完美磁耦合超低损耗变压器在标准RFCMOS技术中的实现

2005 IEEE Conference on Electron Devices and Solid-State Circuits Pub Date : 2005-12-19 DOI:10.1109/EDSSC.2005.1635300

Yo‐Sheng Lin, Hsiao-Bin Liang, Yan-Ru Tzeng

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引用次数: 6

摘要

在本文中，我们使用标准混合信号/射频CMOS(或BiCMOS)技术提出了一种具有近乎完美磁耦合因子(kIM ~ 1)的单匝多层交错堆叠变压器结构。以单匝六层交错堆叠变压器为例，验证了该结构。报告了变压器的质量因子(Q-factor)、kIm、电阻耦合因子(kRe)、最大可用功率增益(GAmax)和最小噪声系数(NFmin)性能的温度依赖性(从-25°C到175°C)。在室温下，在5.2 GHz和8 GHz频段分别实现了最先进的GAmaxof 0.762和0.904(即nfmin1.181 dB和0.437 dB)，这主要归功于完美的磁耦合因子和高电阻耦合因子。本文的分析有助于射频工程师设计超低压高性能变压器反馈lna和vco，以及其他包含变压器的射频集成电路。

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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Implementation of Perfect-Magnetic-Coupling Ultra-Low-Loss Transformer in Standard RFCMOS Technology

In this paper, we propose a single-turn multiple-layer interlaced stacked transformer structure with nearly perfect magnetic-coupling factor (kIM∼ 1) using standard mixed-signal/RF CMOS (or BiCMOS) technology. A single-turn six-layer interlaced stacked transformer was implemented to demonstrate the proposed structure. Temperature dependence (from -25 °C to 175°C) of the quality-factor (Q-factor), kIm, resistive-coupling factor (kRe), maximum available power gain (GAmax), and minimum noise figure (NFmin) performances of the transformer are reported. State-of-the-art GAmaxof 0.762 and 0.904 (i.e. NFminof 1.181 dB and 0.437 dB) have been achieved at 5.2 GHz and 8 GHz, respectively, at room temperature, mainly due to the perfect magnetic-coupling factor and the high resistive-coupling factor. The present analysis is helpful for RF engineers to design ultra-low-voltage high-performance transformer-feedback LNAs and VCOs, and other RF-ICs which include transformers.

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来源期刊

2005 IEEE Conference on Electron Devices and Solid-State Circuits

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