Simulation excitation and comprehensive testing method for electromechanical non-bus signals and bus signals

A simulated excitation and comprehensive testing method for electromechanical non-bus signals and bus signals is characterized by comprising the following steps: a. an electromechanical system simulation function is logically separated into three function logical nodes based on a reflective memory real-time network, the three function logical nodes are defined as an electromechanical system simulation node, an electromechanical sub system state response control physical node and an electromechanical state data collection and display node respectively, the three function logical nodes transmit information through the real-time network and achieve simulation, excitation and state monitoring of the whole electromechanical system, real-time network data are coded and analyzed through a uniform ICD definition; b. an output control process comprises two response control processes, hardware is based on the real-time network, and the functions of the electromechanical system simulation node and the electromechanical state data collection and display node are achieved through software. The simulated excitation and comprehensive testing method for electromechanical non-bus signals and bus signals has the advantages of being universal, open, standard, capable of being popularized and applied to the fields of aviation, aerospace, navigation, automobiles and other related experiment testing fields, and capable of reducing the cost of experiment testing and improving experiment testing efficiency.