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引用次数: 1
摘要
本文研究了针对4/8/12/16单元相控阵雷达开发的数字波束前结构的设计与实现。该技术采用高性能FPGA处理大量并行复杂算术运算,包括数字下变频和滤波。在60 MHz中频载波上的3MHz回波信号在50 MHz下采样并进行数字下变频,使频谱进入回波信号基带。经过适当的抽取滤波后,将I和Q通道与基于递推最小二乘的优化复权相乘形成部分波束。该原型架构采用流水线和并行技术,在1 μsec内从16元阵列同时产生多个波束。这可以扩展到多个数组。本设计中采用的关键组件是8个16位125 MS/s的adc和一个高性能的Xilinx FPGA器件Virtex-5 FX 130T,该器件具有多个片上资源和150 MHz时钟发生器。
Design and Implementation of Digital Beam Former Architecture for Phased Array Radar
This paper deals with the design and implementation of a digital beam former architecture which is developed for 4/8/12/16 element phased array radar. This technique employs a very high performance FPGA to handle large no of parallel complex arithmetic operations including digital down conversion and filtering. A 3MHz echo signal riding on an IF carrier of 60 MHz is under sampled at 50 MHz and down converted digitally to bring the spectrum to echo signal baseband. After suitable decimation filtering, the I and Q channels are multiplied with Recursive Least Squares based optimized complex weights to form partial beams. The prototype architecture employs techniques of pipelining and parallelism to generate multiple beams simultaneously from a 16 element array within 1 μsec. This can be extended to several number of arrays. The critical components employed in this design are eight 16 bit 125 MS/s ADCs and a very high performance state of the art Xilinx FPGA device Virtex-5 FX 130T having several on-chip resources and 150 MHz clock generators.
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