A 480MHz ROACH-2 FPGA realization of 2-phase 2-D IIR beam filters for digital RF apertures

2016 Moratuwa Engineering Research Conference (MERCon) Pub Date : 2016-04-05 DOI:10.1109/MERCON.2016.7480126

V. Seneviratne, A. Madanayake, L. Bruton

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引用次数: 2

Abstract

RF antenna array beamforming based on electronically steerable wideband phased-array apertures find applications in communications, radar, imaging and microwave sensing. High-bandwidth requirements for wideband RF applications necessitate hundreds of MHz or GHz frame-rates for the digital array processor. A systolic architecture is proposed for the real-time implementation of the 2-D IIR beam filter. This implementation employs a differential-form polyphase 2-D IIR frequency-planar beam filter, and a corresponding circuit architecture in order to achieve the real-time computation of the input-output 2-D difference equation that defines the RF beam filter. The feasibility of real-time implementation for dense aperture arrays operating in the 0-240 MHz band using a beam filter is explored. The proposed 2-phase sampling scheme per antenna is based on a 2-D IIR polyphase structure. A digital hardware prototype is designed, implemented and tested using a ROACH-2 fitted with a Xilinx Virtex-6 Sx475t FPGA chip and a 32-channel time-interleaved RF data converter, which support 16 antennas using 2-phase time-interleaved sampling at an FPGA clock rate of 240 MHz.

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一种480MHz的FPGA实现用于数字射频孔径的两相二维IIR波束滤波器

基于电子可操纵宽带相控阵孔径的射频天线阵列波束形成在通信、雷达、成像和微波传感中得到了应用。宽带射频应用的高带宽要求需要数字阵列处理器的数百MHz或GHz帧速率。提出了一种用于实时实现二维IIR波束滤波器的收缩结构。该实现采用差分形式多相二维IIR频率平面波束滤波器和相应的电路结构，以实现定义射频波束滤波器的输入-输出二维差分方程的实时计算。探讨了利用波束滤波器实时实现0 ~ 240 MHz频段密集孔径阵列的可行性。提出了基于二维IIR多相结构的天线两相采样方案。采用Xilinx Virtex-6 Sx475t FPGA芯片和32通道时间交错射频数据转换器，设计、实现和测试了一个数字硬件样机，该转换器支持16个天线，采用2相时间交错采样，FPGA时钟速率为240 MHz。

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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2016 Moratuwa Engineering Research Conference (MERCon)

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