Design of novel high speed dual-modulus prescaler based on new optimized structure

2013 IEEE 10th International Conference on ASIC Pub Date : 2013-10-01 DOI:10.1109/ASICON.2013.6811890
Zheng Sun, Yong Xu, Cheng Hu, G. Ma, Yuanliang Wu, Ying Huang
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引用次数: 1

Abstract

A kind of novel method is discussed to design the high speed prescaler in GHz frequency-hopping PLL frequency synthesizer. The structure of the dual-modulus prescaler (DMP) is optimized and a novel high speed D-latch integrated with multiple-input OR gate is used. The improved structure can make all separated logic gates be integrated with correlative D flip-flops completely. The circuit can work stably and accurately under all kinds of simulation condition such as different process corners. It is fabricated in 0.18μm mixed-signal CMOS technology. The measured results show that the high speed prscaler 's operating frequency range is 2.25~ 2.75GHz in 1.8V power supply, the current consumption is 5.4mA (including buffer) and higher speed and lower power dissipation are obtained.
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基于新型优化结构的新型高速双模预分频器设计
讨论了在GHz跳频锁相环频率合成器中设计高速预分频器的一种新方法。对双模预分频器(DMP)的结构进行了优化,采用了一种集成多输入OR门的高速d锁存器。改进后的结构可以使所有分离的逻辑门与相关的D触发器完全集成。该电路在不同工艺转角等各种仿真条件下均能稳定、准确地工作。采用0.18μm混合信号CMOS工艺制造。测量结果表明,在1.8V电源下,高速滤波器的工作频率范围为2.25~ 2.75GHz,电流消耗为5.4mA(含缓冲器),获得了更高的速度和更低的功耗。
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2013 IEEE 10th International Conference on ASIC
2013 IEEE 10th International Conference on ASIC
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