Time Assignment System and Its Performance aboard the Hitomi Satellite
Abstract
Fast timing capability in X-ray observation of astrophysical objects is one of the key properties for the ASTRO-H (Hitomi) mission. Absolute timing accuracies of 350 micro second or 35 micro second are required to achieve nominal scientific goals or to study fast variabilities of specific sources. The satellite carries a GPS receiver to obtain accurate time information, which is distributed from the central onboard computer through the large and complex SpaceWire network. The details on the time system on the hardware and software design are described. In the distribution of the time information, the propagation delays and jitters affect the timing accuracy. Six other items identified within the timing system will also contribute to absolute time error. These error items have been measured and checked on ground to ensure the time error budgets meet the mission requirements. The overall timing performance in combination with hardware performance, software algorithm, and the orbital determination accuracies, etc, under nominal conditions satisfies the mission requirements of 35 micro second. This work demonstrates key points for space-use instruments in hardware and software designs and calibration measurements for fine timing accuracy on the order of microseconds for mid-sized satellites using the SpaceWire (IEEE1355) network.
Cite
@article{arxiv.1712.01484,
title = {Time Assignment System and Its Performance aboard the Hitomi Satellite},
author = {Yukikatsu Terada and Sunao Yamaguchi and Shigenobu Sugimoto and Taku Inoue and Souhei Nakaya and Maika Murakami and Seiya Yabe and Kenya Oshimizu and Mina Ogawa and Tadayasu Dotani and Yoshitaka Ishisaki and Kazuyo Mizushima and Takashi Kominato and Hiroaki Mine and Hiroki Hihara and Kaori Iwase and Tomomi Kouzu and Makoto S. Tashiro and Chikara Natsukari and Masanobu Ozaki and Motohide Kokubun and Tadayuki Takahashi and Satoko Kawakami and Masaru Kasahara and Susumu Kumagai and Lorella Angelini and Michael Witthoeft},
journal= {arXiv preprint arXiv:1712.01484},
year = {2018}
}
Comments
30 pages, 7 figures, accepted for publication in JATIS (Journal of Astronomical Telescopes, Instruments, and Systems) Hitomi X-ray Special Issue. (To be an open access)