Paper Abstract and Keywords |
Presentation |
2013-07-05 10:40
A Study on Event-driven Impedance Matching for Short Pulse CAN Tomohiro Takahashi, Daisuke Umehara, Koichiro Wakasugi (Kyoto Inst of Tech.), Shinichi Ishiko, Toshiyasu Tsubouchi (AutoNetworks Tech.) CS2013-26 |
Abstract |
(in Japanese) |
(See Japanese page) |
(in English) |
Controller Area Network (CAN) is a communication standard for in-vehicle networks and is widely employed by a number of vehicle types.
CAN is required to achieve high rate and high multiplexing because in-vehicle devices became high quality.
However, the increase of rate and multiplexing for CAN causes ringing with high amplitude and long duration as compared with the transmission pulse.
To achieve high rate and high multiplexing CAN short pulse line codes which have shorter pulse duration have been proposed by our research group.
However, the short pulse line codes only do not remove the ringing effect so the high accuracy symbol detection is needed.
In this paper, event-driven impedance matching is proposed to achieve higher rate and higher multiplexing CAN.
In this newscript, we analyse the signal waves of the proposed and conventional schemes and show the effectiveness of the proposed scheme for high rate and high multiplexing CAN. |
Keyword |
(in Japanese) |
(See Japanese page) |
(in English) |
CAN / ringing / event-driven impedance matching / short pulse line codes / high rate / high multiplexing / / |
Reference Info. |
IEICE Tech. Rep., vol. 113, no. 114, CS2013-26, pp. 97-102, July 2013. |
Paper # |
CS2013-26 |
Date of Issue |
2013-06-27 (CS) |
ISSN |
Print edition: ISSN 0913-5685 Online edition: ISSN 2432-6380 |
Copyright and reproduction |
All rights are reserved and no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission in writing from the publisher. Notwithstanding, instructors are permitted to photocopy isolated articles for noncommercial classroom use without fee. (License No.: 10GA0019/12GB0052/13GB0056/17GB0034/18GB0034) |
Notes on Review |
This article is a technical report without peer review, and its polished version will be published elsewhere. |
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