Optical switching for automated test systems

Proceedings, IEEE AUTOTESTCON Pub Date : 2002-12-10 DOI:10.1109/AUTEST.2002.1047885

M. Bitting

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引用次数: 6

Abstract

The proliferation of optical technology in the commercial telecom arena has driven the need to develop cost effective fiber optic component test systems with high throughput rates. As more and more optical technology makes its way into military systems the needs are increasing for general-purpose optical test systems to meet these diverse requirements as well. An understanding of the optical performance parameters of optical switches is needed to design optimal optical switch based test systems for measurement of both active and passive optical component performance. The advantages of using optically switched test architectures to increase productivity, provide greater measurement accuracy and to lower overall test equipment investment are numerous. The general availability of optical switches that meet the required performance parameters, enable the development of cost effective flexible test systems and embedded monitoring systems that can support a wide range of requirements. This paper explores some of the uses of optical switches in test, measurement, and embedded monitoring applications. Optical switch system design options and performance tradeoffs are also discussed in detail. A comparison of modular with stand-alone optical switches is discussed with regard to cost and functionality.

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用于自动测试系统的光交换

随着光学技术在商业电信领域的普及，人们需要开发具有高吞吐率的高成本效益的光纤组件测试系统。随着越来越多的光学技术进入军事系统，对通用光学测试系统的需求也在增加，以满足这些不同的要求。为了设计最优的基于光开关的测试系统来测量有源和无源光器件的性能，需要了解光开关的光学性能参数。使用光开关测试架构来提高生产率、提供更高的测量精度和降低整体测试设备投资的优点很多。满足所需性能参数的光开关的普遍可用性，使开发具有成本效益的灵活测试系统和嵌入式监控系统能够支持广泛的要求。本文探讨了光开关在测试、测量和嵌入式监控应用中的一些用途。并详细讨论了光交换系统的设计方案和性能权衡。讨论了模块化光开关与独立光开关在成本和功能方面的比较。

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, IEEE AUTOTESTCON

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