This paper deals with modeling and optimization of a new type of HV power supply with three magnetrons. The design of this new power supply uses a new single-phase high voltage transformer with magnetic leakage flux supplying in the same time three cells. Each cell multiples the voltage, stabilizes the current and supplies in its turn a single magnetron. The π equivalent model of the transformer is developed, taking into account the saturation phenomenon and the stabilization process of each magnetron current. This model is based on the determination of the analytical expressions of its non-linear inductances, that can be determined from the establishment of the B(H) magnetization curve of the used material. This way facilites the optimization strategy of this new HV power supply for the microwave generators with N=3 magnetrons, to envisage the possibility of obtaining gains in section, space, and weight, and to reduce the transformer cost, and, therefore, that of all the installation. This system presents multiple advantages relative to the current device: gains of volume, weight and the cost of the whole power supply. The simulation results, upbraided by Matlab-Simulink code, are in good agreement with those found by experimental measurement for one magnetron, while respecting the conditions recommended by the manufacturer of magnetron: I_peak<1.2 A, I_mean≈ 300 mA
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