新型改进型梯形电源无故障绝热逆变电路的数学建模与分析

2016 International Conference on VLSI Systems, Architectures, Technology and Applications (VLSI-SATA) Pub Date : 1900-01-01 DOI:10.1109/VLSI-SATA.2016.7593062

A. Majumder, R. Kaushik

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引用次数: 0

摘要

低功耗电子设备的需求日益增长，迫使研究界思考电路能量回收的方法，从而产生了绝热逻辑。文献中经历了大量的绝热电路，这些电路面临着许多复杂的问题，如故障、噪声和巨大的误差。晶体管的使用导致器件面积的增加。在这项工作中，我们提出了一种新的GFCAL电路模型，将二极管从其原始架构中移除。考虑到梯形电源是绝热电路的一个很好的选择，因为它将对负载电容进行最佳充电，从而使ON路电阻的能量损耗更小，因此提出了采用新逻辑的逆变电路能量的数学模型。采用180nm工艺对电路进行了仿真，并与传统CMOS进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mathematical modeling and analysis of new modified glitch free adiabatic inverter circuit with trapezoidal power supply

The growing demand of low power electronics equipments has forced the research community to think of some methods by which energy of a circuit can be recycled and then adiabatic logic was born. The literature has experienced a numerous number of adiabatic circuits which faces a lot of complication in terms of glitch, noise and huge no. of transistors employed leading to the increase in device area. In this work, we have presented a new model of GFCAL circuit removing the diodes from its original architectures. The mathematical modeling of the energy of inverter circuit employing the new logic has been presented considering a Trapezoidal power supply considering it could be a good option for the adiabatic circuit as it will charge the load capacitor optimally giving lesser energy dissipation in ON path resistance. The simulation of the circuit is done in 180 nm process technology and compared the result with conventional CMOS.

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2016 International Conference on VLSI Systems, Architectures, Technology and Applications (VLSI-SATA)

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