KR0139935Y1 - Battery charging apparatus using dc/ac power source - Google Patents

Abstract

Disclosed is a battery charging device using an AC power source and a DC power source.

Battery charging device according to the present invention is a first power input terminal for inputting a DC power; A second power input terminal for inputting AC power; A transformer for modifying and outputting a voltage of AC power introduced through the second power input terminal; A rectifying and smoothing unit which receives the modified AC power output from the transformer, converts the rectified and smoothed process into a rectified DC power, and outputs the rectified DC power; A switch for selecting and outputting the DC power introduced through the first power input terminal or the rectified DC power output from the rectifying and smoothing unit; A DC-DC converter for converting the magnitude of the DC power selected and output by the switch into a charging voltage of the battery and outputting the converted voltage; A charging control unit controlling charging of the battery by the charging voltage output from the DC-DC converter; And an output terminal for outputting a DC voltage output from the charging control unit and providing a connection with the battery.

The battery charging device according to the present invention has the effect of enabling the use of an AC power source and a DC power source by adopting a transformer and a DC-DC converter.

Description

Battery charger for DC / AC power supply

1 is a block diagram showing a conventional battery charger for AC power.

2 is a block diagram showing a conventional DC battery charger.

3 is a block diagram showing a battery charging device according to the present invention.

The present invention relates to a battery charger, and more particularly to a battery charger using an AC power source and a DC power source.

Portable electronic devices such as camcorders use a rechargeable battery, which is charged by a battery charger.

The conventional battery charger charges a battery by receiving AC power or DC power. A commercial AC power source is used as an AC power source, and a car battery is used as a DC power source.

Conventional battery chargers could use only AC power or DC power. Therefore, the user had to have a battery charger suitable for the power source available.

Accordingly, there is a problem that the available power source is limited to either a DC power source or an AC power source.

An object of the present invention is to provide a battery charging device that can be used both AC power and DC power as devised to solve the above problems.

Battery charging device according to the present invention for achieving the above object is a first power input terminal for inputting a DC power; A second power input terminal for inputting AC power; A transformer for modifying and outputting a voltage of AC power introduced through the second power input terminal; A rectifying and smoothing unit which receives the modified AC power output from the transformer, converts the rectified and smoothed process into a rectified DC power, and outputs the rectified DC power; A switch for selecting and outputting the DC power introduced through the first power input terminal or the rectified DC power output from the rectifying and smoothing unit; A DC-DC converter converting the magnitude of the DC power selected and output by the switch into a charging voltage; A charging control unit controlling charging of the battery by the charging voltage output from the DC-DC converter; And an output terminal for outputting a DC voltage output from the charging control unit and providing a connection with the battery. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a conventional battery charger for AC power. The apparatus shown in FIG. 1 includes a plug 10, a switching power supply 12, a charging control unit 14, and an output terminal 16 plugged into an outlet providing commercial AC power.

The switching power supply 12 rectifies and smoothes the AC power introduced through the plug 10, and performs a DC stabilization process so that a DC power corresponding to the charging voltage of the battery is output. By the operation of the switching power supply 12, the charging control unit 14 is provided with a stable battery charging voltage.

The switching power supply 12 is a known transformer and a rectifying and smoothing device for rectifying and smoothing the alternating AC power through the transformer, and the stabilized size of the DC power output from the rectifying and smoothing device. And a DC stabilization circuit for outputting.

The charging control unit 14 controls the charging of the battery according to the level of current and voltage provided to the battery (not shown) connected through the output terminal 16.

2 is a block diagram showing a conventional DC battery charger. The apparatus shown in FIG. 1 includes a plug 20, a switching power supply 22, a charging control unit 24, and an output terminal 26 for providing a connection to a DC power supply such as an automobile battery.

The switching power supply 22 converts the magnitude of the DC power introduced through the plug 20 so that the DC power corresponding to the charging voltage of the battery is output. By the operation of the switching power supply 22, the charging control unit 24 is provided with a stable battery charging voltage.

The switching power supply 22 is a well-known DC-AC converter for converting DC power into AC power, a transformer for modifying the magnitude of the AC power converted through the DC-AC converter, a rectified AC power modified through the transformer and AC-DC converter etc. to output are provided.

The charge control unit 24 controls the charging of the battery according to the level of current and voltage provided to the battery (not shown) connected through the output terminal 26.

3 is a block diagram showing a battery charging device according to the present invention. The apparatus shown in FIG. 3 includes a first power input terminal 30, a second power input terminal 32, a transformer 34, a rectifying and smoothing unit 36, a switch 38, and a DC-DC converter 40. ), A charging control unit 42 and an output terminal 44.

The first power input terminal 30 is connected to a DC power supply device such as an automobile battery and flows in DC power. The second power input terminal 32 is connected to an outlet for providing a commercial AC power to flow AC power.

The transformer 34 modulates and outputs the voltage of the AC power introduced through the second power input terminal 32.

The rectifying and smoothing unit 36 receives the modified AC power output from the transformer 34, rectifies and smoothes the converted AC power, and outputs the rectified DC power.

The switch 38 selects and outputs the DC power introduced through the first power input terminal 30 or the rectified DC power output from the rectifying and smoothing unit 36.

The DC-DC converter 40 converts the magnitude of the DC power selected and output by the switch 38 into a charging voltage of the battery and outputs the converted voltage.

The charging controller 42 controls the charging of the battery by the charging voltage output from the DC-DC converter 40.

The output terminal 44 outputs the DC voltage output from the charging control unit 42 and provides a connection with the battery.

The operation of the apparatus shown in FIG. 3 will be described. When the user wants to charge the battery using a commercial AC power supply, the battery is connected to the battery charger of the present invention through the output terminal 44, and the switch 38 is put into the AC power supply side. By operating the switch 38, the transformer 34, the DC and smoothing circuit 36, the DC-DC converter 40, the charging control unit 42, and the output terminal 44 are disconnected from the second power input terminal 32. Through the closed circuit to the battery is formed.

When the user plugs the second power input terminal 32 into the outlet, the commercial AC power is provided to the transformer 34. The transformer 34 modulates the size of the commercial AC power supply to a size corresponding to the charging voltage and outputs the same. If the commercial AC power supply is 110V and the charging voltage is 5V, the transformer's modification ratio is required to be 1/22.

AC power modified through the transformer 34 is provided to the rectification and smoothing unit 36. The rectifying and smoothing unit 36 rectifies and smoothes the modified AC power provided thereto and outputs the same to the switch 38. The configuration of the rectification and smoothing unit 36 is a known one, and has a configuration in which the pulsating voltage rectified by full-wave rectification, bridge rectification, or the like is smoothed and outputted by a DC power supply using a smoothing filter or the like.

The DC voltage output from the rectifying and smoothing unit 36 is provided to the DC-DC converter 40 through the switch 38. The switch 38 is constituted by a single pole double throw switch to select the rectifying and smoothing unit 36 when using an AC power source, and to select the first power input terminal 30 when using a DC power source.

The DC-DC converter 40 converts the magnitude of the DC power input thereto by the switched mode power supply (SMPS) method and outputs the converted power.

The charging control unit 42 controls the battery to be efficiently charged according to the level of current and voltage provided to the battery (not shown) connected through the output terminal 44, and provides the output terminal 44 during full charge. The battery is protected from overcharging by cutting off the power supply.

When the user wants to charge the battery using a DC power source such as a car battery, the battery is connected to the battery charger of the present invention through the output terminal 44 and the switch 38 is put into the DC power supply side. The operation of the switch 38 forms a closed circuit from the first power input terminal 30 to the battery through the DC-DC converter 40, the charging control unit 42, and the output terminal 44.

When the user connects the first power input terminal 30 and the DC power supply device, the DC-DC converter 40 converts the magnitude of the DC power input thereto into the magnitude of the charging voltage by the SMPS (Switched Mode Power Supply) method. Output

As described above, the battery charging device according to the present invention has an effect of enabling the use of an AC power source and a DC power source by adopting a transformer and a DC-DC converter.

The battery charging device according to the present invention, unlike the conventional charging device can use both AC power and DC power has the effect of providing the utilization of the battery.

Claims (1)

A battery charging apparatus capable of supporting both an AC power source and a DC power source, comprising: a first power input terminal for inputting a DC power source; A second power input terminal for inputting AC power; A transformer for modifying and outputting a voltage of AC power introduced through the second power input terminal; A rectifying and smoothing unit which receives the modified AC power output from the transformer, converts the rectified and smoothed process into a rectified DC power, and outputs the rectified DC power; A switch for selecting and outputting the DC power introduced through the first power input terminal or the rectified DC power output from the rectifying and smoothing unit; A DC-DC converter selected by the switch to output; A charging control unit controlling charging of the battery by the charging voltage output from the DC-DC converter; And an output terminal for outputting a DC voltage output from the charging control unit and providing a connection with a battery.