Delta-sigma noise shaping in 2D spacetime for uniform linear aperture array receivers

2016 Moratuwa Engineering Research Conference (MERCon) Pub Date : 2016-04-05 DOI:10.1109/MERCON.2016.7480125

Suranga Handagala, A. Madanayake, L. Belostotski, L. Bruton

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引用次数: 9

Abstract

A multi-dimensional noise-shaping method based on delta-sigma modulation has been proposed. This method extends delta-sigma modulation into the two-dimensional (2-D) case (space, time). The proposed noise-shaping method employs lossless discrete integrators for realization in microwave and mm-wave array processing systems. The paper shows that 2-D noise-shaping reduces the spectral overlap of a desired array signal with that of noise. By reducing the overlap of the ROSs, 2-D filtering can be used to improve the overall noise figure of the array receiver. A noise figure improvement of 2.6 dB could be simulated for a 4-times spatially over-sampled array with 65 simulated elements for an input signal to noise ratio of 10 dB and LNA noise figure of 5 dB. Simulation results based on wideband signals on 33, 65, 129 and 257 element antenna arrays with 2, 4 and 8 times oversampling show the potential capability of the proposed system in improving overall noise figure. Although mathematical modeling shows potential improvements in receiver noise figure, RF integrated circuit realizations are challenging and have not been attempted yet.

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均匀线性孔径阵列接收机二维时空的δ - σ噪声整形

提出了一种基于δ - σ调制的多维噪声整形方法。该方法将δ - σ调制扩展到二维(2-D)情况下(空间，时间)。提出的噪声整形方法采用无损离散积分器在微波和毫米波阵列处理系统中实现。本文表明，二维噪声整形可以减少期望阵列信号与噪声信号的频谱重叠。通过减少ROSs的重叠，二维滤波可以改善阵列接收机的整体噪声系数。在输入信噪比为10 dB、LNA噪声系数为5 dB的情况下，采用4次空间过采样、65个模拟元件的阵列，可模拟噪声系数提高2.6 dB。基于宽带信号的33、65、129和257元天线阵列2倍、4倍和8倍过采样的仿真结果表明，该系统具有改善整体噪声系数的潜力。虽然数学模型显示了接收机噪声系数的潜在改进，但射频集成电路的实现是具有挑战性的，尚未尝试过。

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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