随着科学技术的不断发展和进步,电力系统逐渐趋向信息化、自动化以及可靠化发展,国内外越来越重视对电网的监控问题,尤其是着重研究开关柜的监控问题,以期达到控制和保护电力系统的目的。本文把控制对象设定为开关柜,设计并实现了智能操控系统,与开关柜的发展指标和监控现状相结合,实时监测了开关柜设备的工作环境温湿度和开关状态位置等,并研究了智能化的管控技术。在硬件设计和实现过程中,通过高性能微处理器以及外围管理电路和驱动电路的使用,使工作量得到减轻。电力系统多具有较复杂的工作环境,干扰源教多,所以在系统设计中添加了相应的抗干扰措施,确保系统的正常运行。中断资源的合理分配,不仅便于软件的调试,而且使软件具有清晰的结构,界面的编辑过程中采用了VC++语言,能实时监控下位机,设计出更具人性化的系统。 With the constant development and progress of science and technology, the power system tends to be more and more information-based, automated and reliable. At home and abroad, more and more attention is paid to the monitoring of power grids. In particular, it focuses on the monitoring of switchgear in order to achieve control and protection The purpose of the power system. In this paper, the control object is set as a switchgear, the intelligent control system is designed and implemented, and the development indicators and monitoring status of the switchgear are combined. The temperature, humidity and switch position of the switchgear are monitored in real time. Intelligent management and control technology. In the hardware design and implementation, through the use of high-performance microprocessors and peripheral management circuits and driver circuits, the workload is reduced. More power systems have more complex working environment, interference source to teach more, so the system design to add the appropriate anti-jamming measures to ensure the normal operation of the system. Interrupt the rational allocation of resources, not only facilitate software debugging, but also make the software has a clear structure, the interface editing process using VC ++ language, real-time monitoring of the next crew, to design a more humane system.