在大型太阳电池阵的研制阶段,需要进行大量模态试验以掌握结构的固有动态特性,进而指导设计和修正有限元模型。文章以大型太阳电池阵为研究对象,分别采用气浮方式和悬挂方式模拟自由边界条件,使用预紧力释放、MB大推力激振器和APS大位移激振器3种激励方法对其进行试验,并对各种模态试验方法所获取的试验结果进行了分析比较。研究表明:采用悬挂方式比采用气浮方式所测得的太阳电池阵侧摆频率更为准确;获取太阳电池阵模态参数行之有效的方法是先采用预紧力释放法得到固有频率,然后采用APS激振器激励方法得到振型;激振器激振杆横向刚度选择不当会影响模态测试结果,需选用横向刚度较小的柔性激振杆。 During the development of large-scale solar array, a large number of modal tests are needed to grasp the inherent dynamic characteristics of the structure, and then guide the design and modification of the finite element model. In this paper, a large solar array is chosen as the research object. The free boundary conditions are modeled by the air-float method and the suspension mode respectively. Three types of excitation methods, pre-tightening force release, MB large-thrust exciter and APS large-displacement exciter, , And the test results obtained by various modal test methods were analyzed and compared. The results show that the suspension method is more accurate than the solar array yaw rate measured by the air-float method. The effective method to obtain the modal parameters of the solar array is to obtain the natural frequency by the method of preload release and then Adopting the excitation method of APS exciter to obtain the vibration mode; the inappropriate selection of the lateral stiffness of the exciter excitation rod will affect the modal test results, and the flexible vibration rod with smaller transverse rigidity should be used.