动态电压调节是一种有效的低功耗技术。
Dynamic voltage scaling is an effective low-power technique.
提出了一种编译指导的实时动态电压调节低功耗算法。
In this paper, we implement a compiler-directed realtime dynamic voltage scaling algorithm for low power.
讨论在嵌入式系统中使用动态电压调节技术降低视频解码功耗。
Dynamic voltage scaling is introduced to video decoding in the embedded system in order to reduce the power consumption.
动态电压调节是一种有效的运用于实时嵌入式系统中的低功耗技术。
Dynamic voltage scaling (DVS) is an effective methodology for low power design in real-time embedded systems.
动态电压调节器(以下简称DVR)是解决动态电压问题的有效手段。
Dynamic Voltage Restorer (DVR) is the main effective solution to this kind of problems.
配电系统电压跌落时,动态电压调节器可以维持敏感性设备的电压稳定。
When distribution system voltage drops, dynamic voltage restorer (DVR) can maintain the sensitive load side voltage stability.
电能质量调节装置动态电压调节器(DVR)就是一种应用于输配电系统的电力电子装置。
The dynamic voltage regulator (DVR), one of the power quality conditioners, is a type of power electronic devices used in power transmission &. distribution system.
针对此问题,提出动态电压调节(DVS)和动态功耗管理(dpm)相结合的双效节能延迟调度算法。
An algorithm that combines the dynamic voltage scaling (DVS) and dynamic power management (DPM) is proposed for asynchronous periodic real-time tasks with specif.
利用积分流形模型化简(IMMD)的思想,给出了含动态电压调节器(DVR)配电网络的动态电压分析方法。
Integral manifold model reduction (IMMD) has been applied for the analysis of distribution system with dynamic voltage regulator (DVR) in the paper.
为解决动态电压调节器(DVR)研制中的一类关键问题——耦合变压器激磁涌流问题,对DVR的控制策略进行了研究。
Inrush current is a major problem in the coupled transformer of a dynamic voltage regulator (DVR).
为了解决嵌入式实时系统如何节省电能的问题,针对具有两种运行状态的微处理器提出了最优的动态电压调节(DV S)算法。
The power consumption in real-time embedded systems can be improved with an optimal dynamic voltage scaling(DVS) algorithm for micro-processors with double scalable voltages.
仿真结果表明,该励磁控制系统同时具有较高系统稳定性和电压调节精度,并且动态过程响应快,能更好地适应生产实际的需要。
The simulation results show: the excitation controlling system has the high stability and voltage regulation precision, fast dynamic process response and better adaptability to practical production.
在实际大型电网中的应用结果表明,该优化方法可有效提高大电网电压的动态调节能力,有很好的实际应用前景。
Applying the proposed method to a certain large-scale power grid, results demonstrate that dynamic voltage performance of power system is enhanced greatly.
通过实例计算表明:所提出的系统动态模型对于研究STATCOM动态无功的调节对电力系统电压稳定性的控制作用是有效的。
The calculated result of a example shows: the system dynamic model and analyzing method referred to in this thesis is very effective in studying STATCOM control to electric power system.
机电动态性能由机电-交轴子系统所决定,电压调节性能由直轴子系统所决定。
The mechanic-electrical dynamic performance is determined by q-axis sub-system, and the voltage regulation performance is determined by d-axis sub-system.
其输出信号可用数字电压表,信号调节器,或动态应变仪接示波器记录。
Its output signal can be displayed by digital voltmeter, signal conditioner or dynamic strain amplifier with recorder.
它采用了电压闭环负反馈以及有效的PID调节环节和相应的超前校正环节,能保证很小的失真率和快速的动态响应能力。
The control circuit used very efficient PID modulation and anticipatory control so the power amplifier had little distortion and fast dynamic response.
风电变流器在国产化的过程中也必须要具有低电压穿越、不对称故障下运行的能力和动态无功、有功功率的调节能力。
The wind power converter must possess abilities of Low voltage Ride through (LVRT), available operation with unbalanced voltage fault and adjusting active as well as reactive power.
然后根据交流侧和直流侧的功率平衡方程,推导了电压环的小信号模型。最后基于该模型设计了一种高动态性能的直流电压调节器。
Subsequently, a novel controller for DC bus voltage regulation is put forward according to the small signal model based on the instantaneous power balance in AC and DC sides of three-phase SAPF.
然后根据交流侧和直流侧的功率平衡方程,推导了电压环的小信号模型。最后基于该模型设计了一种高动态性能的直流电压调节器。
Subsequently, a novel controller for DC bus voltage regulation is put forward according to the small signal model based on the instantaneous power balance in AC and DC sides of three-phase SAPF.
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