NASA's James Webb Space Telescope gets 'SpaceWired'

Oct 25, 2007
NASA's James Webb Space Telescope gets 'SpaceWired'
This is the JWST SpaceWire Protocol and Physical Layer Chips on the Multi-SpaceWire Concentrator Card. Credit: NASA

NASA's James Webb Space Telescope will use a new advanced technology network interface called "SpaceWire" that enables the components on the telescope to work more efficiently and more reliably with each other.

SpaceWire is a standard for high-speed communication links between satellite components. Originally developed by the European Space Agency, SpaceWire has been adopted and improved by a team at the NASA Goddard Space Flight Center in Greenbelt, Md. The James Webb Space Telescope (JWST) Integrated Science Instrument Module (ISIM) and Command and Data Handling (ICDH) engineering team has developed a small and very low power microchip that sends and receives SpaceWire signals at speeds of over 200 mega-bits per second.

The new higher bandwidth from SpaceWire enables the JWST ISIM to support the mission’s science instruments which employ 66 million detector pixels. This is the largest number of pixels ever used on a space telescope, and it will allow JWST to study more of the universe. Handling the large volume of data from these detectors presented a unique challenge for the JWST ICDH team. The development of this new network interface enables the JWST science instruments to realize their full scientific discovery potential, and will permit future NASA mission planners to consider use of more detectors with an even larger number of pixels to see even more of the universe.

"Infusing the SpaceWire-based network interface into the JWST mission enables scientific discovery by allowing the JWST science instruments to operate at very high data collection rates," said Pam Sullivan, Manager of the JWST ISIM.

SpaceWire is a standard for high-speed links and networks for use onboard a spacecraft, easing the interconnection of sensors, mass-memories and processing units. The SpaceWire standard provides many benefits. It helps facilitate the construction of high-performance onboard data handling systems, reduces system integration costs, increases compatibility between data handling equipment and subsystems, and encourages re-use of data handling equipment across several different missions.

To understand the benefit of SpaceWire, you can compare the speed of a dial-up modem to a high-speed broadband Internet connection. SpaceWire connects multiple spacecraft components on super-fast links to get a quicker result.

Goddard’s version of the SpaceWire technology has also dramatically accelerated the development of the JWST instrument electronics. The JWST ICDH team delivered the SpaceWire technology – which is packaged in a digital, low power (1.5W), high speed (66Mbps) Field-Programmable Gate Array (FPGA) computer chip - to JWST partners including prime contractor Northrop Grumman, Lockheed, Jet Propulsion Laboratory (JPL), and the Canadian Space Agency.

As a result of this JWST technology development, other missions are considering SpaceWire include the Lunar Reconnaissance Orbiter and the Geostationary Operational Environmental Satellite-R (GOES-R). SpaceWire is also being used for technology development at other NASA centers including the NASA Glenn Research Center, Cleveland, Ohio; JPL, Pasadena, Calif.; Langley Research Center, Hampton, Va. and the Marshall Space Flight Center, Huntsville, Ala.

The benefit to other missions from using SpaceWire is a lower cost for development, a reduction of development time, better reliability, and an increase in the amount of scientific work that can be achieved within a limited budget.

Commercially, nearly every major aerospace company in the U.S. has been provided with Goddard’s technology either for projects with NASA or other government labs or for evaluation via a 90-day license. Now Goddard’s technology is being distributed free via Software Usage Agreements.

The James Webb Space Telescope is a 21st century space observatory that will peer back more than 13 billion years in time to understand the formation of galaxies, stars and planets and the evolution of our own solar system. It is expected to launch in 2013. The telescope is a joint project of NASA, the European Space Agency and the Canadian Space Agency.

Source: Goddard Space Flight Center

Explore further: How bad can solar storms get?

Related Stories

Recommended for you

How bad can solar storms get?

May 22, 2015

Our sun regularly pelts the Earth with all kinds of radiation and charged particles. How bad can these solar storms get?

Mars rover's ChemCam instrument gets sharper vision

May 22, 2015

NASA's Mars Curiosity Rover's "ChemCam" instrument just got a major capability fix, as Los Alamos National Laboratory scientists uploaded a software repair for the auto-focus system on the instrument.

GOES-R satellite begins environmental testing

May 21, 2015

The GOES-R satellite, slated to launch in 2016, is ready for environmental testing. Environmental testing simulates the harsh conditions of launch and the space environment once the satellite is in orbit. ...

User comments : 0

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.