锁相环同步可编程分频器设计采用0.18 /spl μ m CMOS技术

The 3rd IEEE International Workshop on System-on-Chip for Real-Time Applications, 2003. Proceedings. Pub Date : 2003-07-22 DOI:10.1109/IWSOC.2003.1213049

Suchitav Khadanga

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引用次数: 10

摘要

在无线通信市场，趋势是朝着更小的尺寸，更少的零件，更长的寿命和更高的频率工作。这些趋势意味着无线通信电路必须具有更高的集成度，其设计和集成电路技术必须针对低功耗和高频系统进行优化。讨论了一种提高可编程分频器频率的创新方法。该方法不仅提高了工作频率，而且降低了电路复杂度和功耗。这种新设计使用同步计数器而不是异步计数器。利用晶体管的渐进尺寸优化了数字门的传输延迟和加载效果。这在频率、功耗和芯片面积等各方面都是更好的配置。

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Synchronous programmable divider design for PLL using 0.18 /spl mu/m CMOS technology

In the wireless communication market, trends are moving towards smaller size, fewer parts, longer lifetime and higher frequency operation. These trends imply that wireless communications circuits must incorporate higher integration and that their design and IC technology must be optimized for low power and high frequency system. One innovative method to increase the frequency of programmable divider is discussed. The new method not only increases the frequency of operation but also decreases circuit complexity and power dissipation. This new design use synchronous counters instead of asynchronous counters. The digital gates are optimized for minimum propagation delay and loading effect using progressive sizing of the transistors. This is better configuration in every aspect in terms of frequency, power dissipation and chip area.

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The 3rd IEEE International Workshop on System-on-Chip for Real-Time Applications, 2003. Proceedings.

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