KR100733312B1 - Electric charging device of mobile communication terminal - Google Patents

Abstract

The present invention relates to a charging device for a mobile communication terminal, wherein a second battery for supplying a charging current to the first battery of the mobile communication terminal is provided so that any one of the first battery and the second battery corresponds to the strength of the charging current. Including a built-in charger to charge, the first battery and the second battery is selectively charged and the first battery is charged through the second battery when the external power is cut off, greatly increasing the convenience of the user, The efficiency is greatly increased.

Mobile communication terminal, first battery, second battery, first switch, second switch

Description

Electric charging device of mobile communication terminal

1 is a view showing a configuration of a charging device according to the prior art,

2 is a block diagram showing the configuration of a charging device for a mobile communication terminal according to the present invention;

3 is a circuit diagram showing the configuration of a charging device for a mobile communication terminal according to the present invention;

4 is a flowchart illustrating a method of operating a charging device of a mobile communication terminal according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: charger 10a: first battery

10b: secondary battery 11: output control unit

11a: determination unit 11b: signal processing unit

12: switching unit 12a: first switch

12b: second switch 13: charging current detection unit

14: charging circuit 20: power supply

The present invention relates to a charging device of a mobile communication terminal, and more particularly, to a charging device of a mobile communication terminal for supplying power to charge a battery of a mobile communication terminal, including a charger with a built-in battery.

In general, the mobile communication terminal receives power through an adapter to charge a battery, or receives power through external terminal contact with a charger connected to the adapter to charge a battery.

1 is a diagram illustrating a configuration of a charging device of a mobile communication terminal according to the related art. As shown in FIG. 1A, the mobile communication terminal according to the related art is directly connected to the adapter 2 to charge the battery 1.

In addition, in order to charge the charger built in the mobile communication terminal, as shown in FIG. 1B, the built-in charger 2 should be connected to the adapter 3 to be charged separately from the battery.

However, the conventional charging device has to charge the battery of the mobile communication terminal and the built-in charger separately, there is a problem that the user is greatly reduced in ease.

The present invention has been made to solve the above-described problems of the prior art, the power is supplied to the battery or a charger built in the mobile communication terminal through a switching operation according to the strength of the current, when the power supply is cut off from the outside It is also an object of the present invention to provide a charging device of a mobile communication terminal so that power is supplied to the battery through the charging power of the built-in charger.

The charging device of a mobile communication terminal according to the present invention for solving the above problems is provided with a power supply unit for supplying power from the outside, a first battery for supplying the operating power of the mobile communication terminal, the mobile communication terminal, When no power is supplied from the power supply, a second battery is provided to supply charging power to the first battery, and the first battery and the second battery correspond to the strength of the charging current supplied from the power supply. It includes a built-in charger for any one of the charge.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. 2 is a block diagram showing the configuration of a charging device for a mobile communication terminal according to the present invention, Figure 3 is a circuit diagram showing the configuration of a charging device for a mobile communication terminal according to the present invention.

As shown in FIG. 2, the charging device of the mobile communication terminal according to the present invention supplies a first battery 10a for supplying operation power to the mobile communication terminal, and supplies charging power to the mobile communication terminal 10 from the outside. When the power supply is cut off from the power supply unit 20 and the power supply unit 20 is provided with a second battery (10b) for supplying a charging current to the first battery (10a), when the power supply from the power supply unit 20 In addition, according to the strength of the charging current includes a built-in charger 10 to be powered by the first battery (10a) or the second battery (10b) to be charged.

The built-in charger 10 supplies a charging current to the first battery 10a and the second battery 10b by converting the second battery 10b and the external power supplied from the power supply unit 20. A switching unit connected between the charging circuit 14 and the first battery 10a and the second battery 10b and the charging circuit 14 to supply or cut off the charging current supplied from the charging circuit 14 ( 12, a charging current sensing unit 13 for sensing a charging current, and an output control unit 11 for controlling the operation of the switching unit 12 according to the strength of the current sensed by the charging current sensing unit 13. It is configured to include).

The second battery 10a is provided inside the mobile communication terminal, and the power of the power supply unit 20 is charged and charged through the charging circuit and the switching unit 12, and the power is supplied from the power supply unit 20. If this is blocked, the charging current is supplied to the first battery 10a under the control of the output controller 11.

The charging current detector 13 detects the charging current of the first battery 10a when the power is supplied to the first battery 10a according to a setting, and supplies power to the second battery 10b. In this case, the charging current of the second battery 10b is sensed.

The output control unit 11 receives power input through the power supply unit 20 in response to the charging current detected by the charging current detecting unit 13 through the charging circuit 14 through the first battery 10a and The switching unit 12 is controlled to be supplied to any one of the second batteries 10b.

At this time, the output control unit 11 is determined from the determination unit 11a for determining the strength of the current sensed by the charging current detection unit 13, and from the first battery 10a or the second battery (10b) And a signal processor 11b for applying a high signal or a low signal to the switching unit 12 according to the sensed intensity of the charging current.

When the determination unit 11a applies power to the first battery 10a, the charging current and the reference value I detected by the charging current sensing unit 13 with respect to the power supplied to the first battery 10a. Compare and judge.

In addition, when the power supply unit 11a is applied to the second battery 10b, the determination unit 11a detects the charging current and the reference value detected by the charging current sensing unit 13 for the power supplied to the second battery 10b. (I) is compared and judged.

In this case, when power is supplied to the first battery 10a, the signal processing unit 11b is the reference value I of the intensity of the charging current detected from the first battery 10a through the determination unit 11a. When it is determined to be less than or equal to, a high signal is applied to the switching unit 12, and when the intensity of the charging current detected from the first battery 10a is greater than or equal to the reference value I, the switching unit 12 Apply a low signal.

That is, when the charging of the power supply of the first battery 10a is completed, the signal processing unit 11b has the intensity of the charging current according to the charging voltage of the first battery 10a being greater than or equal to the reference value I, A low signal is applied to the switching unit 12 so that a current signal is applied to the two batteries 10b.

In addition, when the signal processor 11b is supplied with power to the second battery 10b, the intensity of the charging current detected from the second battery 10b through the determination unit 11a is the reference value I. When it is determined to be abnormal, a low signal is applied to the switching unit 12, and when the intensity of the charging current detected from the second battery 10b is greater than or equal to the reference value I, the switching unit 12 is applied. Apply a high signal.

That is, when charging of the power supply of the second battery 10b is completed, the signal processing unit 11b has the intensity of the charging current according to the charging voltage of the second battery 10b being greater than or equal to the reference value I. A high signal is applied to the switching unit 12 so that a current signal is applied to the two batteries 10b.

For example, the signal processor 11b may have a preset reference value I of 100 mA when charging the power of the first battery 10a and the first battery detected by the charging current detector 13. When the intensity of the charging current of 10a is 70 mA, since the intensity of the charging current is less than or equal to the reference value I, a high signal is applied to the switching unit 12.

In addition, when the strength of the charging current of the first battery 10a detected by the charging current detecting unit 13 is 110 는, the signal processing unit 11b may have a strength greater than or equal to the reference value I. A low signal is applied to the switching unit 12.

The switching unit 12 includes first switches FET1 and 12a for applying a current signal to the first battery 10a and second switches FET2 and 12b for applying a current signal to the second battery 10b. It is configured to include).

In this case, when a high signal is applied from the output control unit 11, the switching unit 12 turns on the first switches FET 1 and 12a and turns the second switches FET 2 and 12b on. OFF to apply a current signal to the first battery 10a.

In addition, when the low signal is applied from the output controller 11, the switching unit 12 turns off the first switches FET1 and 12a and the second switches FET2 and 12b. By turning ON, a current signal is applied to the second battery 10b.

As shown in FIG. 3, the switching unit 12 includes a field effect transistor (FET) 'FET1' in each of the first and second switches FET1 and 12a and FET2 and 12b. 'FET2' is provided to drive the 'FET1' or 'FET2' according to the signal applied through the output control unit 11.

In this case, when the high signal is applied from the output controller 11, the gate voltage of the 'FET1' and 'FET2' becomes high to increase the metal. 'FET1', which is an oxide semiconductor FET (MOSFET, Metal-Oxide Semiconductor FET), is ON, and 'FET2', which is a depletion type metal oxide semiconductor FET (MOSFET), is OFF.

In addition, when a low signal is applied from the output control unit 11, the gate voltage of the 'FET1' and 'FET2' becomes low, so that the switching unit 12 increases. 'FET1', which is an oxide semiconductor FET (MOSFET, Metal-Oxide Semiconductor FET), is OFF, and 'FET2', which is a depletion type metal oxide semiconductor FET (MOSFET), is ON.

The charging current detector 13 is provided with a plurality of resistors to sense the charging current of the first battery 10a or the second battery 10b by using a difference in voltage across the resistor.

Looking at the operation of the present invention configured as described above are as follows. 4 is a flowchart illustrating a method of operating a charging device of a mobile communication terminal according to the present invention.

When the power supplied from the outside is applied to the first battery, the charging current according to the charging voltage of the first battery is sensed and the strength of the charging current of the first battery is measured (S1).

In this case, the measured charging current strength is compared with a preset reference value I (S2), and when the charging current strength of the first battery is less than or equal to the reference value I, the first switch and the second switch are high. The signal is output (S3).

 When a high signal is applied to the first switch and the second switch, the first switch is turned on and the second switch is turned off (S4) to cut off power supply to the second battery. In operation S5, power is supplied to the first battery so that the first battery is charged (S6).

In addition, when it is determined that the charging current intensity of the first battery is greater than or equal to the reference value I, a low signal is output to the first switch and the second switch (S7).

At this time, when a low signal is applied to the first switch and the second switch, the first switch is turned off and the second switch is turned on (S8) to supply power to the first battery. Blocking (S9), and supplying power to the second battery to charge the second battery built in the built-in charger (S10).

As described above, the charging device for a mobile communication terminal according to the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed in the present specification, and it is applied within the scope of the technical idea. Can be.

In the charging device of the mobile communication terminal according to the present invention configured as described above, the power is supplied to the battery provided in the built-in charger according to the strength of the charging current of the battery when the power is supplied to the battery of the mobile communication terminal. Thus, since the built-in charger does not need to be charged separately from the battery of the mobile communication terminal, the convenience of the user is greatly increased, and power can be supplied to the battery through the built-in charger without a separate power supply during power failure. The efficiency of the terminal charging is greatly increased.

Claims (5)

A power supply unit for supplying power from the outside; A first battery for supplying operation power of the mobile communication terminal; The second battery is provided inside the mobile communication terminal and supplies a charging power to the first battery when the power is not supplied from the power supply, and corresponds to the strength of the charging current supplied from the power supply. And a built-in charger configured to charge one of the first battery and the second battery. The method of claim 1, The built-in charger may include a charging circuit configured to supply a charging current to the first battery and the second battery by converting power supplied from the power supply unit; A switching unit connected between the first battery and the second battery and the charging circuit to supply the charging current of the charging circuit to any one of the first battery and the second battery; A charging current sensing unit sensing a charging current of power supplied from the power supply unit; And And an output control unit for controlling the switching unit in response to the intensity of the current sensed by the charging current sensing unit. The method of claim 2, The output control unit controls the switching unit to charge the first battery when the intensity of the charging current detected by the charging current detecting unit is less than a reference value, And when the intensity of the charging current is greater than or equal to a reference value, controlling the switching unit to charge the second battery. The method of claim 2, The switching unit is a first switch connected to the first battery to supply or cut off the charging current of the charging circuit; And a second switch connected to the second battery to supply or cut off the charging current of the charging circuit to the second battery. The method according to claim 3 or 4, The switching unit is turned on when the high signal is applied from the output controller, the second switch is turned off (OFF), The first switch is turned off when the low signal is applied, the second switch is turned on (on), characterized in that the charging device of the mobile communication terminal.

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