@article{oai:kitami-it.repo.nii.ac.jp:00006569,
author = {田村, 淳二 and 村田, 年昭 and 武田, 郁夫 and 長谷川, 淳 and 藤原, 一},
issue = {2},
journal = {北見工業大学研究報告},
month = {Mar},
note = {application/pdf, The AC Excited Synchronous Machine (AESM) is a rotating machine which has a three-phase winding in the rotor as well as in the stator and does not have any damper windings. The stator and the rotor are excited by three-phase voltages, with a constant frequency and with a certain slip frequency respectively. AESM rotates synchronously at the rotating speed corresponding to this slip. Therefore, although AESM is equivalent to a Super-Synchronous-Sheribius system structurally, it is evidently different from that system in point of synchronous operation. In this paper, the line-to-line sudden short-circuit of AESM is analyzed. First, the basic differential equations for the line-to-line sudden short-circuit of the secondary winding are derived and their approximate solutions are obtained. Next the solutions for the line-to-line sudden short-circuit of the primary winding are derived from the above solutions by transformation of circuit constants.},
pages = {67--78},
title = {交流励磁型同期機の不平衡突発短絡に関する解析 (第1報)* -線間短絡故障-},
volume = {16},
year = {1985}
}