A full-range offline power supplies based on a class D2 DC-DC parallel resonant power converter is presented in this paper. The class D inverter is operated above the resonant frequency to produce zero voltage turn-on of the MOSFETs. Turn-off losses are drastically reduced by using only one capacitor connected in parallel to one of the two MOSFETs of the inverter. As a result, switching losses are nearly zero and a full-load, low line high-efficiency h=86% is achieved at an operating frequency of about 500 kHz including the front-end rectifier. The output voltage V0=12 V is regulated over the entire load range, that is, for an output current I0 ranging from 0.25 A to 2.5 A and for both American and European standard input voltages in a narrow frequency range, from fmin=290 kHz to fmax=490 kHz. Other advantages of the power supply are its inherently short-circuit protected operation, the low di/dt at the MOSFET turn-off that allows the parasitic MOSFET diodes to be used, and the low conduction losses in ESR of the rectifier filter capacitor
Full-range high-frequency high-efficiency class D/sup 2/ resonant power supplyProceedings of IECON'94 - 20th Annual Conference of IEEE Industrial Electronics / M. Bartoli;A. Reatti;M.K. Kazimierczuk. - ELETTRONICO. - 1:(1994), pp. 159-163. (Intervento presentato al convegno Industrial Electronics, Control and Instrumentation, 1994. IECON '94., 20th International Conference on) [10.1109/IECON.1994.397769].
Full-range high-frequency high-efficiency class D/sup 2/ resonant power supplyProceedings of IECON'94 - 20th Annual Conference of IEEE Industrial Electronics
REATTI, ALBERTO;
1994
Abstract
A full-range offline power supplies based on a class D2 DC-DC parallel resonant power converter is presented in this paper. The class D inverter is operated above the resonant frequency to produce zero voltage turn-on of the MOSFETs. Turn-off losses are drastically reduced by using only one capacitor connected in parallel to one of the two MOSFETs of the inverter. As a result, switching losses are nearly zero and a full-load, low line high-efficiency h=86% is achieved at an operating frequency of about 500 kHz including the front-end rectifier. The output voltage V0=12 V is regulated over the entire load range, that is, for an output current I0 ranging from 0.25 A to 2.5 A and for both American and European standard input voltages in a narrow frequency range, from fmin=290 kHz to fmax=490 kHz. Other advantages of the power supply are its inherently short-circuit protected operation, the low di/dt at the MOSFET turn-off that allows the parasitic MOSFET diodes to be used, and the low conduction losses in ESR of the rectifier filter capacitorFile | Dimensione | Formato | |
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