detecting power meaning in English
探察能力
Examples
- The software of this device is designed according to module . first it drafts the main block flow chart , then programs subroutine to reach the aim of detecting power theft
设计时对各功能模块电路进行了仿真验证,软件采用模块化的设计方法,对各个子程序模块进行设计和调试,实现窃电的检测和记录。 - According to the principle of lower cost , higher reliability , the design completes much work . the contents of project are as follows : ( 1 ) pic micro - controller which is lower - power and lower price is the core of control device . the whole circuit realizes the functions of collecting pulse , keeping data , driving electric machinery valve , reading and writing ic , detecting power supply , sound alarm and liquid crystal display
设计依据低成本,高可靠性的原则完成了以下工作: ( 1 )用功耗低、价格便宜的pic系列单片机作为控制装置的核心,控制装置的硬件电路实现了脉冲采集、数据存储、电机阀驱动控制、 ic卡读写、电源检测以及声音报警和icd液晶显示等功能。 - Process capability index ( pci ) is also an important method to measure and improve quality , which has play a key role in assuring quality evidence , lowering cost and raising customer satisfaction indexes ( csi ) . this paper studies the applications of pci and control chart from the actual viewpoint , and discusses the applications of the probability a , ( 3 of type i , ii error of the control chart , the detecting power and pci based on x control chart . in addition we explore the relationship between qlf and pci , put forward the concepts of relative loss and loss extent , adopt the linear plan to optimize pci and decide the best loss extent of each process . an example is given
)控制图为例,讨论了控制图的两类错误、检出力与过程能力指数在实际中的应用;重要的是讨论了质量损失与过程能力指数之间的关系,提出了相对质量损失、损失度等概念;研究了多道工序相对质量损失、损失度对总质量损失的影响,并从质量损失的角度出发,采用线性规划的方法,优化多工序的过程能力指数,确定各道工序的最佳损失度,实证讨论了这种关系,同时可以利用这种关系对供应商进行评价,给出了从全局的、动态的角度选择供应商的方法,为上下游企业间的配合、监督及共同进步提供了理论基础和实现途径。 - Single chip needs too much time to calculate and we ca n ' t detect power quality real time for example , and the sampling rate must synchronize the signal frequency . when sample multi - channel signal in turn , it must have time delay between two samplings , so the phase angle difference between each channel signal is ca n ' t be avoid and so on . those problems must be solved
本课题分析了目前电能质量的各种检测方法,认为快速傅氏算法( fft )是首选方法,但是基于定时采样的fft计算会产生频谱泄漏,为了减少这个泄漏需要进行加窗处理,这需要增加采样数据,导致显著增大计算量。