船闸管控一体化系统包括多个子系统组成,设备分布在多个建筑物内,目前各种建筑物大多仍然沿用避雷带与避雷针保护建筑物的安全,通过多年采用避雷带与避雷针的措施防止直击雷害,不仅仅是行之有效,而且还非常经济。然而,随着电子技术的快速发展,精密电子仪器被广泛应用于各行业的微机、通信网络的系统中。而高精度的微电子设备内置大量的CMOS半导体集成器件,导致过电压、过电流保护的能力很差,不能保证在遭受到雷击时还能继续安全稳定运行。本研究的目的是考虑实际环境因素而作出一套比较完整的防雷方案,从而达到整个管控一体化设备系统安全可靠地运行。 Ship lock control integrated system consists of a number of subsystems, the equipment is located in multiple buildings, most of the current buildings are still using lightning protection and lightning protection of buildings, through years of lightning and lightning protection measures to prevent direct lightning Not only is it effective, it is also very economical. However, with the rapid development of electronic technology, precision electronic instruments are widely used in various industries, computer systems, communications networks. The high-precision microelectronic devices built a large number of CMOS integrated semiconductor devices, leading to over-voltage, over-current protection is poor, can not guarantee in the event of lightning can continue to safe and stable operation. The purpose of this study is to consider the actual environmental factors and make a more complete lightning protection program, so as to achieve the entire management and control of integrated equipment and systems to run safely and reliably.