太阳敏感器测试用运动式LED太阳模拟器研究
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V249.4

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国家自然科学基金(61603061)、吉林省科技计划项目(20150204048G)、吉林省产业创新专项资金(2016C084)、吉林省教育厅“十三五”科技项目(JJKH20181131KJ)资助


Research on mobile LED solar simulator for solar sensor testing
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    摘要:

    为了解决装星后的编码式太阳敏感器的测试问题,提出了一种具有运动功能的LED太阳模拟器,利用白光LED模拟太阳光信号,利用运动装置模拟太阳光矢量信号。介绍了太阳模拟器结构组成与工作原理,着重研究了太阳光和太阳光矢量的模拟方法。由辐射功率计算确定所需LED数量,根据斯派洛判据确定LED线性阵列间距,利用矩阵法计算了柱面镜的光学参数,借助Lighttools软件进行仿真分析。根据敏感器结构和功能要求确定了由超声电机、双摇杆机构、安装支架、编码器组成的运动装置,并对装置的矢量调整精度进行了分析。实验结果表明,研制的太阳模拟器工作距离50 mm处的辐照光斑50×10 mm、辐照度高于393 W/m2、辐照不均匀度优于±73%,能够模拟实现-13°、0°、38° 3种太阳矢量角,模拟精度优于±0008 3°,满足太阳敏感器测试要求。

    Abstract:

    The insitu test of coded solar sensors is difficult to carry out. To solve this problem, one kind of LED solar simulator with motion function is proposed. The white LED is applied to simulate the solar light signal, and the motion equipment is employed to simulate the solar light vector signal. The paper introduces the structural composition and the working principle of the solar simulator. The simulation method of solar light and solar light vectors is studied very carefully. The required number of LEDs is determined by the radiant power. The linear array space of the LEDs is determined by the Sparrow criterion. The optical parameters of the cylindrical mirror are calculated by the matrix method, and the simulation analysis is performed by using Lighttools software. According to the structure and functional requirements of the sensor, the elements of motion equipment are confirmed, including ultrasonic motor, double rocker mechanism, mounting bracket and encoder. The vector adjustment accuracy of the device is analyzed. Experimental results show that the irradiation spot is 50×10 mm for the radiation simulator with a working distance of 50 mm. The irradiance is higher than 393 W/m2 and the irradiation nonuniformity is better than ±73%. It can simulate three solar vector angles of -13°, 0°, and 38°. The simulation accuracy is better than ±0008 3°, which meets the requirements of solar sensor testing. This method provides a powerful tool to ensure the quality of aerospace products.

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苏拾,王逸文,张国玉,张宇,刘石.太阳敏感器测试用运动式LED太阳模拟器研究[J].仪器仪表学报,2019,40(6):104-110

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  • 在线发布日期: 2022-02-10
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