A Spur-Free Low-Complexity Hybrid Nested Bus-Splitting/SP-MASH Digital Delta-Sigma Modulator

2020 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS) Pub Date : 2020-12-08 DOI:10.1109/APCCAS50809.2020.9301657

Tieu-Khanh Luong, Hong-Hanh Hoang, Hoang-Anh Nguyen-Minh, C. D. Bui, Son Bui, Trung‐Kien Nguyen

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Abstract

Digital Delta-Sigma Modulators (DDSMs) are widely used in integrated circuits for wireless communications, particularly in fractional-N frequency synthesizers and oversampled digital-to-analog converters (DACs). A large bus-width is often required to have fine frequency resolution especially in 5G, which causes a high hardware complexity. A nested bus-splitting DDSM has advantages of potential speed and compact area over the conventional DDSMs, and hence reduces hardware complexity thanks to its smaller bus width. However, this architecture still suffers from spurious tones, especially in the case of constant or periodic inputs. In this work, an SP-MASH architecture has been embedded into a nested bus-splitting DDSM to overcome the spur problem. The synthesis result by Synopsys Design Compiler using TSMC 28 nm CMOS standard cell shows that the advantage of hardware cost was preserved while the spur-free performance was achieved by this hybrid scheme. Its function and effectiveness was also successfully verified with Xilinx Virtex UltraScale+ field-programmable-gate-array (FPGA).

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无杂散低复杂度混合嵌套总线分割/SP-MASH数字Delta-Sigma调制器

数字δ - σ调制器(dddms)广泛应用于无线通信集成电路中，特别是在分数n频率合成器和过采样数模转换器(dac)中。特别是在5G中，通常需要较大的总线宽度以获得良好的频率分辨率，这导致硬件复杂性很高。与传统的DDSM相比，嵌套总线分割DDSM具有潜在的速度和紧凑的面积优势，并且由于其更小的总线宽度，因此降低了硬件复杂性。然而，这种结构仍然受到杂散音调的影响，特别是在恒定或周期性输入的情况下。在这项工作中，SP-MASH架构被嵌入到一个嵌套的总线分割DDSM中，以克服支线问题。采用台积电28纳米CMOS标准晶片的Synopsys Design Compiler合成结果表明，该混合方案在保持硬件成本优势的同时，实现了无杂散性能。Xilinx Virtex UltraScale+现场可编程门阵列(FPGA)也成功验证了其功能和有效性。

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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2020 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS)

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