5G毫米波大带宽信号内插器设计与实现
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1.中北大学 太原 030051; 2.中电科思仪科技(安徽)有限公司 蚌埠 233010

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TN929.5

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中国电科集团专项创新基金(41F1365)项目资助


Design and implementation of 5G millimeter wave large bandwidth signal interpolator
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1.North University of China,Taiyuan 030051, China; 2.Ceyear Technologies (Anhui) Co., Ltd., Bengbu 233010, China

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    摘要:

    5G无线通信毫米波频段因其具有大带宽、高速率的特点成为未来移动通信领域的研究方向。然而,在毫米波频段下信号发生器的需实现不同大小信号带宽的配置。针对这问题,本文设计了一种快速FIR滤波器与多相内插器相结合的并行内插结构,能够扩大5G毫米波信号发生器的发射带宽范围且具有插值效率高,功耗低、资源占用率低等优势。通过仿真及优化后实验验证结果表明,在不影响解调结果情况下,本文所提内插结构相比传统4路并行4倍内插器,快速FIR内插器DSPs的使用减少了25%,LUT的使用减少了15.2%,DSPs的功耗减少了23.8%,满足了系统资源占用率低以及低功耗的实际需求,成果已应用于国产5G基站综测仪中。

    Abstract:

    The millimeter-wave frequency band of 5G wireless communication has become the research direction of the future mobile communication field because of its large bandwidth and high speed. However, in the millimeter wave frequency band, the signal generator needs to realize the configuration of different signal bandwidths. In response to this problem, this paper designs a parallel interpolation structure combining a fast FIR filter and a polyphase interpolator, which can expand the transmission bandwidth range of the 5G millimeter-wave signal generator, and has high interpolation efficiency, low power consumption, and low resource consumption. Advantages such as low occupancy rate. The experimental verification results after simulation and optimization show that, without affecting the demodulation results, the interpolation structure proposed in this paper reduces the use of fast FIR interpolator DSPs by 25% compared with the traditional 4-channel parallel 4-times interpolator. The use of LUTs is reduced by 15.2%, and the power consumption of DSPs is reduced by 23.8%, which meets the actual needs of low system resource occupancy and low power consumption. The results have been applied to domestic 5G base station comprehensive testers.

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安宇宁,刘祖深,江丹.5G毫米波大带宽信号内插器设计与实现[J].电子测量技术,2022,45(24):29-35

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  • 在线发布日期: 2024-03-08
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