Abstract
To enhance the performance of high speed transfer system of LED chip sorting equipment, its control parameters need to be well matching with the mechanical system. In practical issues, it is difficult and time-consuming work to get these parameters matched because their selection is strongly depended on individuals. In current work, an integrated optimization method was carried out to solve this problem, in which the multiple control parameters optimization, modeling and simulation were included, i.e., a multi-domain model of transfer system performed on Dymola platform. Based on this model, the searching area of the key control parameters was narrowed by performing integrated optimization. After that a group of parameters were selected from this narrowed area to perform the equipment’s controls. The result showed this method possesses a simple and reliable nature. The optimal solutions also indicated that the optimized control parameters can well satisfy the requirements of transfer system. On the other hand, it greatly reduced the engineering adjustment time by using this method.
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Ouyang, J., Li, B. & Gong, S. Dymola-based multi-parameters integrated optimization for high speed transfer system of LED chip sorter. Front. Mech. Eng. 8, 118–126 (2013). https://doi.org/10.1007/s11465-013-0253-y
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DOI: https://doi.org/10.1007/s11465-013-0253-y