输电线路的继电保护整定计算及装置
Abstract
Due to the improvement of domestic people's living standard, the continuous progress of science and technology, and the continuous improvement of control, thus promoting the transmission line reactive power compensation technology to occupy the dominant position in the field of electrical system, but also make the transmission line reactive power compensation system is widely used.In the field of the electrical system design, transmission line reactive power compensation system is now a beautiful scenery line, because of its large number of design resources, rich development experience, the most important thing is that the cost is low, the control within the scope of the users will be able to afford, so the transmission line reactive power compensation system design gradually become the focus of world attention.With the continuous innovation in the field of transmission line reactive power compensation system, the number is getting larger and larger, and it has gradually become the focus of research. Therefore, the new generation of us should seriously study the composition of transmission line reactive power compensation system.
Reactive power compensation for transmission lines has always been a hot research topic. Based on the characteristics of the system, this paper completes the hardware design of dynamic reactive power compensation control system.Hardware circuit mainly includes MCU minimum system, communication circuit, digital input/output circuit and IGBT drive circuit.The design of the hardware circuit needs to allocate the MCU pin according to the actual demand;Select the appropriate communication standard and communication protocol, and have the corresponding chip for signal conditioning;The designed IGBT drive circuit has the function of overcurrent protection, and the appropriate chip is selected to meet the IGBT drive power and switching frequency.
The simulation test and experimental study are completed.A simulation platform was built to simulate the communication function between the upper computer and the SCM of the dynamic reactive power compensation control system.At the same time, the reactive power compensation effect of the control system is simulated by MATLAB simulation tool.
Key words:Transmission line reactive power compensation system;Single chip microcomputer;IGBT
目录
摘要............................................................................................................................ 2
第一章 绪论............................................................................................................. 1
1.1 概述............................................................................................................ 1
1.2 国内外发展现状....................................................................................... 2
1.3 课题的研究内容及章节安排.................................................................. 4
第二章 软件结构与功能........................................................................................ 5
2.1 软件的总体结构....................................................................................... 5
2.2 软件的主要功能和特点........................................................................... 7
2.3 软件的开发、运行环境........................................................................... 8
2.3.1 软件的开发环境........................................................................ 8
2.3.2 软件的运行环境........................................................................ 9
第三章 故障分析................................................................................................... 11
3.1 简单故障计算......................................................................................... 11
3.2 查找故障点............................................................................................. 12
第四章 继电保护配置及整定............................................................................. 14
4.1 继电保护整定计算原则........................................................................ 14
4.2 接地零序电流保护整定原则及计算................................................... 14
第五章 输电线路雷击故障行波特性分析...................................................... 18
5.1 行波基础理论...................................................................................... 18
5.1.1 行波定义.................................................................................. 18
5.1.2 线路中的波过程..................................................................... 18
5.2 雷击故障行波的产生原理................................................................. 19
5.3 本章小结.............................................................................................. 20
第六章 进线端防雷保护设计........................................................................... 22
6.2 电缆进线的过电压保护..................................................................... 22
6.3 本章小结.............................................................................................. 23
第七章 输电线路继电保护控制系统建模仿真.............................................. 24
7.1 输电线路继电保护控制系统建模........................................................ 24
7.2 仿真分析.................................................................................................. 24
第八章 结束语..................................................................................................... 26
参考文献................................................................................................................. 27
致 谢................................................................................................................. 31
第一章 绪论
1.1 概述
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