高速分频器的相位降噪

2006 IEEE Dallas/CAS Workshop on Design, Applications, Integration and Software Pub Date : 2006-10-01 DOI:10.1109/DCAS.2006.321039

Rahul Prakash, Siraj Akhtar, Poras T. Balsaral

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引用次数: 5

摘要

最大工作频率、接近输出载波频率的相位噪声特性和工作时的功耗是分频器的主要参数。由于这些参数是相互关联的，设计优化涉及到它们之间的权衡。提出了一种新的基于差分d锁存器的蜂窝收发器低相位噪声分频器拓扑。给出了分频器的优化设计过程，讨论了影响分频器相位噪声和高频特性的各种现象。采用65nm CMOS设计的分频器最大输入频率为11.8 GHz，相位噪声水平为153.3 dBc/Hz，偏移量为20 MHz。它消耗11 mA的平均电流，而工作在8 GHz的标称频率

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Phase Noise Reduction in High Speed Frequency Divider

Maximum operating frequency, phase noise characteristics close to output carrier frequency and power consumption during operation are major parameters of a frequency divider. Since these parameters are interrelated, design optimization involves tradeoffs among them. A new differential D-latch based topology for a low phase noise frequency divider for cellular transceivers is presented. An optimization process for the design of frequency divider is given and various phenomena that dominate phase noise and high frequency behavior of the frequency dividers are discussed. The proposed divider designed using 65 nm CMOS has a maximum input frequency of 11.8 GHz with phase noise level of 153.3 dBc/Hz at an offset of 20 MHz. It consumes 11 mA average current while operating at a nominal frequency of 8 GHz

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2006 IEEE Dallas/CAS Workshop on Design, Applications, Integration and Software

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