Method for tracking whole-situation maximum power point in photovoltaic array
A technology of maximum power point and photovoltaic array, which is applied in photovoltaic power generation, instruments, and regulation of electric variables, etc., to achieve good dynamic tracking ability and speed up tracking speed
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[0043] The present invention will be described in detail below with reference to the drawings and specific embodiments.
[0044] A method for tracking the global maximum power point of photovoltaic arrays, which combines artificial immune algorithm and bacterial foraging algorithm to propose an immune bacterial foraging algorithm.
[0045] Using the randomly selected direction feature of the bacterial foraging algorithm to achieve dynamic tracking of the global maximum power point without restarting the algorithm in a time-varying environment;
[0046] The immune selection operator and immune memory operator of the artificial immune algorithm are used to improve the tracking and positioning ability of the global maximum power point under dynamic and repeated partial shadow conditions.
[0047] The immune bacterial foraging algorithm is a swarm intelligence algorithm, which is suitable for situations where it is difficult to establish mathematical models for large-capacity photovoltaic ...
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