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.
空闲时间利用是动态电压升降的有效途径。
Slack Utilization has been proven efficient in dynamic voltage scaling (DVS).
动态电压恢复器是改善电压质量的一种有力工具。
Dynamic voltage Restorer is a powerful equipment to improve the voltage quality.
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.
直流侧电压平衡是级联型动态电压恢复器的关键问题。
DC voltage balance is the key issues of cascaded dynamic voltage restorer.
提出基于最优控制和最优滤波的动态电压恢复器控制策略。
A control strategy based on optimal control and optimal filter for dynamic voltage restorer was proposed.
动态电压调整(DVS)技术是软件节能技术的另一种形式。
Dynamic voltage scaling (DVS) is an another effective technology form through software saving power energy.
该文提出了基于线电压补偿的三相动态电压补偿器拓扑结构。
Dynamic Voltage Regulator (DVR) based on the line voltage compensating (LVC) is proposed in the present paper.
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.
动态电压恢复器(DVR)是目前补偿电压凹陷最为有效的装置。
Dynamic voltage Restorer (DVR) is considered as the most effective device to compensate the voltage sag.
本文在延拓算法基础上利用小扰动分析法进行动态电压稳定性研究。
Based on the continuation algorithm, this paper investigates the dynamic voltage stability using small signal analysis method.
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.
动态电压恢复器(DVR)是解决暂态电能质量问题的一种有效途径。
Dynamic voltage restorer (DVR) is an effective solution for transient power quality problems.
因此,本文针对级联型多电平拓扑结构的动态电压恢复器进行了研究。
So, the cascaded multilevel topology based dynamic voltage restorer is researched in this paper.
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.
动态电压缩放技术(DVS)是一种有效的减低处理器能耗的节能技术。
Dynamic voltage scaling (DVS) is an effective technology to reduce processor's power consumption.
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.
摘 要简述电力系统动态电压稳定时域仿真分析的方法、步骤及其优缺点。
This paper makes a brief introduction to the method, procedures, advantages and disadvantages of time domain simulation analysis on dynamic voltage stability of electric power system.
本论文建立了剪式微喷的结构理论模型,分析了在动态电压作用下端部的变形;
The theoretical model of shear mode micro jet is established and the edge displacement under dynamic driving voltage is analyzed .
快速、准确地检测出系统电压跌落的特征量是动态电压恢复器运行的前提条件。
For the operation of dynamic voltage restorer, fast and exact detection of voltage sag characteristics is very important.
电压补偿量的检测是影响动态电压恢复器(DVR)实时性和补偿精度的关键环节。
The detection of voltage compensation is the key factor influencing its real-time performance and compensation accuracy of DVR (Dynamic voltage Restorer).
实验结果表明,样机能够准确的记录、测量动态电压事件和特征量,满足设计要求。
The experiment results demonstrate that the prototype can accurately log dynamic voltage events and measure characteristic quantity, which meets the design requirements.
基于粒子群优化算法(PSO),提出一种求解含动态电压安全约束的预防控制新方法。
A particle swarm optimization (PSO) technique based novel approach for solving the dynamic voltage security constrained preventive control problem is proposed.
动态电压恢复器(DVR)通过向配电系统中串入一个电压源来保障用户端的电压质量。
The principle of Dynamic Voltage Restorer (DVR) is to ensure the customer's power quality with a series voltage source.
动态电压恢复器(DVR)作为一种重要的用户电力装置,受到国内外研究者的广泛关注。
Dynamic voltage restorer (DVR) has been considered to be a cost effective custom power device and has attracted much research attention recently.
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.
本文介绍了电网概况,分析了电网运行中存在的弱阻尼、动态电压支撑能力不足等主要问题。
Here, the general situation of South China power grid is introduced and the main problems in this grid such as weak damping and inadequate dynamic voltage supporting ability, etc.
直流电容器上所存储的能量大小直接决定了动态电压恢复器(DVR)对电压跌落补偿的能力。
The energy stored in DC capacitor decides the compensation performance of DVR(Dynamic Voltage Restorer) on voltage sag.
串联结构使动态电压恢复器的电压源型变换器工作于逆变状态给飞轮充电,进一步简化了结构。
In series topology, the voltage source converter of the DVR was utilized to charge the FES as a inverter which futher simplified the structure.
对小扰动下感应电动机的动态电压稳定性进行了仿真,并运用其负荷特性对仿真结果进行了分析。
Simulation of dynamic voltage stability of induction motor in the context of small disturbances and analyses of the simulation results with its load characteristics.
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