然后提出了基于幅度动态补偿和分数内插的相位动态补偿技术来实现对直达波干扰抑制方法;
Second, a solution based on amplitude dynamic compensation and fractional interpolated phase dynamic compensation is introduced.
第一个部分——质量信息采集与集成技术研究主要包括: (1)提出一种基于SVR-FLANN的传感测试系统的智能静态校正与动态补偿方法。
The researches on quality information acquirement and integration techniques included:(1) Intelligent static correction and dynamic compensation of measuring system based on SVR-FLANN were proposed.
利用啁啾光纤光栅的应变调谐技术,通过闭环自动控制色散补偿量的方案,研制出了一种新型的光纤光栅动态色散补偿仪。
A new fiber grating dynamic dispersion compensator is developed by using the stain-tuning technology of the chirped fiber grating and the close-loop controlling scheme.
为解决电视摄像机在连续变焦过程产生光轴线的偏移问题,提出了一种动态软件补偿技术。
To solve the optic axis offset of the TV camera, this article proposed a dynamic software compensation technology in continual focal variation process.
通过比较,重点介绍一种新型低压无功动态补偿装置,其各项技术性能,都优于传统的补偿装置。
Through the comparison, introduced a kind of new-type low-voltage reactive power compensation device and the dynamic performance of the technology and superior to the traditional compensation devices.
色散监测技术是动态色散补偿系统的关键。
Effective monitoring techniques are hearts of the dynamical compensation systems.
测试系统的非线性动态补偿是仪器技术的一个重要方面。
Nonlinear dynamic compensation of measurement systems is an important aspect in the field of instrument technique.
除了机组自身非线性动态外,本文指出控制器约束是系统非线性的另一重要因素,采用一些简单的抗回绕技术可以补偿这种非线性因素。
Despite the nonlinear dynamics, it is shown that the controller constraint is another important factor of system nonlinearities, which can be compensated using some simple antiwindup techniques.
介绍基于高压晶闸管阀的静止型动态无功补偿装置原理、关键技术及在电气化铁路上的应用效果。
It is introduced the principles, critic technology and application effects on electrified railways of the static dynamic passive compensator for high voltage thyristor.
本课题研究开发了基于DSP的SVC(动态静止型无功补偿)控制系统,是嵌入式计算机技术与电力电子技术结合的一个实例。
This topic research and develop SVC (Static Var Compensator) control system based on DSP, was the embeded system computer technology and electric power electronic technology integrate example.
如超长距离输电装置、紧凑型线路、无功动态并联综合补偿技术、大截面耐热导线以及新型安全自动装置等。
For instance, extra long distance implement, tight power line, idle dynamic parallel integrated compensation, big section heat-resistant wire, new-style security automechanism, and so on.
概述了光通信网中动态色散补偿技术。
The techniques of tunable dispersion compensation are discussed in the paper.
经过试验验证,该装置的测量参数准确,动作响应迅速,较好地满足了动态无功补偿的技术要求。
After experiment, the TSC can measure parameters accurately and act rapidly, it matches the dynamic reactive power compensation technology needs.
基于电力电子逆变技术的静止同步无功补偿器(STATCOM)具有动态响应速度快、调节范围广、装置体积小、补偿电流波形品质高等优点,成为无功补偿的发展趋势。
The STATCOM based on the multi-level converter technology becomes a trend with fast dynamic response, extensive range of regulation, smaller volume, and high quality waveform of compensating current.
针对二维振镜存在的聚焦误差问题,根据产生聚焦误差的原理,采用动态聚焦技术补偿聚焦误差。
According to the principle of focusing error for two dimensions laser galvanometer scanning, a dynamic focusing optical model for correcting this error was put forward.
TSC的核心技术是动态无功补偿控制器和晶闸管过零触发模块。
The important parts of the TSC are the dynamic reactive power compensation controller and the thyristor trigger circuit.
提出了数控系统中一种新的指数升降速控制曲线算法-加权补偿法,该算法用加权平均及权值修正技术,解决了数控系统中指数升降速控制曲线不能任意动态调整的难题。
This algorithm USES weighting mean and modified weight to solve the problem of that the exponential curve of acceleration and deceleration could not be dynamical adjusted freely in CNC.
本文在比较各种板厚测量方法的基础上,根据成象原理着重论述了差动式激光三角法测厚技术,讨论了聚先进键和咸象系统结构参数的设计,分析了板材抖动产生的动态测量误差,并提出自动补偿的途径。
The design prameters of focus lens and image system are given, and the dynamic measurement error in vibration of the plate is also analyzed, and the way of its autocompensation is presented.
在此基础上提出了一种基于SVM技术的FLANN构造新方法,并将SVM - FLANN应用到称重传感器的动态补偿上。
A novel construction method for FLANN based on SVM is discussed and applied to dynamical compensation for weighting sensor.
晶闸管投切电容器(TSC)是一种利用晶闸管作为无触点开关的动态无功补偿装置,是静止无功补偿技术的一个重要组成部分。
The thyristor switched capacitor (TSC) is the dynamic reactive power compensation equipment using thyristor as No-contact switch and an important part of the SVC technology.
现场应用动态无功补偿技术后,网络损耗有所减小,发电机输出功率大为降低,达到了节能降耗的目的。
After the applying of the technology, the network loss is decreased and the output power of the generator is lowered greatly, and energy saving with consumption declining is achieved.
SVC无功补偿具有快速、动态、平滑、连续、可正、可负的补偿特性。SVC补偿技术应用在工业节能中能发挥很好的作用。
SVC has fast, dynamic, smooth and continuous compensation characteristics of it also can generate positive and negative reactive power.
SVC无功补偿具有快速、动态、平滑、连续、可正、可负的补偿特性。SVC补偿技术应用在工业节能中能发挥很好的作用。
SVC has fast, dynamic, smooth and continuous compensation characteristics of it also can generate positive and negative reactive power.
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