Power converter
First Claim
1. A power converter comprising a DC power source (1), a switching element (2), a transformer (3) having a secondary winding (3b) and a primary winding (3a) coupled with said DC power source (1) and said switching element (2) so that said DC power source (1), the primary winding (3a) and the switching element (2) compose a closed circuit, a control circuit (14) for turning ON and OFF said switching element (2), a rectifier circuit with a diode coupled with the secondary winding of said transformer, and an output filter circuit coupled with said rectifier circuit, and the output of said output filter circuit being coupled with an external load,characterized in thata parallel circuit with a capacitor (12) and a coil (13) is provided in said closed circuit, and said control circuit (14) controls said switching element (2) so that said switching element (2) is turned to the ON status when the current in said coil (13) reaches a predetermined value which depends upon an output power of the present power converter, and said switching element (2) is turned to the OFF status after the current in said switching element (2) reaches zero.
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Accused Products
Abstract
A switching power converter with high conversion efficiency has been found. The converter has a DC power source (1), a switching element (2), a transformer (3) so that said DC power source (1) supplies the primary power to the transformer (3) through the switching element (2). A rectifier and an output filter circuit are provided at the secondary side of the transformer (3). A parallel circuit with a capacitor (12) and a coil (13) is inserted in the primary current path, and a control circuit (14) controls the ON and/or OFF status of said switching element (2) so that the switching element (2) is turned to the ON status when the current in the coil (13) reaches a predetermined value which depends upon the output power of the present power converter, and said switching element (2) is turned to the OFF status after the current in said switching element (2) reaches zero. Since the current in the switching element is zero when the switching element is turned to the OFF status, no power loss occurs in the OFF transition, and thus, the conversion efficiency is improved.
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Citations
7 Claims
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1. A power converter comprising a DC power source (1), a switching element (2), a transformer (3) having a secondary winding (3b) and a primary winding (3a) coupled with said DC power source (1) and said switching element (2) so that said DC power source (1), the primary winding (3a) and the switching element (2) compose a closed circuit, a control circuit (14) for turning ON and OFF said switching element (2), a rectifier circuit with a diode coupled with the secondary winding of said transformer, and an output filter circuit coupled with said rectifier circuit, and the output of said output filter circuit being coupled with an external load,
characterized in that a parallel circuit with a capacitor (12) and a coil (13) is provided in said closed circuit, and said control circuit (14) controls said switching element (2) so that said switching element (2) is turned to the ON status when the current in said coil (13) reaches a predetermined value which depends upon an output power of the present power converter, and said switching element (2) is turned to the OFF status after the current in said switching element (2) reaches zero.
Specification