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绝热开关
相关语句
  adiabatic switching
     Working Characteristics and Energy Dissipation Analysis of Adiabatic Switching
     绝热开关的工作特性及其能耗分析
短句来源
     Based on the adiabatic switching or energy recovery technique,some master-slave flip-flops including D,SR and JK flip-flops were presented as candidates for low power applications.
     基于绝热开关或能量恢复技术,提出了应用于低功耗系统的主从型绝热D触发器、SR触发器和JK触发器设计.
短句来源
     This paper discusses the adiabatic switching principle in view of changing the mode of energy transmission in CMOS circuits and analyzes how to realize energy recovery.
     本文从改变能量传输方式的观点出发讨论了CMOS电路中的绝热开关原理,并对如何实现能量恢复进行了分析。
短句来源
     Adiabatic charging principle and working characteristics of adiabatic switching is discussed in detail. The computing model of energy dissipation for adiabatic switching is established.
     本文对绝热充电原理以及绝热开关的工作特性进行了详细讨论, 建立了绝热开关的能耗计算模型。
短句来源
     Finally, comprehensively analysis is focussed on the entire adiabatic switching energy dissipation including the drive signals, which is the basis of analyzing complex adiabatic circuit and provides a theory reference for the choice of some parameters in the design of energy recovery circuit.
     文章最后对包括输入激励在内的整个绝热开关的能耗进行了综合分析,它是分析复杂绝热电路的基础并为在设计能量恢复型电路时合理选取有关参数提供了理论依据。
短句来源
  “绝热开关”译为未确定词的双语例句
     Two Types EPAL Adiabatic Logic Circuits
     二种EPAL绝热开关电路
短句来源
     Based on the causation analysis of shortage of PAL-2N circuits,two types of EPAL circuits are proposed.
     研究和设计了两种低功耗的 EPAL (efficient PAL )绝热开关电路 .
短句来源
  相似匹配句对
     Two Types EPAL Adiabatic Logic Circuits
     二种EPAL绝热开关电路
短句来源
     Switch-Signal Theory and Adiabatic CMOS Switching Circuits
     开关信号理论与绝热CMOS电路设计
短句来源
     switches
     电器开关
短句来源
     KILL SWITCH
     杀戮开关
短句来源
     Adiabatic Expansion of Electron Beam
     电子束的绝热展开
短句来源
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  adiabatic switching
The asymptotic conditions for the field operators are used in order to employ only renormalized quantities in quantum electrodynamics and to avoid the usual procedure of adiabatic switching off of the interaction.
      
The method of approximation used is a generalization of standard techniques in the theory of nonlinear differential equations, and does not require adiabatic switching of the interaction.
      
It is shown, discussing the explicit case of further order vacuum polarization, that the adiabatic switching procedure allows a proper treatment of infra-red divergences, without introducing any fictitious photon mass.
      
An adiabatic switching formalism is proposed to bypass the difficulties in defining the spontaneous pair creation in static electromagnetic fields.
      
The problem of the spontaneous pair creation in strong electromagnetic fields is considered in the adiabatic switching formalism.
      
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This paper discusses the adiabatic switching principle in view of changing the mode of energy transmission in CMOS circuits and analyzes how to realize energy recovery. The characteristics of the adiabatic circuits with cross-coupled structures are emphatically analyzed and compared. Based on the PAL circuit, a complementary adiabatic circuit named PAL-1 is proposed.

本文从改变能量传输方式的观点出发讨论了CMOS电路中的绝热开关原理,并对如何实现能量恢复进行了分析。本文重点对具有交叉耦合结构的绝热电路的特性作了分析比较,并在PAL电路的基础上提出了一种与之相补的绝热电路?PAL-1电路。

Adiabatic charging principle and working characteristics of adiabatic switching is discussed in detail. The computing model of energy dissipation for adiabatic switching is established. The PSPICE simulation proves that the proposed computing model is correct. Finally, comprehensively analysis is focussed on the entire adiabatic switching energy dissipation including the drive signals, which is the basis of analyzing complex adiabatic circuit and provides a theory reference for the choice of some parameters...

Adiabatic charging principle and working characteristics of adiabatic switching is discussed in detail. The computing model of energy dissipation for adiabatic switching is established. The PSPICE simulation proves that the proposed computing model is correct. Finally, comprehensively analysis is focussed on the entire adiabatic switching energy dissipation including the drive signals, which is the basis of analyzing complex adiabatic circuit and provides a theory reference for the choice of some parameters in the design of energy recovery circuit.

本文对绝热充电原理以及绝热开关的工作特性进行了详细讨论, 建立了绝热开关的能耗计算模型。PSPICE模拟证明了所提出的计算模型的正确性。文章最后对包括输入激励在内的整个绝热开关的能耗进行了综合分析,它是分析复杂绝热电路的基础并为在设计能量恢复型电路时合理选取有关参数提供了理论依据。

Based on the causation analysis of shortage of PAL-2N circuits,two types of EPAL circuits are proposed.For cascading purpose,four sinusoidal clocks with 90° phase lag are employed.The design method of EPAL circuits is also discussed and the circuits designed by this method are simulated by PSPICE at different clock frequencies and loads using 1.2μm CMOS technology.Simulation results show that functions of EPAL circuits designed by this method are proved correct.For a 5bit shift register,power savings above 80%...

Based on the causation analysis of shortage of PAL-2N circuits,two types of EPAL circuits are proposed.For cascading purpose,four sinusoidal clocks with 90° phase lag are employed.The design method of EPAL circuits is also discussed and the circuits designed by this method are simulated by PSPICE at different clock frequencies and loads using 1.2μm CMOS technology.Simulation results show that functions of EPAL circuits designed by this method are proved correct.For a 5bit shift register,power savings above 80% are achieved by two types of EPAL circuits,compared with PAL-2N circuit at 10MHz,and can reach 23% and 50% respectively at 400MHz.The power dissipations of EPAL circuits are obviously lower than that of PAL-2N homologous circuits.EPAL circuits can work at higher clock frequency and have larger load capacity and slighter distortion of their outputs.

研究和设计了两种低功耗的 EPAL (efficient PAL )绝热开关电路 .这两种电路均采用逐级相位落后 90°的四相正弦功率时钟 .讨论了 EPAL电路的设计方法 ,并在不同时钟频率和不同的负载条件下用 1.2μm的 CMOS工艺参数对所设计的电路进行 PSPICE模拟 .模拟结果表明这两类电路均能完成正确的逻辑功能 .两种 EPAL的五级反相器 /缓冲器电路在功率时钟频率为 10 MHz时都比相应的 PAL - 2 N电路节省 80 %以上的功耗 ,在 4 0 0 MHz时功耗节省也分别可达 2 3%和 5 0 % .EPAL电路可以工作于更高的时钟频率 ,有更强的驱动负载能力和更低的输出波形畸变

 
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