低功耗、高速、宽分频比范围可编程分频器的设计

2020 IEEE 5th International Conference on Integrated Circuits and Microsystems (ICICM) Pub Date : 2020-10-23 DOI:10.1109/ICICM50929.2020.9292273

Zhen Chen, Youming Zhang, Xusheng Tang, Junjie Li, F. Huang, N. Jiang

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引用次数: 2

摘要

提出了一种采用0.18\ \mu\ mathm {m}$ SiGe工艺设计的低功耗、高速、宽分频比范围可编程分频器。该电路由4/5双模预分频器、5位减法计数器和控制逻辑组成。D触发器与逻辑门的组合有效地降低了传输延迟，提高了双模预分频器的工作频率。将脉冲计数器和燕子计数器合二为一，减小了芯片面积。采用一种新颖的控制逻辑，允许S值等于0，从而降低最小分频比。整个分频器由TSPC(真单相时钟)D触发器和互补的CMOS逻辑门组成，没有静态功耗。仿真结果表明，该可编程分频器最大工作频率为4.7 GHz，连续分频比范围为16 ~ 159，最大工作频率为1.8 V电源电压时的功耗为5.9 mA。

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Design of Low Power Consumption, High-Speed and Wide Division Ratio Range Programmable Frequency Divider

A low power consumption, high-speed and wide division ratio range programmable frequency divider designed in 0.18\ \mu\mathrm{m}$ SiGe process is presented. The circuit consists of 4/5 dual-modulus prescaler, 5-bit subtraction counter and control logic. The combination of D flip-flops and logic gates effectively reduces the transmission delay and improves the operating frequency of the dual-modulus prescaler. The pulse counter and the swallow counter are merged into one, which reduces the chip area. A novel control logic is adopted to reduce the minimum frequency division ratio by allowing the S value equal to 0. The whole frequency divider is composed of TSPC (true-single-phase-clocked) D flip-flops and complementary CMOS logic gates without static power consumption. The simulation results indicate that the programmable frequency divider has a 4.7 GHz maximum operating frequency, and achieves a continuous division ratio range from 16 to 159, with a power consumption of 5.9 mA at 1.8 V supply voltage at the maximum operating frequency.

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2020 IEEE 5th International Conference on Integrated Circuits and Microsystems (ICICM)

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