一种考虑延迟时间匹配条件的CMOS倍频器

2007 International Symposium on Information Technology Convergence (ISITC 2007) Pub Date : 2007-11-23 DOI:10.1109/ISITC.2007.9

Sujin Seo, Y. Jeong, J. Kenney

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引用次数: 8

摘要

本文采用台积电0.18 CMOS技术设计了一种将1.15 GHz输入信号转换为2.3 GHz输出信号的倍频器。提出的倍频器由完全可调施密特触发器(FAST)、延时元件、异或门和压控延迟线(VCDL)组成。延时元件采用RC积分器和比较器。该拓扑结构具有基频和谐波抑制效果好、结构紧凑、功耗低等优点。在2.3 GHz时期望的信号是0.871 dBm。基频为1.15 GHz，三次谐波为3.45 GHz，比2.3 GHz信号低约37 dBc。4.6 GHz处的四次谐波频率比2.3 GHz信号低约24 dBc。功耗为11.07 mW，在10khz偏置时输出信号的相位噪声为100.5 dBc/Hz。

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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A Modified CMOS Frequency Doubler Considering Delay Time Matching Condition

In this paper, a frequency doubler is designed that converts from 1.15 GHz input signal to 2.3 GHz output signal using TSMC 0.18 CMOS technology. The proposed doubler consist of a fully adjustable Schmitt trigger (FAST), time-delay components, XOR gate and a voltage controlled delay line (VCDL). Time-delay components use RC integrator and comparator. Advantages of this topology include good fundamental frequency and harmonic frequency suppression, compact layout and low power consumption. The desired signal at 2.3 GHz is 0.871 dBm. The fundamental frequency at 1.15 GHz and third harmonic frequency at 3.45 GHz approximately 37 dBc below the 2.3 GHz signal. The fourth harmonic frequency at 4.6 GHz is approximately 24 dBc below the 2.3 GHz signal. The power consumption is 11.07 mW and the phase noise of the output signal is 100.5 dBc/Hz at 10 KHz offset.

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来源期刊

2007 International Symposium on Information Technology Convergence (ISITC 2007)

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