节能数字电路的四相时钟规则。绝热概念

2011 2nd International Conference on Computer and Communication Technology (ICCCT-2011) Pub Date : 2011-11-10 DOI:10.1109/ICCCT.2011.6075195

Rakesh Kumar Yadav, A. Rana, S. Chauhan, Deepesh Ranka, Kamalesh Yadav

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引用次数: 17

摘要

在低功耗数字电路设计中，采用绝热开关技术可以有效地解决能耗问题。绝热开关技术减少了开关过程中的能量耗散，使负载电容能量得以回收，而不是以热量的形式耗散。但绝热电路高度依赖于功率时钟和参数变化。在时钟规则的帮助下，利用TSPICE仿真设计了绝热技术、2N-2N2P、高效电荷恢复逻辑(ECRL)、正反馈绝热逻辑(PFAL)和时钟绝热逻辑(CAL)的逆变器和逆变器链等数字电路。结果表明，在特定频率范围内，与CMOS电路相比，该电路具有较高的节能效果。

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Four phase clocking rule for energy efficient digital circuits — An adiabatic concept

The energy consumption issue is efficiently addressed by adiabatic switching technique in design of low power digital circuits. Adiabatic switching technique offers the reducing in energy dissipation during switching events and recycling the load capacitance energy instead of dissipated as heat. But adiabatic circuits highly depend upon power clock and parameter variations. With the help of clocking rule, the digital circuits such as inverter and inverter chain are designed for adiabatic techniques, 2N-2N2P, Efficient Charge Recovery Logic (ECRL), Positive Feedback Adiabatic Logic (PFAL) and Clocked Adiabatic Logic (CAL) using TSPICE simulation. The results show high energy savings as compared to CMOS circuits in specified frequency range.

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2011 2nd International Conference on Computer and Communication Technology (ICCCT-2011)

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