半导体光电, 2018, 39 (6): 806, 网络出版: 2019-01-10  

边沿触发器亚稳态现象的实验观测

Experimental Observation of Metastable Phenomena of Edge Triggered Flip Flops
作者单位
1 中国空间技术研究院 通信卫星事业部, 北京 100094
2 四川大学 电子信息学院, 成都 610064
摘要
在跨时钟域数据传输中, 常因违反触发器的建立时间和保持时间要求而产生亚稳态现象, 导致数据误码。为对亚稳态发生过程进行直观观测, 利用所搭建的亚稳态观测平台, 在建立时间区域对TTL维持阻塞型集成边沿触发器74LS74芯片和CMOS传输门型集成边沿触发器74HC74芯片分别进行了误码测试。测试结果表明, 两芯片性能接近, 在建立时间0.9~1.6ns区间存在0%~100%误码过渡带, 能观测亚稳态过程的直观波形。测试过程中, 发现触发器输入电平上跳变时, 误码率在以上区间存在稳定的单调变化曲线。当触发器输入电平下跳变时, 误码率会从0%瞬变到100%, 实验未观测到过渡带。输入下跳变时, 当延迟参量单向递增或递减时, 瞬变区域不一样, 存在回差现象。
Abstract
In cross-clock data transmission, metastable phenomena often occur due to violation of the setup time and hold time of flip-flops, resulting in bit error. In order to observe the metastable process directly, it uses the metastable observation platform to test the bit error of TTL block holding integrated edge flip-flop 74LS74 chip and CMOS transmission gate integrated edge flip-flop 74HC74 chip in setup time domain. Test results show that the performance of the two chips is close, and there is a 0%~100% BER transition band in the setup time of 0.9~1.6ns, in which the visual waveform of metastable process can be observed. It is found that there is a stable monotonic variation curve of BER in the above range when the input level of trigger jumps up. When the input level of the flip-flop jumps down, the BER changes from 0% to 100% instantaneously, and the transition zone cannot be observed. When the input jumps down and the delay parameter increases or decreases in one direction, the transient region will be different and presents a backlash phenomenon.

侯凤妹, 李长安, 赵刚. 边沿触发器亚稳态现象的实验观测[J]. 半导体光电, 2018, 39(6): 806. HOU Fengmei, LEE Changan, ZHAO Gang. Experimental Observation of Metastable Phenomena of Edge Triggered Flip Flops[J]. Semiconductor Optoelectronics, 2018, 39(6): 806.

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