Design method for low-power, low phase noise voltage-controlled oscillators

2007 European Microwave Integrated Circuit Conference Pub Date : 2007-12-26 DOI:10.1109/EMICC.2007.4412683

M. Jankovic, A. Brannon, J. Breitbarth, Z. Popovic

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引用次数: 9

Abstract

This paper presents a design method for voltage controlled oscillators (VCOs) with simultaneous small size, low phase noise, DC power consumption and thermal drift. We show design steps to give good prediction of VCO phase noise and power consumption behavior: (1) measured resonator frequency-dependent parameters; (2) transistor additive phase noise/ noise figure characterization; (3) accurate tuning element model; and (4) bias-dependent model in case of an active load. As an illustration, the design of a 3.4-GHz bipolar transistor VCO with varactor tuning is presented Oscillator measurements demonstrate low phase noise (-40dBc@ 100Hz and better than -lOOdBcfflOkHz) with power consumption on the order of a few milliwatts with a circuit footprint smaller than 0.6cm2. The temperature stability is found to be better than +/-10ppm/degC from -40degC to +30degC. The oscillators are implemented using low-cost off-the-shelf surface-mountable components, including a micro-coaxial resonator. The VCO directly modulates the current of a laser diode and demonstrates a short-term stability 2-10/radictau Bias of clock. when locked to a miniature Rubidium atomic clock.

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低功率、低相位噪声压控振荡器的设计方法

本文提出了一种同时具有小尺寸、低相位噪声、直流功耗和热漂移的压控振荡器(vco)的设计方法。我们展示了能够很好地预测压控振荡器相位噪声和功耗行为的设计步骤:(1)测量谐振器频率相关参数;(2)晶体管加性相位噪声/噪声系数表征;(3)精确调谐元件模型;(4)主动负荷情况下的偏差依赖模型。振荡器测量结果表明，该振荡器具有低相位噪声(-40dBc@ 100Hz，优于-lOOdBcfflOkHz)，功耗仅为几毫瓦，电路占地面积小于0.6cm2。在-40℃至+30℃范围内，温度稳定性优于+/-10ppm/℃。该振荡器采用低成本的现成表面安装组件实现，包括微型同轴谐振器。该压控振荡器可直接调制激光二极管的电流，并具有2-10/根偏压的短期稳定性。当被锁在一个微型铷原子钟上时

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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2007 European Microwave Integrated Circuit Conference

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