Abstract
Based on the representation of the magnetic field as an energy exchange medium, numerical simulation of the efficiency of magnetic energy conversion in linear electromagnetic converters is proposed. The dependence of the energy efficiency conversion in the magnetic field of the linear electromagnetic converters on the charge voltage of the capacitor feeding the motor, the capacitance of the capacitor, the active resistance of the magnetic field excitation winding, the moving mass and the counteracting force applied to the mass is analyzed. The results of the numerical simulation made it possible to reveal the features of the influence of the design and operating parameters of a linear electromagnetic converter on the energy conversion efficiency. The simulation model is verified with the dependence of the converter efficiency on the operating and design parameters. The ratios of these parameters are established. The research results are useful for a wide range of scientists engaged in improving the energy efficiency of reciprocating linear electromagnetic converters.
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