Active board concurrent maintenance

Proceedings of IEEE 43rd Electronic Components and Technology Conference (ECTC '93) Pub Date : 1993-06-01 DOI:10.1109/ECTC.1993.346804

S. Makow

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Abstract

Due to the shrinking time allowed for deferred repair of system hardware in an increasing number of customer environments, it became evident that concurrent maintenance was a highly desirable capability. Concurrent maintenance is a method of installing or replacing a circuit card into a functioning, powered board without disrupting any part of the active system. With the appropriate hardware and software, defective cards can be replaced without impacting system operation or availability. When the power connection between a card and board is made, large transient current surges occur in the power distribution system. This creates noise on adjacent card voltage plates and signal lines. This disturbance can be reduced by slowing down and limiting the current surge into a card during a field replacement. This paper reviews the general requirements needed to implement concurrent maintenance in a card on board package. Concurrent maintenance impacts card design, board design, and power system design. However, the key to implementing concurrent maintenance is the design of a multiple pin length connector system.<>

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主控板并发维护

由于在越来越多的客户环境中允许延迟修复系统硬件的时间越来越短，因此并发维护显然是一种非常需要的功能。并行维护是一种将电路卡安装或更换为正常工作的电源板，而不中断有源系统的任何部分的方法。有了适当的硬件和软件，就可以在不影响系统操作或可用性的情况下更换有缺陷的卡。当卡与板之间的电源连接时，配电系统中会产生较大的瞬态浪涌电流。这会在相邻的卡压板和信号线上产生噪声。这种干扰可以通过减缓和限制在现场更换期间进入卡的电流浪涌来减少。本文综述了在卡上包中实现并发维护所需的一般要求。并发维护影响卡设计、电路板设计和电源系统设计。然而，实现并行维护的关键是多引脚长度连接器系统的设计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of IEEE 43rd Electronic Components and Technology Conference (ECTC '93)

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