| Patent application number | Description | Published |
|---|
| 20080309161 | MULTI-OUTPUT POWER SUPPLY DEVICE - A multi-output power supply device includes a first power switch, a first switch controller that controls the first power switch, a transformer that transforms a power supplied from the first power switch, first through Nth output circuits connected to a secondary side of the transformer, where N is a positive integer greater than 1, a second power switch that switches the power output from one of the first through Nth output circuits, a second switch controller that controls the second power switch, a feedback circuit that feeds back output voltages of the first through Nth output circuits, and a feedback compensation circuit that performs a switching operation complementarily with the second power switch to compensate for a resistance of the feedback circuit. Accordingly, when power output to one of the output circuits is blocked, the multi-output power supply device can stably control the power output to the other output circuits. | 12-18-2008 |
| 20080309162 | SYNCHRONOUS RECTIFIER CIRCUIT AND MULTI-OUTPUT POWER SUPPLY DEVICE USING THE SAME - A synchronous rectifier circuit and a multi-output power supply device using the same include a semiconductor switch to control a current flow of the synchronous rectifier circuit, and a switching controller to control the semiconductor switch according to a synchronous rectification control signal and an output control signal generated by feeding back the output voltage of the synchronous rectifier circuit. The synchronous rectifier circuit can control an output voltage, decrease power loss so as to increase the efficiency of the synchronous rectifier circuit, and decrease the cost of the synchronous rectifier circuit. | 12-18-2008 |
| 20080310197 | POWER SUPPLY INPUT DEVICE - A power supply input device including a first resistance of a discharge resistance conversion unit connected in parallel to a discharge resistance unit; and a switching unit of the discharge resistance conversion unit connected to the first resistance and performing a switching operation according to an externally received control signal, thus minimizing power losses occurring when a system is in a standby mode. | 12-18-2008 |
| 20090045790 | SWITCHING MODE POWER SUPPLY APPARATUS HAVING PASSIVE CLAMP CIRCUIT - A switching mode power supply apparatus includes a transformer, a main switch to adjust power supplied to a primary coil of the transformer, a passive clamp circuit to suppress a voltage stress of the main switch, and a control circuit to disable a clamping operation of the passive clamp circuit in a standby mode of the switching mode power supply apparatus. Power is not consumed in the passive clamp circuit in a standby mode so that power consumed in the standby mode can be remarkably reduced. | 02-19-2009 |
| 20090051333 | SWITCHING POWER SOURCE APPARATUS AND CONTROL METHOD THEREOF - A switching power source apparatus includes a storage unit to store energy obtained from input power supplied to the storage unit, and to output at least of the stored energy as output power; a first switch; a second switch connected in series with the first switch, the series connection of the first switch and the second switch being connected to the storage unit; and a voltage clamp unit to clamp a level of a voltage applied across the series connection of the first switch and the second switch to a predetermined voltage or less. The first switch is turned on while the second switch is still turned off, and then the second switch is turned on after the first switch has been turned on to supply the input power to the storage unit from the series connection of the first switch and the second switch. | 02-26-2009 |
| 20100054007 | POWER SUPPLY APPARATUS WITH LOW POWER IN STANDBY MODE - Provided is a power supply apparatus with low power in a standby mode. The apparatus includes a voltage multiplier configured to multiply an input voltage and including a first terminal through which the multiplied voltage is output and a second terminal through which a voltage lower than a voltage of the first terminal is output; a main switch-mode power supply (SMPS) configured to receive the voltage of the first terminal of the voltage multiplier; and a standby SMPS configured to receive a voltage of the second terminal of the voltage multiplier. | 03-04-2010 |
| 20100073835 | REMOTE SENSING CIRCUIT AND HIGH-POWER SUPPLY APPARATUS HAVING THE SAME - A remote sensing circuit and a high-power supply apparatus having the remote sensing circuit. The high-power supply apparatus can include a feedback circuit to feedback power output from a high-power supply unit to an input terminal of the high-power supply apparatus. The remote sensing circuit can include a switching unit connected between an output terminal of the high-power generating unit and the feedback circuit of the high-power supply apparatus to open the connection in a normal status and to close the connection in an abnormal status, a load channel to connect the high-power generating unit and a load, and a remote sensing unit having one terminal commonly connected to the load and the load channel and another terminal commonly connected to the switching unit and the feedback circuit to sense power supplied to the load. | 03-25-2010 |
| 20100308656 | Multi-output power supply device - A multi-output power supply device includes a first power switch, a first switch controller that controls the first power switch, a transformer that transforms a power supplied from the first power switch, first through Nth output circuits connected to a secondary side of the transformer, where N is a positive integer greater than 1, a second power switch that switches the power output from one of the first through Nth output circuits, a second switch controller that controls the second power switch, a feedback circuit that feeds back output voltages of the first through Nth output circuits, and a feedback compensation circuit that performs a switching operation complementarily with the second power switch to compensate for a resistance of the feedback circuit. Accordingly, when power output to one of the output circuits is blocked, the multi-output power supply device can stably control the power output to the other output circuits. | 12-09-2010 |
