Volume 40 Issue 1
Jan.  2020
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Article Navigation >  Chinese Journal of Space Science  > 2020  >  40(1): 134-140
SU Shi, REN Yiwen, WANG Yiwen, GAI Zhuqiu, ZHANG Yu, ZHANG Guoyu, SUN Gaofei, LIU Shi, ZHANG Jian, YANG Songzhou. Control System of Mobile Solar Simulator Based on LED Light Source[J]. Chinese Journal of Space Science, 2020, 40(1): 134-140. doi: 10.11728/cjss2020.01.134
Citation: SU Shi, REN Yiwen, WANG Yiwen, GAI Zhuqiu, ZHANG Yu, ZHANG Guoyu, SUN Gaofei, LIU Shi, ZHANG Jian, YANG Songzhou. Control System of Mobile Solar Simulator Based on LED Light Source[J]. Chinese Journal of Space Science, 2020, 40(1): 134-140. doi: 10.11728/cjss2020.01.134
shu

Control System of Mobile Solar Simulator Based on LED Light Source

doi: 10.11728/cjss2020.01.134 cstr: 32142.14.cjss2020.01.134

  • 1 College of Optoelectronic Engineering, Changchun University of Science and Technology, Changchun 130022;

  • 2 Jilin Province Engineering Research Center of Optical Measurement and Control Instrumentation, Changchun 130022;

  • 3 Key Laboratory of Optoelectric Measurement and Optical Information Transmission Technology of Ministry of Education, Changchun 130022;

  • 4 Beijing Institute of Control Engineering, Beijing 100190

  • Received Date: 2019-08-12
  • Rev Recd Date: 2019-11-13
  • Publish Date: 2020-01-15
    Abstract
  • A mobile solar simulator based on the LED light source is developed to provide simulated sunlight signal and sunlight vector signal. The simulator can be applied to the function test of the field after the installation of the coded solar sensor. Firstly, the structure and working principle of the mobile sunlight simulator are introduced. The control system of the radiance and vector motion of the light source is studied. Secondly, according to the requirements of the sunlight signal, the model and number of LEDs are determined by the light source selection and power calculation. The radiance of the light source is linearly adjusted by the voltage controlled constant current source driving technique. Finally, according to the requirements of the sunlight vector signal, the GUS-60 ultrasonic motor is selected by the load torque and power calculation. The 16-bit absolute encoder is used to measure the moving angle. The digital signal processor is used as the main component to perform closed-loop feedback control of the motor. The experimental results showed that the light source control system could perform linear adjustment within the radiance range of 0~527.4W·m-2. The motion control accuracy of the vector motion device was better than ±0.01° as the motion angle is from -15° to 40°. The mobile solar simulator can help to complete the field test of coded solar sensors.

     

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