An Optimal Design Method of Flux Transformer Based on Genetic Algorithm and Ansys Simulation
A magnetic flux converter and genetic algorithm technology, applied in the field of optimal design of magnetic flux converters, can solve problems such as difficult to obtain results, and achieve the effects of low energy consumption, improved overall action performance indicators, and small size
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[0053] Embodiment 1: The optimization design method of the magnetic flux converter of the present invention based on genetic algorithm and ANSYS simulation, combined Figure 4 , Figure 5 , Image 6 , Follow the steps below:
[0054] Step 1: Select the resistance R, the capacitor C, and the drive circuit voltage U in the flux converter drive circuit as the optimized variables that affect the final performance of the flux converter, and the value of each group (R, C, U) as the population For an individual in, set the evolution algebra counter t=0, set the maximum evolution algebra T, perform initialization, and generate the initial population;
[0055] Step 2: Define the fitness function. The fuzzy function is used as the fitness fi evaluation subroutine to calculate the fitness fi of each individual in the population P(t). Two indicators to measure the performance of the magnetic flux converter: the final speed v of ejection of the ejector rod and the execution time t of the enti...
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