一种低相位噪声微波蓝宝石环振荡器

D. Green, C. McNeilage, J. Searls
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引用次数: 11

摘要

建立了一个可调谐的10.24 GHz微波振荡器,该振荡器基于蓝宝石负载腔(SLQ)谐振器,工作在“低语走廊”模式下。极低的相位噪声为-130 dBc/Hz @ 1 kHz和-179 dBc/Hz,无需任何形式的降噪。这种水平的性能是由于SLC谐振器的高Q因子以及基于异质结双极晶体管(hbt)并联组合的商用维持放大器的低相位噪声而成为可能的。本文给出了这种基于蓝宝石谐振腔的低相位噪声环振荡器的性能测试结果。SLOOP具有SLC谐振器,与以前的蓝宝石谐振器相比,启动时间显着改善,在工作温度范围0至+55℃内,在2分钟内达到温度锁定
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Low Phase Noise Microwave Sapphire Loop Oscillator
A tuneable 10.24 GHz microwave oscillator based on a sapphire-loaded cavity (SLQ resonator operating in a "whispering gallery"-mode has been built. Extremely low phase noise of -130 dBc/Hz @ 1 kHz and -179 dBc/Hz floor has been measured, without the need for any form of noise reduction. This level of performance is made possible by the high Q factor of the SLC resonator, together with the low phase noise of a commercially-available sustaining amplifier based on a parallel combination of heterojunction bipolar transistors (HBTs). This paper presents the results for the performance of this low phase noise, sapphire resonator based loop (SLOOP) oscillator. The SLOOP has an SLC resonator with a significantly improved start-up time over previous sapphire-based resonators, coming to temperature lock within 2 minutes over the operating temperature range 0 to +55degC
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