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绝热电路
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  adiabatic circuit
     Although the 4 phase power clock is simpler,the DSCRL adiabatic circuit still shows good performance and high efficiency of energy transfer and recovery. This conclusion has been proved by the result of the HSPICE simulation using the 0 6μm CMOS technology.
     这种新型的功率时钟用于DSCRL绝热电路后 ,该电路仍然保持了其能量恢复的高效性 ,同时还降低了电路设计的复杂性 ,这一结论已被文中的HSPICE模拟结果证明 .
短句来源
     Because all adiabatic combination circuits have a feature of sequential circuits,the best structure of adiabatic circuit is able to merge input and output into a complete sequential circuit with memory,which consists of master flip flops set and slave flip flops set,including output slave flip flops and feedback slave flip flops.
     认为整体绝热电路结构最好融合输入、输出电路和记忆电路、时序电路为一体 ,由主触发器集合和从触发器集合相互连接构成 ,其中含有输出和反馈从触发器 .
短句来源
  adiabatic circuits
     The characteristics of the adiabatic circuits with cross-coupled structures are emphatically analyzed and compared.
     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?
短句来源
     To design a low-power timer,an adiabatic flip-flop is designed using the clocked transmission gate adiabatic logic circuit. Based on an analysis of the timer structure on the C54_X,a new design scheme of an adiabatic timer is presented using the theory of three essential circuit elements for adiabatic circuits and the characteristics of the clocked transmission gate adiabatic logic circuit and its adiabatic flip-flop.
     为了设计低功耗定时器,首先利用钟控传输门绝热逻辑电路设计绝热触发器,然后在分析C54X的定时器结构基础上,利用绝热电路三要素理论,结合钟控传输门绝热逻辑电路及其绝热触发器的特性,提出绝热定时器的设计新方案。
短句来源
     The effect on circuit performance due to the floating output in PAL and PAL 1 circuits is analyzed,with the emphasis on the importance of eliminating floating output in the design of adiabatic circuits.
     分析了 PAL 及 PAL- 1电路中输出悬空对电路性能的影响 ,强调在绝热电路设计中消除悬空输出的重要性 .
短句来源
     Design of Adiabatic Timer Based on Three Essential Circuit Elements for Adiabatic Circuits
     基于绝热电路三要素理论的绝热定时器设计
短句来源
     Universal Circuits Theory for Binary,Multiple-Value and Adiabatic Circuits
     二值、多值和绝热电路通用的电路理论
短句来源
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  adiabatic logic
     To design a low-power timer,an adiabatic flip-flop is designed using the clocked transmission gate adiabatic logic circuit. Based on an analysis of the timer structure on the C54_X,a new design scheme of an adiabatic timer is presented using the theory of three essential circuit elements for adiabatic circuits and the characteristics of the clocked transmission gate adiabatic logic circuit and its adiabatic flip-flop.
     为了设计低功耗定时器,首先利用钟控传输门绝热逻辑电路设计绝热触发器,然后在分析C54X的定时器结构基础上,利用绝热电路三要素理论,结合钟控传输门绝热逻辑电路及其绝热触发器的特性,提出绝热定时器的设计新方案。
短句来源
     On this basis,a new nMOS complementary pass-transistor adiabatic logic (nCPAL) is presented,which uses nMOS transistors only.
     在此基础上提出了一种仅由nM O S构成的低功耗绝热电路——nM O S Com p lem en tary Pass-trans istor A d iabaticLog ic(nCPAL)。
短句来源
  “绝热电路”译为未确定词的双语例句
     With MOSIS 0.25 μm CMOS process parameters, the SPICE si mulations demonstrate that the TGAL atta ins energy savings of over 80% and 60%, respectively compared to the static CMOS and the 2N 2N2P logic at 100 MHz operat ion frequency.
     应用 MOSIS的0 .2 5 μm CMOS工艺参数的模拟结果表明 ,与传统 CMOS和 2 N-2 N2 P绝热电路相比 ,TGAL电路在 1 0 0 MHz工作频率时分别节省 80 %与 60 %以上的功耗。
短句来源
     Stability Condition of Adiabatic Memorial Unit and Adiabatic Synchronous Sequential Circuits in Three-phase-clock
     绝热电路稳定性和三时钟绝热同步时序电路
短句来源
     Bootstrapped partially-adiabatic circuits
     采用自举技术的不完全绝热电路
短句来源
     Then many adiabatic ratioless dynamic flip-flops are composed of two adiabatic ratioless dynamic latches, for example D or T' flip-flop of 6 MOS transistors and D flip-flop with AND-NOR-inputs of 9 MOS transistors, in which there is no phenomenon of information disappearing rapidly after receiving one in capacitors.
     绝热无比型动态触发器利用电容接收和保存信息,避免目前绝热电路中电容上的信息得而复失的现象,其中绝热D和T’触发器只用6管,带‘与或非’输入的绝热D触发器只用9管。
短句来源
     A partially-adiabatic circuit, the bootstrap energy recovery logic (BERL), was developed to reduce energy losses in low power applications in large-scale integrated circuit.
     为了大规模集成电路的低能耗应用,提出了一种不完全绝热电路——自举能量回收逻辑电路(bootstrapenergyrecoverylogic,BERL)。
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  adiabatic circuit
To compare the performance of this adiabatic circuit, we developed two non-adiabatic designs with static CMOS logic.
      
  adiabatic circuits
Moreover, it isstill unclear whether adiabatic circuits of significant sizeand complexity can achieve substantial savings in energy dissipationover corresponding conventional designs.
      
Adiabatic circuits are based on traditional CMOS technology that achieve ultra low power loss due to reversibility.
      
Although adiabatic circuits consume zero power theoretically, they show nonzero power consumption due to resistance in switching the transistor.
      
First, in the adiabatic circuits, switchings occur with the minimum voltage drop across devices.
      
In adiabatic circuits, energy dissipation is kept low by maintaining low voltage drops across conducting devices.
      
更多          
  adiabatic logic
A design philosophy of universal adiabatic logic gates is framed.
      
A computer simulation is carried out to investigate the power consumption of major quasi-adiabatic logic gates.
      
Design of two-phase sinusoidal power clock and clocked transmission gate adiabatic logic circuit
      
Then the design of the new adiabatic logic circuit adopting the two-phase sinusoidal power clocks-Clocked Transmission Gate Adiabatic Logic (CTGAL) circuit is presented.
      
Despite the plethoraof adiabatic logic architectures that have been proposed in recentyears, several practical considerations in the design of nontrivialadiabatic circuits remain largely unexplored.
      
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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。

The effect on circuit performance due to the floating output in PAL and PAL 1 circuits is analyzed,with the emphasis on the importance of eliminating floating output in the design of adiabatic circuits.Two novel complementary adiabatic circuits without floating output are proposed.PSPICE simulation proves that these circuits can realize the energy recovery effectively and their output levels are clamped during the entire output valid time.

分析了 PAL 及 PAL- 1电路中输出悬空对电路性能的影响 ,强调在绝热电路设计中消除悬空输出的重要性 .提出了两种新的结构互补且无悬空输出的绝热电路 .PSPICE模拟证明它们能有效实现能量恢复 ,并使输出信号在整个有效输出期始终处于箝位状态

 
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