研究目的
To develop and test a solar position sensor integrated within CPV module enclosures to simplify system commissioning and improve tracking accuracy.
研究成果
The MISPS sensor simplifies CPV system installation by eliminating the need for calibration and precise axis alignment, offering a ready-to-manufacture solution with good performance results.
研究不足
The need for further research on custom silkscreened solar cells and better coatings to meet working life expectations and improve sensor finish.
1:Experimental Design and Method Selection:
The development involved material exploration and electronics improvement to enhance sensor reliability, assembly, integration, cost, and functionality.
2:Sample Selection and Data Sources:
Standard monocrystalline Si cells were laser cut into eight pieces for the sensor.
3:List of Experimental Equipment and Materials:
Included laser cutting techniques, different PCB substrates, connectors, and coatings.
4:Experimental Procedures and Operational Workflow:
Involved testing different materials and designs for the sensor, including solar cells, PCB substrates, and interfaces.
5:Data Analysis Methods:
Performance of the sensor was monitored in field tests, comparing power outputs of systems with and without the MISPS sensor.
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