基于直接耦合通管的脉冲触发触发器的节能设计

2015 International Conference on Technological Advancements in Power and Energy (TAP Energy) Pub Date : 2015-06-24 DOI:10.1109/TAPENERGY.2015.7229610

P. K. Pal, A. Singh, M. Pattanaik

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引用次数: 3

摘要

提出了一种基于直接耦合通晶体管(DCPT)的高性能、高能效隐式脉冲触发触发器。这种方法直接将输入D耦合到触发器的输出Q，以减轻最坏情况下的延迟。它减少了输入到输出的行程路径，从而减少了D-to-Q延迟和功耗。它还包括一个额外的NMOS锁存器设计，以减少交叉电流。采用SAED90nm CMOS技术，在25°C温度下，电源电压为1V，得到了仿真结果。它工作在500MHz时钟频率。通过这种技术，所提出的隐式脉冲触发器的D-to-Q延迟提高了2%，功率延迟积提高了22%。

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Energy efficient design of direct coupled pass transistor based pulse triggered flip-flop

This paper presents a high performance, energy efficient implicit pulsed triggered flip flop based on direct coupled pass transistor (DCPT) approach. This approach directly couple input D to output Q of the flip flop to alleviate the worst case delay. It reduces input to output travelled path hence reduces D-to-Q delay and power consumption. It also includes an extra NMOS for latch designing to reduce the crossbar current. The simulation results presented are obtained by using SAED90nm CMOS technology with supply voltage 1V at 25°C temperature. It operates at 500MHz of clock frequency. By this technique it improves D-to-Q delay by 2% and power-delay-product by 22% for the proposed implicit pulsed flip flop.

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来源期刊

2015 International Conference on Technological Advancements in Power and Energy (TAP Energy)

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