In order to improve the ability of the regulators to synchronize the perception of the wide-area power grid problems and risks, this paper proposes a grid map design scheme that integrates external environmental information, geographic information, weather information, and real-time operating conditions of the power grid. The mentioned grid map is based on the vector tile geographic information system, which uses the latitude and longitude information of the station and the tower to automatically generate a network-wide geographic wiring diagram monitoring picture. Combined with the real-time working conditions of the power grid, it can automatically generate a dynamic topology map. Using the access of information such as power grid indicators, external information, and alarm events, and with the help of graphical display methods such as three-dimensional visualization, virtual reality, and enhanced display, we can realize panoramic synchronous perception of information such as the operation status, hidden risks, and fault alarms of the wide area power grid. Provide users with a convenient, maintenance-free, wide-area panoramic monitoring tool for comprehensive grid information. Instead of the traditional monitoring mode, the whole network can be monitored by “one grid map”.