PSTEK CO., LTD. Patent applications |
Patent application number | Title | Published |
20160099693 | SWITCHING AMPLIFIER AND CONTROL METHOD THEREFOR - A fault-tolerant switching amplifier includes an inverter unit including N inverters, where N is a natural number, each of the N inverters including a plurality of switching elements and configured to perform switching ON or OFF of the switching elements based on a PWM signal inputted to the switching elements, thus switching an applied direct-current (DC) voltage, and to generate an output signal based on the switching and a switch unit including N switches respectively connected to output terminals of the N inverters, each of the N switches being configured to be short-circuited or open-circuited based on whether or not the corresponding one of the N inverters is in a normal operation condition. The output terminals of the N inverters are connected in series, such that output signals outputted from the inverters are combined to generate an amplified signal. | 04-07-2016 |
20140152412 | HIGH-POWER VARIABLE INDUCTOR AND FILTER EMPLOYING SAME - The present disclosure provides a high-power variable inductor and a filter employing the same. A provided variable inductor comprises a first inductor and a second inductor. The first inductor is connected to a first input terminal and to a first output terminal of a two-port circuit. The second inductor is connected to a second input terminal and to a second output terminal of the two-port circuit. The first inductor and the second inductor are symmetrical to each other and jointly surround an adjustable area for varying an inductance of the variable inductor. | 06-05-2014 |
20080197953 | Transformer Having Multi-Layered Winding Structure - Disclosed is a transformer having a multilayered winding structure. The transformer is supplied with alternating current power, and transfers the power to another circuit by electromagnetic induction. The transformer includes a core section having a hollow section, and primary and secondary windings isolated electrically from each other and wound around the core section. Each of the primary and secondary windings has a multilayered structure in which a plurality of metal plates are laminated with gaps therebetween and are coupled to each other at one side ends thereof, and the metal plates of the primary and secondary windings are inserted into and coupled to each other at the other side ends thereof in such a manner that the metal plates of the primary winding are alternately inserted into the gaps of the second windings. Thereby, it is possible to greatly reduce conduction loss generated from a high-frequency and high-capacity transformer, to improve voltage conversion efficiency, to greatly reduce an amount of discharging heat generated from the windings, and to efficiently discharge heat. | 08-21-2008 |