设计了一种空间TDICCD(时间延迟积分电荷耦合器件)相机动态成像地面检测系统,用于模拟相对空间飞行器的地面像移，验证TDICCD相机的像速匹配能力和动态成像质量。系统采用精密转台和偏流转台模拟卫星绕地球运动和卫星受地球自转影响而在不同纬度产生不同的偏流运动。精密转台用永磁力矩电机驱动，用锁相锁频伺服控制策略控制稳速精度达到0.029 7%。偏流转台用步进电机控制，偏流角的平均转角速率约为0.02°/s，偏流角位置的数据引导跟踪精度优于±5′。设计的检测系统的精度满足TDICCD相机动态成像检测的指标要求,已在某型号空间可见光相机的研制中获得了应用。

A test system for dynamical images of Time Delay and Integration Charge Coupled Device(TDICCD) cameras in space was designed to simulate the ground image motion related to the space aerocraft and to validate the capability of image speed matching and the quality of dynamical imaging of TDICCD cameras.The design adopted a precision table and a drift table to simulate the aerocraft motion around the earth and its drift motion in different latitudes caused by the earth rotation.The precision table drived by a permanent magnet torgue motor was controlled by a phase locked loop serve-control strategy and its steady speed error reaches 0.029 7%.The drift table was drived by a stepping motor and its average rotation speed is 0.02 (°)/s and trace precision of draft angle is better than ±5′.The experimental results show that the precision of designed system meets the test requirement for the dynamical images of TDICCD cameras,and has been applied to the development of a certain space visible light camera.