In this study, it will include simulation and actual verification. First is deriving the inclined surface radiation model and considering various factors affecting power generation. Then construct the system generation model. Second with the ladder switching power supply model to judge the power switch. Last available such as: electricity, battery cycles, power switching frequency of the data used to determine the best system design. And finally the long-range performance simulation and demonstration of how to find the best match of the system, as well as the actual circumstances of the case made for both simulation analysis. This study aimed to explore the hybrid PV generation system optimized design that the system has the best economic efficiency and economic performance. In recent years, due to the growing shortage of fossil fuels and the environmental pollution problem, scientists are constantly looking for new energy sources available, the presence of too much light in the discovery of nuclear energy after the crisis, solar energy is considered as the most promising of the renewable energy sources. At present, solar power generation system after years of efforts, the costs and the stability of the system has reached a certain level of its economic benefits. But solar power plant has reached a certain scale of countries such as Germany found that due to a large solar power plant equipment load capacity, strong sunlight, the grid may be due to inability to load moment caused by the collapse of a large current. And to solve this NTU has developed a new energy in the new hybrid solar power generation system between the mains and the independent solar power generation system switching. As is so that users can take advantage of solar power generation to achieve self-sufficiency, but in poor weather conditions continued to be able to switch the mains power supply and does not affect the operation. To get the best system to match the hybrid solar power generation systems and best power efficiency. In this study, it will include simulation and actual verification. First is deriving the inclined surface radiation model and considering various factors affecting power generation. Then construct the system generation model. Second with the ladder switching power supply model to judge the power switch. Last available such as: electricity, battery cycles, power switching frequency of the data used to determine the best system design. And finally the long-range performance simulation and demonstration of how to find the best match of the system, as well as the actual circumstances of the case made for both simulation analysis. And at last, the long-range performance simulation and demonstration of how to find the best system to match, as well as the actual circumstances of the case made for both simulation analysis.