KR100536840B1 - Power supply for portable device - Google Patents

Abstract

A power supply for a portable electronic device is disclosed. The power supply of the portable electronic device includes a battery cell capable of charging and discharging, a charging circuit for charging the battery cell by receiving power from the outside, a regulator for stabilizing and outputting an output voltage of the battery cell, and the battery cell and the regulator. And a switch for applying the output power of the battery cell to the regulator after charging of the battery cell is completed. According to the power supply device of such a portable electronic device, it can be used in place of the basic battery cell that can be embedded in the electronic device, or can charge the basic battery cell, so that the electronic device can be used for a long time without having a dedicated charging device as in the conventional electronic device. It can be used while carrying.

Description

Power supply for portable electronic devices

The present invention relates to a power supply, and more particularly, to a power supply for supplying power to a portable electronic device.

In general, electronic devices such as mobile phones, PDAs, notebook computers, and cassette recorders are driven by small basic battery cells, such as nickel-cadmium batteries, nickel-hydrogen batteries, or lithium ion battery cells, for convenience of carrying. The basic battery cell mounted in such a portable electronic device is usually limited in size for convenience of carrying, and the time for driving the portable electronic device is also limited. Accordingly, a typical portable electronic device has an expansion battery cell that can be additionally mounted while outputting the same voltage as the basic battery cell. On the other hand, since the extended battery cell outputs the same voltage as the basic battery cell, the extended battery cell does not charge the basic battery cell.

1 is a view illustrating a power supply method of an electronic device having a conventional basic battery cell and an extended battery cell.

The illustrated electronic device 10 includes a basic battery cell holder 11 for electrically coupling with a basic battery cell 20, an extended battery cell holder 13 for electrically coupling with an extended battery cell 30, and an external device. It is provided with an adapter holder 12 for electrically coupling with the plug 41 of the adapter 40 for converting the AC power of the DC power source.

When the electronic device 10 is driven in a portable state, the electronic device 10 is driven by receiving DC power from the basic battery cell 20.

The illustrated basic battery cell 20 is a nickel-cadmium battery having an output voltage of 1.2V to 1.5V. Since the basic battery cell 20 is embedded in the electronic device 10 to supply DC power to the electronic device 10, its size and driving ability are limited. Typically, the driving time of the basic battery cell 20 is about half of that of the extended battery cell 30.

The extended battery cell 30 has the same output voltage as the basic battery cell 20 and is detachable from the electronic device 10. Normally, the extended battery cell 30 is used in place of the basic battery cell 20 when the driving capacity of the basic battery cell 20 is lowered, or is connected to the basic battery cell 20 in parallel.

The adapter 40 is used to supply DC power directly to the electronic device 10 or to charge the basic battery cell 20. Since the output voltage of the adapter 40 needs to be able to charge the basic battery cell 20, the output voltage of the adapter 40 outputs 0.8V to 1.2V higher than the basic battery cell 20.

 On the other hand, since the extended battery cell 30 is not inserted into the electronic device 10, unlike the basic battery cell 20 requires a separate charging device (not shown). The basic battery cell 20 can be charged by the DC power supplied from the adapter 40, but the extended battery cell 30 has a structure that is detachable to the electronic device 10, like the basic battery cell 20 It cannot be charged by the adapter 40. Accordingly, when using a portable electronic device, a dedicated charging device and / or an adapter 40 for charging the basic battery cell 20, the extended battery cell 30, and the extended battery cell 30 should be provided. In addition, the extended battery cell 30 outputs the same voltage as that of the basic battery cell 20, and because it is portable, it is difficult to exceed twice the capacity of the basic battery cell 20. Furnace is also difficult to charge the basic battery cell 20. That is, the conventional electronic device 10 has a problem of having a basic battery cell 20, an extended battery cell 30, an adapter 40, and a dedicated charging device (not shown) precharged for long time use. have.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide an extended battery cell capable of charging a basic battery cell or driving an electronic device containing a basic battery cell.

Power supply device for a portable electronic device including a basic battery cell in the present invention for achieving the above object, the output terminal that can be connected to the portable electronic device, higher than the output voltage of the basic battery cell to charge the basic battery cell Rechargeable battery having an output voltage capable of charging and discharging the battery; a charging circuit for charging the rechargeable battery by receiving power from an external source; a regulator for lowering the output voltage of the rechargeable battery to a driving voltage of the portable electronic device; And a power selector connecting one of an output power and an output power of the regulator to the output terminal.

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Preferably, the apparatus further includes a charging state detector for sensing a charging state of the rechargeable battery.

Preferably, the regulator consists of a DC-DC converter for converting the output voltage of the rechargeable battery to a predetermined potential level.

Preferably, the regulator may also be implemented as a Zener diode connected between the positive and negative voltages of the rechargeable battery.

Preferably, the charging state detecting unit includes a first charging display unit displaying a charging state of the rechargeable battery and a second charging display unit displaying the charging state of the rechargeable battery.

Hereinafter, the present invention will be described in detail with reference to the drawings.

Figure 2a shows a block diagram of a power supply of the electronic device according to an embodiment of the present invention.

The illustrated power supply device, the input jack 110, the charging circuit 120, the rechargeable battery 130, the switch 140, the DC-DC converter 150, the output jack 160, and the charging state detection unit 170 Has

The input jack 110 receives a DC power source (not shown) from the outside. The applied DC power supply is the output of a conventional adapter (not shown), and has a voltage higher than that required by the electronic device. For example, if the electronic device operates at 3V, it outputs a DC power supply having a voltage of 4V to 6V.

The charging circuit 120 constantly controls the voltage and current of the DC power applied through the input jack 110 to supply the rechargeable battery 130.

The rechargeable battery 130 is a type that can be normally charged and discharged, and is charged in response to a voltage and a current applied from the charging circuit 120. In general, the rechargeable battery 130 may include a nickel-cadmium battery, a nickel-hydrogen battery, and a lithium ion battery, and may use a different type of battery from a basic battery cell (not shown) embedded in an electronic device. Accordingly, the rechargeable battery 130 uses a larger current driving capability and a higher output voltage than the basic battery cell (not shown). It will be described later in detail to enable the rechargeable battery 130 to output a higher voltage than the basic battery cell (not shown).

The switch 140 is provided between the rechargeable battery 130 and the DC-DC converter 150, and the rechargeable battery 130 short-circuits the battery when the charging is completed by the charging circuit 120. As a result, the output voltage of the rechargeable battery is applied to the DC-DC converter 150.

The DC-DC converter 150 regulates a voltage applied from the rechargeable battery 130 and outputs the regulated voltage to the output jack 160.

The output jack 160 outputs the regulated voltage from the DC-DC converter 150 to an electronic device (not shown), which uses the voltage as a driving power source or uses a built-in basic battery cell (not shown). Used to charge. Here, the basic battery cell (not shown) may be charged and discharged, and does not have to have the same output voltage or the same type of battery as the rechargeable battery 130. Here, the voltage regulated by the DC-DC converter 150 is a voltage higher than a predetermined voltage (for example, 0.8V or more) than the output voltage of the basic battery cell (not shown).

The charging state detector 170 detects this when a current is applied from the charging circuit 120 to the rechargeable battery 130, and visually expresses the charging state of the rechargeable battery. To this end, the charging state detecting unit 170 includes a first LED (Light Emitting Diode) 171 indicating a current when the current is applied to the rechargeable battery 130 and a second LED 172 displaying the charging state of the rechargeable battery 130. do. The second LED 172 may express different light according to the state of charge of the rechargeable battery 130 using a tri-color light emitting diode. For example, it is possible to display red when the state of charge is low, green when the state of charge is intermediate, and blue when the state of charge is completed. Since the three-color light emitting diode changes color in proportion to the applied voltage, the state of charge sensing unit 170 does not require a complicated circuit configuration.

FIG. 2B illustrates another embodiment of the DC-DC converter shown in FIG. 2A.

As illustrated, the DC-DC converter 150 may be implemented as a zener diode without using a dedicated integrated circuit (not shown). When the current consumption amount of the electronic device (not shown) connected to the power supply is small, as illustrated, a zener diode may be used to regulate the voltage output from the rechargeable battery 130.

Figure 3 shows a block diagram according to another embodiment of the present invention.

In the illustrated power supply device, the charging circuit 220, the rechargeable battery 230, and the DC-DC converter 250 charge state detection unit 270 are the same as described with reference to FIG. 2B, but the present embodiment is output from the rechargeable battery 230. It is characterized in that it comprises a switch 240 for selecting any one of the power source and the output power via the DC-DC converter 250. In this configuration, after the rechargeable battery 230 is completely charged by the charging circuit 220, the output power of the rechargeable battery 230 is DC-DC converted to the output jack 260 or the output power of the rechargeable battery 230 is output. Is to select to output directly to the output jack 260. When the output power of the rechargeable battery 230 has a predetermined voltage via the DC-DC converter 250 and is output to the output jack 260, an electronic device (not shown) electrically connected to the power supply device is applied to drive the same. And, if you want to charge the basic battery cell (not shown) built in the electronic device (not shown) with this power supply, the power to the rechargeable battery 230 directly through the output jack 260 through the electronic device ( (Not shown). Accordingly, the power supply device can be used as an extended battery cell connectable from the outside of the electronic device, or can be used as a charging device for charging the basic battery cell built in the electronic device. As mentioned above, since the output power of the rechargeable battery 230 is regulated by the DC-DC converter 250 when the output power of the rechargeable battery 230 is used as the driving power of the electronic device, the rechargeable battery 230 is a basic battery cell (not shown) embedded in the electronic device. It does not have to have the same voltage characteristics as h). For example, when the output voltage of the basic battery cell (not shown) incorporated in the electronic device is 1.2V, the output voltage of the rechargeable battery 230 may be 3V or more. Accordingly, since the rechargeable battery 230 has a much higher potential level than the basic battery cell (not shown), the rechargeable battery 230 may directly charge the basic battery cell (not shown) with the power charged in the rechargeable battery 230. The output voltage may be lowered to 1.2V using the DC-DC converter 250 to supply the electronic device. That is, the power supply device does not need to include a separate charging device for charging the rechargeable battery 230, and when the AC power cannot be used, the basic battery cell (not shown) is charged with the power stored in the rechargeable battery 230. Therefore, the electronic device provided with the power supply device is more portable than the related art.

As described above, the power supply device according to the present invention can be used in place of a basic battery cell that can be embedded in an electronic device, or can charge a basic battery cell, so that an electronic device can be provided without a dedicated charging device like a conventional electronic device. You can carry it for a long time. In addition, since the power supply device does not have to use the same type of battery cell as the basic battery cell embedded in the electronic device, it can be applied to other electronic devices of other companies as long as the operating voltage is the same.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the present invention is not limited to the specific embodiments of the present invention without departing from the spirit of the present invention as claimed in the claims. Anyone of ordinary skill in the art can make various modifications, as well as such changes are within the scope of the claims.

1 is a view for explaining a power supply method of an electronic device having a conventional basic battery cell and an extended battery cell,

Figure 2a is a block diagram of a power supply of the electronic device according to an embodiment of the present invention,

FIG. 2B is another embodiment of the DC-DC converter shown in FIG. 2A, and FIG.

Figure 3 shows a block diagram according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

110: input jack 120: charging circuit

130: rechargeable battery 140: switch

150: DC-DC converter 160: output jack

170: charge state detection unit 171: first LED

172: second LED

Claims (10)

delete delete delete delete delete In the power supply of the portable electronic device including a basic battery cell, An output stage connectable to the portable electronic device; A rechargeable battery that is higher than an output voltage of the basic battery cell and has an output voltage capable of charging the basic battery cell; A charging circuit configured to charge the rechargeable battery by receiving power from an outside; A regulator for lowering and outputting the output voltage of the rechargeable battery to the driving voltage of the portable electronic device; And And a power selector configured to switch one of the output power of the rechargeable battery and the output power of the regulator to the output terminal. When the power selector switches the output power of the rechargeable battery to the output terminal, the basic battery cell provided in the portable electronic device is charged by the output power of the rechargeable battery output through the output terminal to the portable electronic device. Power supply of the portable electronic device, characterized in that. delete delete delete delete