摘要
介绍了一种基于数字闭环修正技术的故障重现放大装置,包括其硬件结构和软件流程。该装置将数字闭环修正技术应用于故障重现放大,并采用自适应模糊智能控制算法,用反馈采样数据对故障信号源进行修正,克服了目前同类装置诸如功率放大器、继电保护测试装置等输出波形非线性失真严重的缺点,从而增强了故障重现放大装置的实用性。
This paper presents the construction of hardware and flow chart of software of an obstacle recurrence and amplification device (ORAD) based on the digital closed-loop modification technology. The digital closed-loop modification technology is creatively applied to the process of the obstacle recurring and amplifying. In addition, the obstacle source data is accurately modified by the sampling feedback data according to the ada'ptive fuzzy intelligent control algorithm. The proposed two methods enable the ORAD to overcome the waveform's nonlinear distortion which is the drawback of the present devices of the same kind, such as the power amplifier, the relay test system, etc. Therefore the practicability of the ORAD is greatly enhanced.
出处
《电力系统自动化》
EI
CSCD
北大核心
2004年第4期49-53,共5页
Automation of Electric Power Systems
关键词
故障录波
数字闭环修正
故障重现放大
自适应模糊智能控制
fault recorder
digital closed-loop modification
obstacle recurring and amplifying
adaptive fuzzy intelligent control