74-dBc SFDR 71-MHz Four-Stage Pipeline ROM-Less DDFS Using Factorized Second-Order Parabolic Equations

Wang Chua-Chin; Lou Pang-Yen; Tsai Tsung-Yi; Shih Hsiang-Yu

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74-dBc SFDR 71-MHz Four-Stage Pipeline ROM-Less DDFS Using Factorized Second-Order Parabolic Equations

机译：74dBc SFDR 71MHz四阶流水线ROM-less DDFS，使用分解式二阶抛物线方程

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In this brief, a four-stage pipeline read only memory (ROM)-less direct digital frequency synthesizer (DDFS) with equal division interpolation is proposed. To attain higher spurious-free dynamic range (SFDR) and faster clock rate, the hardware cost and delay using different segments with various interpolation equations are analyzed systematically to explore the optimal solution. The second-order parabolic equations with proper coefficients and factorized operation orders based on optimized hardware cost and delay are finally utilized to enhance SFDR. The proposed design is demonstrated by the physical implementation using the TSMC 0.18-mu m CMOS technology cell library and on-silicon measurements, where the maximum SFDR is 74 dBc, 0.018-mW/MHz power dissipation, and the maximal clock frequency is 71.9 MHz.

机译：在此简介中，提出了一种具有等分内插的四级流水线式无存储器只读存储器直接数字频率合成器（DDFS）。为了获得更高的无杂散动态范围（SFDR）和更快的时钟速率，系统分析了使用具有不同插值方程的不同段的硬件成本和延迟，以寻求最佳解决方案。最终，利用具有合适系数和基于优化硬件成本和延迟的因式分解运算阶数的二阶抛物方程来增强SFDR。通过使用TSMC0.18-μmCMOS技术单元库和硅上测量的物理实现来证明所建议的设计，其中最大SFDR为74 dBc，0.018-mW / MHz功耗，最大时钟频率为71.9 MHz 。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2019年第10期|2464-2468|共5页
作者
Wang Chua-Chin; Lou Pang-Yen; Tsai Tsung-Yi; Shih Hsiang-Yu;
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Natl Sun Yat Sen Univ Dept Elect Engn Kaohsiung 80424 Taiwan;

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正文语种 eng
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关键词
Direct digital frequency synthesizer (DDFS); frequency synthesizer; parabolic polynomial interpolation; pipeline structure; spurious-free dynamic range (SFDR);

机译：直接数字频率合成器（DDFS）;频率合成器抛物线多项式插值管道结构;无杂散动态范围（SFDR）;

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专利

1. Power-effective ROM-less DDFS Design Approach with High SFDR Performance [J] . Wang Chua-Chin, Sulistiyanto Nanang, Shih Hsiang-Yu, Journal of signal processing systems for signal, image, and video technology . 2020,第2期

机译：具有高SFDR性能的高效节能的无ROM DDFS设计方法
2. A pipelined ROM-less architecture for sine-output direct digitalfrequency synthesizers using the second-order parabolic approximation [J] . Sodagar A.M., Lahiji G.R. IEEE Transactions on Circuits and Systems. II, Express Briefs . 2001,第9期

机译：使用二阶抛物线近似的正弦输出直接数字频率合成器的流水线无ROM架构
3. A ROM-less DDFS Based on a Parabolic Polynomial Interpolation Method with an Offset [J] . Chua-Chin Wang, Chia-Hao Hsu, Chia-Chuan Lee, Journal of VLSI signal processing systems . 2011,第3期

机译：基于偏移量的抛物线多项式插值方法的无ROM DDFS
4. High SFDR Pipeline ROM-less DDFS Design on FPGA Platform Using Parabolic Equations [C] . Chua-Chin Wang, Hsiang-Yu Shih, Wei Wang IEEE International Conference on Solid-State and Integrated Circuit Technology . 2018

机译：使用抛物线方程的FPGA平台上的高SFDR流水线无ROM DDFS设计
5. Geometry and Conservation Laws for a Class of Second-Order Parabolic Equations. [D] . McMillan, Benjamin Blake. 2016

机译：一类二阶抛物方程的几何和守恒律。
6. Erratum to: ‘‘Fine and parabolic limits for solutions of second-order linear parabolic equations on an infinite slab” Trans. Amer. Math. Soc. {f 284} (1984), no. 2, 583–599; MR0743734 (85f:35102) [O] . Bernard Mair 1985

机译：错误到：''对无限平板上的二阶线性抛物线方程解的精细和抛物线限制“Trans。 amer。数学。 SOC。 { bf 284}（1984），没有。 2,583-599; MR0743734（85F：35102）

74-dBc SFDR 71-MHz Four-Stage Pipeline ROM-Less DDFS Using Factorized Second-Order Parabolic Equations

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