为解决引信辐照实验中姿态模拟难题,利用光纤控制、机械传动、屏蔽设计等方法,研制了一种多自由度全自动引信辐照实验台。整体设计了实验台实现方案,具体分析了相关模块的设计原理与实现方法,并对实验台的性能进行了测试。结果表明:实验台能够实现引信0~360°范围的角度调整,调整精度为1°,距离调整精度为1 cm;连续波辐照时场强误差小于6 V/m,强电磁脉冲辐照时场强误差小于2.6 kV/m。测试结果证明,该实验台可实现引信多自由度全自动姿态控制与调整,并完全适用于连续波和强电磁脉冲等辐照实验环境。 In order to solve the pose simulation problem in fuze irradiation experiment, a multi-degree of freedom automatic fuze irradiation experiment bench was developed by means of optical fiber control, mechanical transmission and shielding design. The overall design of the experimental platform to achieve the program, the specific analysis of the module design principles and implementation methods, and the performance of the test bench were tested. The results show that the experimental bench can adjust the angle of the fuze from 0 ° to 360 ° with the adjustment accuracy of 1 ° and the distance adjustment accuracy of 1 cm. When the intensity error of continuous wave irradiation is less than 6 V / m, The field strength error is less than 2.6 kV / m. The test results show that the test bench can realize full automatic attitude control and adjustment of multi-freedom fuze, and is fully suitable for the irradiation experiment environment such as continuous wave and strong electromagnetic pulse.