通过MOS晶体管网络耦合的两个差分振荡器的6 ghz阵列的设计与实现

2013 IEEE 20th International Conference on Electronics, Circuits, and Systems (ICECS) Pub Date : 2013-12-08 DOI:10.1109/ICECS.2013.6815334

D. Mellouli, H. Mnif, D. Cordeau, M. Loulou, J. Paillot

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引用次数: 1

摘要

在过去的十年中，耦合振荡器作为微波天线阵列中相位控制的简单方法已经显示出它们的效率，因此可以替代传统的电子束转向方法。本文描述了一种全单片耦合振荡器阵列的设计和实现，工作频率为6 GHz，采用0.25 μm BICMOS SiGe工艺。提出了一种新颖的基于MOS晶体管的差分振荡器耦合方法。在2.5 V电源电压下，耦合振荡器阵列的功耗仅为62.5 mW，在6.01 GHz载波的1 MHz频偏下，模拟相位噪声为-124.8 dBc/Hz，在-84°<范围内连续变化;Δ□<;84°和-96°<;Δ□<;96°。

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Design and implementation of a 6-GHz array of two differential oscillators coupled through a MOS transistor network

During the past decade, coupled oscillators have shown their efficiency as simple methods for phase control in microwave antenna arrays, and hence as alternatives to conventional electronic beam steering methods. This paper describes the design and the implementation of a fully monolithic coupled-oscillator array, operating at 6 GHz in 0.25 μm BICMOS SiGe process. A novel and original method, based on the use of a MOS transistor, for coupling the differential oscillators is developed and presented. At 2.5 V power supply voltage, and a power dissipation of only 62.5 mW, the coupled oscillators array features a simulated phase noise of -124.8 dBc/Hz at 1 MHz frequency offset from a 6.01 GHz carrier, giving a simulated phase progression that was continuously variable over the range -84 ° <; Δ□ <; 84 ° and -96° <; Δ□ <; 96°.

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来源期刊

2013 IEEE 20th International Conference on Electronics, Circuits, and Systems (ICECS)

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