Radar System Performance Charts

IEEE Transactions on Military Electronics Pub Date : 1965-07-01 DOI:10.1109/TME.1965.4323217

D. K. Barton

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引用次数: 1

Abstract

The fundamental limits to radar performance in search and tracking can be expressed on three charts, in terms of products involving transmitted power, antenna gain, and effective aperture area. Locations of past and present radar systems on these charts disclose evolutionary trends in system design and indicate regions of practical and economic balance between transmitter and antenna complexity, in terms of ratios of power to gain and aperture. The basis of choice for operating frequency is clarified for different applications of radar, such as air surveillance, precision tracking, weapon control, and combinations of these tasks. It is suggested that these historical trends, derived from a large sample of successful radar systems, will furnish a better guide to economic optimization than will empirical cost equations. They are also helpful in comparing diverse approaches to radar system design, and in estimating the dependence of proposed systems upon new component and technique developments. The examples used in this paper are drawn primarily from ground-based radar systems, and serve to clarify the relationships between conventional and phased-array radar systems used for aircraft and missile detection, tracking, and weapon control.

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雷达系统性能图

雷达在搜索和跟踪方面的基本性能限制可以用三个图表来表示，即涉及发射功率、天线增益和有效孔径面积的产品。这些图表上过去和现在雷达系统的位置揭示了系统设计的演变趋势，并指出了发射机和天线复杂性之间实际和经济平衡的区域，就功率增益比和孔径而言。选择工作频率的基础澄清了雷达的不同应用，如空中监视，精确跟踪，武器控制，以及这些任务的组合。有人建议，这些从成功雷达系统的大样本中得出的历史趋势，将比经验成本方程提供更好的经济优化指南。它们也有助于比较雷达系统设计的不同方法，以及估计所提议的系统对新组件和技术发展的依赖性。本文中使用的例子主要来自地面雷达系统，用于澄清用于飞机和导弹探测、跟踪和武器控制的常规雷达系统和相控阵雷达系统之间的关系。

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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IEEE Transactions on Military Electronics

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