launch date: 13 July 2014 : Total number of CubeSats: 32 *

: Doves, Flock 1A (28) : Purpose: These 28 3U CubeSats are working to build an Earth-observation constellation based solely on CubeSats. The CubeSats contain batteries that provide power to the various systems in each Dove. Each satellite has an optical telescope for acquiring high-resolution images of earth. Each satellites uses an X-band system for the downlink of acquired images and systems telemetry at data rates of 120 Mbit/s. *

NASA Ames Research Center The Ames Research Center (ARC), also known as NASA Ames, is a major NASA research center at Moffett Federal Airfield in California's Silicon Valley. It was founded in 1939 as the second National Advisory Committee for Aeronautics (NACA) laborat ...

San Jose State University San José State University (San Jose State or SJSU) is a public university in San Jose, California. Established in 1857, SJSU is the oldest public university on the West Coast and the founding campus of the California State University (CSU) sys ...

TechEdSat Technology Education Satellite (TechEdSat) is a successful nano-sat flight series conducted from the NASA Ames Research Center in collaboration with numerous universities (San Jose State University, University of Idaho, University of California, ...

-4 (1) : Purpose: This satellites uses commercial off-the-shelf components to provide the basic satellites functions such as commanding, power generation and supply, and communications with the other two units of the satellites. The CubeSat will fly and Exo-Brake to orbit that is deployed once the satellite is released to demonstrate a Passive De-Orbit System for satellites. *

MIT Lincoln Laboratory The MIT Lincoln Laboratory, located in Lexington, Massachusetts, is a United States Department of Defense federally funded research and development center chartered to apply advanced technology to problems of national security. Research and dev ...

: MicroMAS: Microsized Microwave Atmospheric Satellite (1) : Purpose: This satellite carries a nine-channel passive microwave radiometer to demonstrate miniaturized radiometer technology in space for application in ultra-compact spacecraft systems such as high performance multi-band sounder for future weather satellites. * GEARSSAAT (1) : Purpose: This satellite is equipped with Globalstar communications terminals that will perform studies involving the Globalstar communications satellite constellation. * Lambda Team: Lambdasat (1) : Purpose: The spacecraft will conduct technical demonstration of the satellite bus in the radiation environment in space and track systems degradation. The satellite also carries and Automatic Identification System (AIS) for tracking sea vessels around the globe, and a science experiment that looks at Graphene in space.

References

{{Reflist, colwidth=30em + International Space Station Space technology