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    振动工况下扫描反射镜组镜面法线稳定性分析方法研究

    Analysis Method for Mirror Normal Stability of Scanning Mirror Assembly Under Vibration Conditions

    • 摘要: 扫描反射镜是捷联式光学系统实现连续扫描成像的重要组件,载体振动下其镜面法线的稳定性关系到光学系统的性能指标优劣。以某型扫描反射镜为研究对象,分别从伺服控制精度和光机结构动力学响应两个维度建立了机电一体化模型与光机集成分析模型,分析了扫描镜法线在5~200 Hz频率内的典型载体振动激励下的响应。同时指出扫描镜组轴系模态是引起镜面法线抖动的主要原因。设计了扫描反射镜组镜面法线稳定性实验,获得了振动工况下镜面法线抖动和测角控制残差响应曲线。实验结果与分析结果对比表明,镜面法线抖动趋势基本一致,在纵向、垂向、横向振动激励下,误差值分别为36.12%、26.37%和21.99%,验证了分析模型的准确性。提出的研究方法和结论对光电系统中扫描反射镜组受振动作用下镜面法线稳定性评估与优化具有一定参考价值。

       

      Abstract: The scanning mirror is a key component in strapdown optical systems for achieving continuous scanning imaging.The stability of the mirror's normal line under carrier vibration directly affects the performance metrics of the optical system. Taking a specific type of scanning mirror as the research subject, mechanical-electrical integration models and opto-mechanical integrated analysis models are developed from the two dimensions of servo control accuracy and structural dynamic response of the opto-mechanical system, analyzing the response of the scanning mirror's normal line under typical carrier vibration excitation within a 5~200 Hz frequency range. The analytical results indicate that the scanning mirror shaft model behavior is the primary cause of mirror normal line jitter. The scanning mirror group normal line stability experiment is designed, obtaining response curves for mirror jitter and cross-coupling control residual error under vibration conditions. A comparative analysis of experimental and analytical results indicates that the specular normal jitter curves obtained by the two methods are generally consistent. Under longitudinal, vertical and lateral vibration excitation, the errors are 36.12%、26.37% and 21.99% respectively, validating the accuracy of the analytical model. The research methodology and conclusions presented in this paper offer valuable references for evaluating and optimizing the normal line stability of scanning mirror assemblies in optoelectronic system under vibration effects.

       

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