Hot-Swap Technology of High Availability Grade Based on CPCI Bus

doi:10.3969/j.issn.1009-086x.2018.02.003

Modern Defense Technology ›› 2018, Vol. 46 ›› Issue (1): 11-18.DOI: 10.3969/j.issn.1009-086x.2018.02.003

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Hot-Swap Technology of High Availability Grade Based on CPCI Bus

LI Zheng-tian¹, JING Bin¹, GAO Shao-jie², LUO Yue¹, WANG Yu-jiao¹, TIAN Fu-qiang¹

1. Beijing Institute of Electronic System Engineering,Beijing 100854,China;
2. Military Representative Office of PLA in the 2nd Research Academy of CASIC,Beijing 100854,China

Received:2017-08-30 Revised:2017-11-15 Online:2018-02-28 Published:2020-11-25

CPCI总线下高可用等级热切换技术研究

李正天¹, 景斌¹, 高少杰², 罗悦¹, 王玉姣¹, 田福强¹

1.北京电子工程总体研究所,北京 100854;
2.中国人民解放军驻航天二院中心军代表室,北京 100854

作者简介:李正天(1989-),男,黑龙江哈尔滨人。工程师,硕士,研究方向为发射控制技术。通信地址:100854 北京市142信箱30分箱 E-mail:lizhengtian@buaa.edu.cn

Abstract

Abstract: The bus architecture of compact peripheral component interconnect (CPCI) has been gaining immense popularity in the area if aerospace test since its establishment by PCI industrial computer manufacturer's group (PICMG). High availability (HA) system allows measurement and control system to reduce the mean-time-to-repair (MTTR) effectively and improve the mean time between critical failures (MTBCF). CPCI bus structure is taken as an example to demonstrate a perfectly developed design schemes through discussion and research. With the way to improve the power management, the underlying design can support the HA level hot swap and hot backup function, which is possible for the measurement and control system to meet the urgent need for enhancing reliability and maintainability of the system.

Key words: hot swap, bus high availability level, power management, CPCI(compact peripheral component interconnect) bus

摘要： CPCI总线结构标准自发布至今已广泛应用于航天测控领域,而热切换技术的进一步研究,可有效减少测控系统平均维修时间,提高系统任务可靠性。以CPCI总线结构为基础,通过讨论与研究给出一套完整的改进设计方案,以改进电源管理控制底层设计为途径,使测控系统具备高可用等级热切换功能,从而满足增强系统可靠性与维修性的迫切需求。

关键词: 热切换, 高可用等级, 电源管理控制, CPCI总线

CLC Number:

TJ760.6

LI Zheng-tian, JING Bin, GAO Shao-jie, LUO Yue, WANG Yu-jiao, TIAN Fu-qiang. Hot-Swap Technology of High Availability Grade Based on CPCI Bus[J]. Modern Defense Technology, 2018, 46(1): 11-18.

李正天, 景斌, 高少杰, 罗悦, 王玉姣, 田福强. CPCI总线下高可用等级热切换技术研究[J]. 现代防御技术, 2018, 46(1): 11-18.

References

[1] 郭东文,金勇.CompactPCI热插拔原理与实现[C]//测控技术编辑部.第十二届全国青年通信学术会议,2007,8:259-262.
GUO Dong-wen,JIN Yong.Principle and Implementation of Compact-PCI Hot-Swap [C]//Editorial Department of Measurement and Control Technology.Conference of the Twelfth National Youth Academic Communication,Aug.2007:259-262.
[2] Satish KDhawan.Introduction to PCI Express-A New High Speed Serial Data Bus[C]//IEEE: Nuclear Science Symposium Conference Record,2005:687- 691.
[3] 李惺,钱跃国,靳丽,等.热插拔控制器在直流升压电路中的设计应用[J].现代电子技术,2013,36(23): 165-167.
LI Xing,QIAN Yue-guo,JIN Li,et al.Design and Application of Hot-Swap Controller in DC Boost Circuit [J].Modern Electronic Technology,2013,36(23):165-167.
[4] VINOGRADOV V I.Advanced High-Performance Computer System Architectures [J].Nuclear Instruments and Methods in Physics Research A,2007,571(1):429-432.
[5] 程赓.基于Compact PCI的实时系统交换平台设计[D].武汉: 华中科技大学,2004.
CHENG Geng.Design of Real Time System Switching Platform based on Compact PCI[D].Wuhan: Huazhong University of Science and Technology,2004.
[6] Pawel Predki,Dariusz Makowski.Hot-Plug Based Activation and Deactivation of ATCA FRU Devices[C]//16th International Conference: Mixed Design of Intergraded Circuits and Systems.June 25-27,2009,Poland:119-122.
[7] 吴蓉.热插拔控制芯片的研究[D].杭州: 浙江大学,2005.
WU Rong.Research on Hot-Swap Control Intergraded Circuits [D].Hangzhou:Zhejiang University,2005.
[8] 席志红,范宝军.VxWorks下Compact PCI热插拔的原理与实现[J].电子科技,2013,26(6):28-30.
XI Zhi-hong,FAN Bao-jun.The Principle and Implementation of Compact PCI Hot Swap in VxWorks System[J].Electronic Technology,2013,26(6):28-30.
[9] 刘毅.一种低压热插拔控制芯片的设计[D].武汉: 华中科技大学,2006.
LIU Yi.Design of a Low Voltage Hot-Swap Control Intergraded Circuits[D].Wuhan: Huazhong University of Science and Technology,2006.
[10] 许川佩,胡德国.CompactPCI/PXI总线的热插拔技术研究及其实现[J].电子设计,2008,11(2):305-307.
XU Chuan-pei,HU De-guo.Research and Implementation of Hot-Swap Technology Based on Compact PCI/PXI Bus[J].Journal of Electronic Design,2008,11(2):305-307.
[11] 赵海波,张进明,王真.CompactPCI热插拔技术的研究及其实现[J].计算机测量与控制,2005,13(4):378-379.
ZHAO Hai-bo,ZHANG Jin-ming,WANG Zhen.Research and Implementation of Compact PCI Hot-Swap Technology[J].Journal of Computer Measurement and Control,2005,13(4):378-379.
[12] PICMG 2.11 R1.0,Compact PCI Hot Swap Specification,Jan.2000[S].
[13] LI Hao-chen,QIU Kai-jin.The Design and Implementation of CPCI Based Video Data Transmission Interface Hot Swap Board[C]//International Conference on Computational Intelligence and Industrial Engineering,2015:481-489.
[14] LI Shao-yu,WANG Xiao-hong,LI Chun-sheng.Design and Implementation of Analog Channel Control Circuit based on CPCI Bus[C]//Computational Sciences and Optimization (CSO),2011 Fourth International Joint Conference,Nov.2011:846-848.
[15] CHEN Yi,David Ki-wai.A Hot-Swap Solution for Paralleled Power Modulars by Using Current-Sharing Interface Circuits[J].IEEE: Transactions on Power Electronics,2006,21(6): 1564-1571.
[16] Andrew J Kornecki,Janusz Zalewski,EYASSU D.Learning Real-Time Programming Concepts through VxWorks Lab Experiments[C]//13th Conference on Software Engineering Education & Training,2000:1-3.

Hot-Swap Technology of High Availability Grade Based on CPCI Bus

CPCI总线下高可用等级热切换技术研究

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