Mr. Jeffrey L. Janicik Profile

Jeffrey L. Janicik

at Innoflight Inc

SPIE Involvement:

Author

Proceedings Article | 8 December 2003 Paper

CHIPSat spacecraft design: significant science on a low budget

Jeffrey Janicik, Jonathan Wolff

Proceedings Volume 5164, (2003) https://doi.org/10.1117/12.512521

KEYWORDS: Space operations, Sensors, Sun, Magnetic sensors, Solar cells, Commercial off the shelf technology, Telecommunications, Satellites, Electronics, Internet

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The Cosmic Hot Interstellar Plasma Spectrometer satellite (CHIPSat) was launched on January 12, 2003 and is successfully accomplishing its mission. CHIPS is NASA’s first-ever University-Class Explorer (UNEX) project, and is performed through a grant to the University of California at Berkeley (UCB) Space Sciences Laboratory (SSL). As a small start-up aerospace company, SpaceDev was awarded responsibility for a low-cost spacecraft and mission design, build, integration and test, and mission operations. The company leveraged past small satellite mission experiences to help design a robust small spacecraft system architecture. In addition, they utilized common industry hardware and software standards to facilitate design implementation, integration, and test of the bus, including the use of TCP/IP protocols and the Internet for end-to-end satellite communications. The approach called for a single-string design except in critical areas, the use of COTS parts to incorporate the latest proven technologies in commercial electronics, and the establishment of a working system as quickly as possible in order to maximize test hours prior to launch. Furthermore, automated ground systems were combined with table-configured onboard software to allow for "hands-off" mission operations. During nominal operations, the CHIPSat spacecraft uses a 3-axis stabilized zero-momentum bias "Nominal" mode. The secondary mode is a "Safehold" mode where fixed "keep-alive" arrays maintain enough power to operate the essential spacecraft bus in any attitude and spin condition, and no a-priori attitude knowledge is required to recover. Due to the omnidirectional antenna design, communications are robust in “Safehold” mode, including the transmission of basic housekeeping data at a duty cycle that is adjusted based on available solar power. This design enables the entire mission to be spent in "Observation Mode" with timed pointing files mapping the sky as desired unless an anomalous event upsets the health of the bus such that the spacecraft system toggles back to "Safehold". In all conditions, spacecraft operations do not require any time-critical operator involvement. This paper will examine the results of the first six months of CHIPSat on-orbit operations and measure them against the expectations of the aforementioned design architecture. The end result will be a "lessons learned" account of a 3-axis sun-pointing small spacecraft design architecture that will be useful for future science missions.

Proceedings Article | 24 February 2003 Paper

Status of the Cosmic Hot Interstellar Plasma Spectrometer (CHIPS) university-class explorer project

Mark Hurwitz, Robert Davis, Simon Dawson, Patricia Dobson, William Donakowski, Assi Friedman, Geoffrey Gaines, Jerry Edelstein, Richelieu Hemphill, Jane Hoberman, Jeffrey Janicik, Patrick Jelinsky, Michael Lampton, Wiliam Marchant, Mario Marckwordt, Jareb Mirczak, Timothy Sasseen, Michael Sholl, Oswald Siegmund, Martin Sirk, David Stone, Steven Sulack, Ellen Riddle Taylor, Michael Veno, Jonathan Wolff

Proceedings Volume 4854, (2003) https://doi.org/10.1117/12.459823

KEYWORDS: Sensors, Space operations, Plasma, Spectroscopy, Microchannel plates, Calibration, Spectrographs, Extreme ultraviolet, Iron, Photons

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Conference Committee Involvement (4)

Sensors and Systems for Space Applications IV

25 April 2011 | Orlando, Florida, United States

Space Missions and Technologies

5 April 2010 | Orlando, Florida, United States

Sensors and Systems for Space Applications III

14 April 2009 | Orlando, Florida, United States

Sensors and Systems for Space Applications II

17 March 2008 | Orlando, Florida, United States

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