Role of transient/surge suppressors in a typical airborne system. A case study

Proceedings of the International Conference on Electromagnetic Interference and Compatibility Pub Date : 1900-01-01 DOI:10.1109/ICEMIC.1999.871627

D. Suryanarayana, K. Nageswara Rao

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Abstract

The increased use of electronic circuitry in the present warfare scenario, demands sophisticated systems with higher density integrated circuits with more accuracy and compact size. As the sophistication/complexity of the system increases their "transient vulnerability" also goes up. Most of the semiconductor devices and other sensitive electronic equipment are easily damaged with transients of high amplitude with fast rise time, with threshold energy levels in the range of microjoules and millijoules, originating from inductive switching loads, nuclear EMP, lightning EMP and ESD. Hence, it is very essential to protect the airborne systems from these "unanticipated change in voltages" (transients), by hardening the system input power supply lines, I/O data and communication lines utilizing various transient suppression techniques. In this paper the author discusses various transient suppression techniques to make the system immune to transients and also some of the practical EMI problems (transient related) are analyzed and solved during the EMI/EMC performance evaluation of electronic systems.

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瞬态/浪涌抑制器在典型机载系统中的作用。案例研究

在当前的战争场景中，电子电路的使用越来越多，需要具有更高密度集成电路的复杂系统，具有更高的精度和更紧凑的尺寸。随着系统复杂性的增加，它们的“瞬态脆弱性”也随之增加。大多数半导体器件和其他敏感电子设备都容易受到高振幅、上升时间快、阈值能级在微焦耳和毫焦耳范围内的瞬态损伤，这些瞬态来自感应开关负载、核EMP、雷电EMP和ESD。因此，通过利用各种瞬态抑制技术强化系统输入电源线路、I/O数据和通信线路，保护机载系统免受这些“电压意外变化”(瞬态)的影响是非常重要的。本文讨论了各种暂态抑制技术，使系统免受暂态的影响，并分析和解决了电子系统在电磁干扰/电磁兼容性能评估中的一些实际问题(与暂态有关)。

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 the International Conference on Electromagnetic Interference and Compatibility

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