A 900 MHz CMOS LC-oscillator with quadrature outputs

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC Pub Date : 1996-02-08 DOI:10.1109/ISSCC.1996.488731

A. Rofougaran, J. Rael, M. Rofougaran, A. Abidi

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引用次数: 618

Abstract

The local oscillator (LO) in a wireless transceiver satisfies many exacting requirements. A variable frequency enables a phase-locked loop (PLL) to servo the LO to a stable lower frequency reference, or to correct frequency errors from measurements on the received signal. A low phase noise ensures little interference with nearby channels. A large LO voltage-swing means that it can drive a mixer with greater linearity. Finally, in single-sideband applications, the LO must supply precise quadrature phases. Low phase noise mandates use of a high-Q resonator to tune the LO, although most RF resonators are usually not integrable on ICs. Quadrature outputs are usually derived from RC phase-shift of a single-phase LO output, but this is susceptible to component inaccuracy and loss in LO amplitude. The authors present a 900 MHz oscillator circuit implemented in 1 /spl mu/m CMOS that affords modestly low-phase noise, has variable frequency with large output swing, and provides quadrature-phase outputs from two identical coupled oscillators, connected in such a way that they exert a mutual squelch when their relative phase is not in quadrature. The coupled oscillators synchronize to exactly the same frequency, in spite of mismatches in their resonant circuits.

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一个900兆赫CMOS lc振荡器与正交输出

无线收发器中的本振(LO)满足许多严格的要求。可变频率使锁相环(PLL)能够将LO伺服到稳定的较低频率参考，或纠正接收信号上测量的频率误差。低相位噪声确保对附近通道的干扰很小。一个大的LO电压摆动意味着它可以驱动一个线性度更高的混频器。最后，在单边带应用中，LO必须提供精确的正交相位。低相位噪声要求使用高q谐振器来调谐本LO，尽管大多数RF谐振器通常不能集成在ic上。正交输出通常来源于单相本相LO输出的RC相移，但这容易受到分量不准确和本相LO振幅损失的影响。作者提出了一种采用1 /spl mu/m CMOS实现的900 MHz振荡器电路，该电路提供适度的低相位噪声，具有可变频率和大输出摆幅，并从两个相同的耦合振荡器提供正交相位输出，当它们的相对相位不正交时，它们以这种方式连接，从而产生相互的静噪。耦合振荡器同步到完全相同的频率，尽管它们的谐振电路不匹配。

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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来源期刊

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC

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