KR20160098710A - Power supply for mobile terminal - Google Patents

Abstract

The purpose of the present invention is to provide a power supply apparatus for a portable terminal, capable of reducing a power noise by supplying auxiliary operating power of an auxiliary battery unit after blocking main operating power of a main battery unit. The power supply apparatus for the portable terminal comprises: a main battery unit detached from the portable terminal and supplying the main operating power to a power terminal; an auxiliary battery unit electrically connected to the main battery unit in parallel and supplying the auxiliary operating power to the power terminal; a charging current path forming unit to form a charging current path to charge the auxiliary battery unit; a charging control unit to control a charging current path according to a residual current amount of the main battery unit; and a main switch unit to control an electrical connection among the main battery unit, the power terminal, and the auxiliary battery unit.

Description

[0001] Power supply for mobile terminal [0002]

The present invention relates to a power supply device for a portable terminal, and more particularly, to a portable terminal that can temporarily maintain the operation of the portable terminal by temporarily supplying an auxiliary driving voltage of the auxiliary battery to the portable terminal when the main battery is replaced, To a power supply of the power supply.

High-performance smartphones are equipped with high-capacity batteries because of their high power consumption. However, since the performance of smartphones is growing faster than the speed of battery technology, most users are carrying extra batteries and are using them when they are almost exhausted.

Generally, when replacing the battery of the smartphone, the power of the smartphone is turned off and the battery is replaced to prevent a power shock to the smartphone. Therefore, each time the battery is replaced, it is inconvenient to reboot after turning off the power of the smartphone.

Conventionally, a technique has been proposed in which a supercapacitor is connected in parallel to a battery, and the power charged in the supercapacitor is temporarily supplied to the smartphone while the battery is replaced.

However, in the case of the above-described technology, when the power noise generated at the moment of battery replacement is excessively introduced into the smartphone, the smartphone may be forcibly terminated, and due to excessive power noise, The circuit may be damaged.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-described technical problem, and it is an object of the present invention to provide a portable terminal which can reduce power noise by supplying auxiliary power of auxiliary battery part to a portable terminal after cutting off main driving power of main battery part, Supply device.

The present invention also provides a power supply device for a portable terminal capable of controlling a charging current path for charging the auxiliary battery part in accordance with the residual charged amount of the main battery part.

According to an embodiment of the present invention, there is provided a portable terminal comprising: a main battery unit detachably attached to a portable terminal and supplying a main driving power to a power terminal; An auxiliary battery unit electrically connected in parallel with the main battery unit and supplying auxiliary drive power to the power terminal; A charging current path forming unit forming a charging current path for charging the auxiliary battery unit; A charge controller for controlling the charge current path according to a residual charge amount of the main battery; And a main switch unit for controlling an electrical connection between the main battery unit and the auxiliary battery unit.

And a charging voltage display unit for visually displaying the charging amount of the auxiliary battery unit.

The auxiliary battery unit includes a plurality of unit capacitors connected in series to each other, and the charging current path forming unit is connected between the unit capacitors of the plurality of unit capacitors, and the plurality of selection signals output from the charging control unit And the charge current path is formed in the selected one or more unit capacitors.

The charge control unit controls the charge current path to be formed in the auxiliary battery unit when the residual charge amount of the main battery unit is less than 20%.

The charge control unit may be configured to automatically turn on the main switch unit turned off when the residual charge amount of the main battery unit is less than 20% so that a charge current path is formed in the auxiliary battery unit And a control unit.

Since the auxiliary power source of the auxiliary battery unit is supplied to the portable terminal while the main battery unit is being replaced, the power supply unit of the portable terminal according to the embodiment of the present invention can continue the operation of the portable terminal even when the battery is replaced. Therefore, inconvenience due to re-booting of the portable terminal and power consumption upon rebooting can be reduced.

Also, the power supply unit of the portable terminal can prevent the malfunction of the portable terminal and the power supply shock by supplying the auxiliary driving power of the auxiliary battery unit to the portable terminal after turning off the main driving power of the main battery unit.

The power supply unit of the portable terminal automatically controls the charge current path for charging the auxiliary battery unit according to the remaining charged amount of the main battery unit. Therefore, when the replacement time of the main battery unit approaches imminent, .

1 is a conceptual diagram of a power supply device of a portable terminal according to an embodiment of the present invention;
FIG. 2 is a detailed configuration diagram of a power supply device of the portable terminal of FIG. 1;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention.

1 is a conceptual diagram of a power supply device of a portable terminal according to an embodiment of the present invention.

1, a power supply unit of a portable terminal includes a main battery unit 100, a main switch unit 110, an auxiliary battery unit 200, a charge current path forming unit 300, a charge control unit 400, And a voltage display unit 500.

FIG. 1 shows a power supply unit of a portable terminal disposed on a rear surface of a portable terminal.

The portable terminal is a general term for a portable device such as a mobile phone, a smart phone, a smart pad and the like that the user can carry while using the portable terminal. In the present embodiment, the portable terminal is assumed to be a portable terminal configured as a smart phone.

The main battery unit 100 is detachably attached to the portable terminal, and when installed in the portable terminal, supplies the main driving power to the positive and negative power terminals of the portable terminal. Basically, the portable terminal operates using the main driving power supplied to the positive and negative power terminals.

Since the auxiliary battery unit 200 is electrically connected in parallel with the main battery unit 100, the auxiliary battery unit 200 can be charged using the power of the main battery unit 100.

The auxiliary battery unit 200 supplies the auxiliary driving power to the positive and negative power terminals so that the operation of the portable terminal is continued while the main battery unit 100 is being replaced. Unlike the detachable main battery unit 100, the auxiliary battery unit 200 may be formed as a built-in type. However, the auxiliary battery unit 200 may be additionally detachably attached to another auxiliary battery unit to increase the charging capacity.

The charging current path forming unit 300 forms a charging current path for charging the auxiliary battery unit 200. That is, the charging current path forming unit 300 forms a selective charging current path in the auxiliary battery unit 200 using the power of the main battery unit 100, so that the charging efficiency and stability of the auxiliary battery unit 200 .

The charge control unit 400 controls the charge current path according to the residual charge amount of the main battery unit 100. For example, when the residual charge amount of the main battery unit 100 is less than 20%, the charge control unit 400 controls the charge current path to be formed in the auxiliary battery unit 200 so that the auxiliary battery unit 200 is charged can do.

The charging voltage display unit 500 visually displays the charging amount of the auxiliary battery unit 200. [ The charge voltage display unit 500 includes a plurality of light emitting devices LED1, LED2, LED3, and LED4 so that the number of light emitting devices that turn on according to the charged amount can be adjusted. In addition, a plurality of light emitting devices (LED1, LED2, LED3, LED4) emitting different colors may be used to inform the charged amount.

The main switch unit 110 controls the electrical connection between the main battery unit 100 and the positive and negative power terminals and the auxiliary battery unit 200. That is, when the main switch unit 110 is turned on, the main battery unit 100 and the auxiliary battery unit 200 are electrically connected in parallel and electrically connected to the positive and negative power terminals. When the main switch unit 110 is turned off, the main battery unit 100 and the auxiliary battery unit 200 are electrically opened, and between the main battery unit 100 and the positive and negative power terminals And is electrically opened. When the main switch unit 110 is turned off, auxiliary driving power of the auxiliary battery unit 200 is transmitted to the positive and negative power terminals.

2 is a detailed configuration diagram of a power supply device of the portable terminal of FIG.

The power supply device of the portable terminal according to the present embodiment includes only a simple configuration for clearly explaining the technical idea to be proposed.

2, the power supply unit of the portable terminal includes a main battery unit 100, a main switch unit 110, an auxiliary battery unit 200, a charge current path forming unit 300, a charge control unit 400, And a voltage display unit 500.

The detailed configuration and main operation of the power supply device of the portable terminal configured as above will be described below.

The main battery unit 100 is detachably attached to the portable terminal, and when installed in the portable terminal, supplies the main driving power to the positive and negative power terminals of the portable terminal. The portable terminal operates using the main drive power supplied to the positive and negative power terminals. The main battery unit 100 is preferably composed of a lithium secondary battery.

Since the auxiliary battery unit 200 is electrically connected in parallel with the main battery unit 100, the auxiliary battery unit 200 can be charged using the power of the main battery unit 100.

The auxiliary battery unit 200 supplies the auxiliary driving power to the positive and negative power terminals so that the operation of the portable terminal is continued while the main battery unit 100 is being replaced. Unlike the detachable main battery unit 100, the auxiliary battery unit 200 may be formed as a built-in type. However, the auxiliary battery unit 200 may be additionally detachably attached to another auxiliary battery unit to increase the charging capacity.

The auxiliary battery unit 200 includes a plurality of unit capacitors C1, C2, C3, and C4 connected in series with each other. That is, when the main battery unit 100 is replaced, auxiliary drive power sources charged in the plurality of unit capacitors C1, C2, C3, and C4 are transmitted to the positive and negative power source terminals.

The charging current path forming unit 300 forms a charging current path for charging the auxiliary battery unit 200. That is, the charging current path forming unit 300 forms a selective charging current path in the auxiliary battery unit 200 using the power of the main battery unit 100, so that the charging efficiency and stability of the auxiliary battery unit 200 .

The charge current path forming unit 300 is connected to one or more unit capacitors connected between the plurality of unit capacitors C1, C2, C3, and C4 and selected by a plurality of select signals output from the charge controller 400 Thereby forming a charge current path. That is, the charging current path forming unit 300 includes a plurality of switches SW1, SW2, SW3, and SW4, each of which is connected between an anode of the unit capacitor and a cathode, (TURN ON), a current path is formed so that current does not flow to the corresponding unit capacitor. In addition, when the switch is turned off (TURN OFF), a current path is formed so that current flows in the unit capacitor.

A process of charging the auxiliary battery unit 200, that is, a plurality of unit capacitors C1, C2, C3, and C4, will be described in detail.

First, assuming that the power of the main battery unit 100 is supplied to the auxiliary battery unit 200, that is, a plurality of unit capacitors C1, C2, C3 and C4, a plurality of switches SW1, SW2, SW4 are all turned off. In this case, the charging current path is sequentially formed by the first unit capacitor C1, the second unit capacitor C2, the third unit capacitor C3, and the fourth unit capacitor C4 so that all of the unit capacitors are charged do.

Next, the charge control unit 400 continuously monitors the charge voltage of each unit capacitor, and generates a plurality of selection signals for controlling the operation of the plurality of switches SW1, SW2, SW3, and SW4 according to the monitoring result .

That is, the first unit capacitor C1, the third unit capacitor C3, and the fourth unit capacitor C4 reach the predetermined charging voltage and the charging is completed. Only the second unit capacitor C2 is charged with a predetermined charging voltage , Only the second switch SW2 is turned off and the remaining switches are maintained in the TURN ON state. At this time, the first unit capacitor C1, the third unit capacitor C3, and the fourth unit capacitor C4 are bypassed by the respective assigned switches, and only the second unit capacitor C2 is charged with the charge current path So that the second unit capacitor C2 is intensively charged.

Since the plurality of unit capacitors C1, C2, C3, and C4 are connected in series to each other, the auxiliary driving power can be stably supplied when each unit capacitor reaches a predetermined charging voltage. Therefore, The charge voltages of the plurality of unit capacitors C1, C2, C3, and C4 are monitored until a unit capacitor reaches a predetermined charge voltage to generate a plurality of select signals.

The charging voltage display unit 500 visually displays the charging amount of the auxiliary battery unit 200. [ The charging voltage display unit 500 includes a plurality of light emitting devices LED1, LED2, LED3, and LED4 so that the number of light emitting devices that turn on according to the charged amount can be adjusted. In addition, a plurality of light emitting devices (LED1, LED2, LED3, LED4) emitting different colors may be used to inform the charged amount.

The main switch unit 110 controls the electrical connection between the main battery unit 100 and the positive and negative power terminals and the auxiliary battery unit 200. That is, when the main switch unit 110 is turned on, the main battery unit 100 and the auxiliary battery unit 200 are electrically connected in parallel and electrically connected to the positive and negative power terminals. When the main switch unit 110 is turned off, the main battery unit 100 and the auxiliary battery unit 200 are electrically opened, and between the main battery unit 100 and the positive and negative power terminals And is electrically opened. Accordingly, when the main switch unit 110 is turned off, auxiliary driving power of the auxiliary battery unit 200 is transmitted to the positive and negative power terminals.

The user basically switches the main battery unit 100 after turning off the main switch unit 110 when the battery is replaced. That is, when the main switch unit 110 is turned off, the main battery unit 100 and the positive and negative power supply terminals are electrically opened. Therefore, power noise generated when the main battery unit 100 is replaced It is not transmitted to the positive and negative power terminals. TURN ON / TURN OFF of the main switch unit 110 may be selected by software or by a physical switch in the portable terminal.

Meanwhile, the charge control unit 400 may be configured to perform various charge control operations according to the embodiment.

The charge control unit 400 can control the charge current path according to the residual charge amount of the main battery unit 100. [ For example, when the residual charge amount of the main battery unit 100 is less than 20%, the charge control unit 400 controls the auxiliary battery unit 200 to automatically generate a charge current path so that the auxiliary battery unit 200 is charged .

When the remaining charge amount of the main battery unit 100 is less than 20%, the charge control unit 400 automatically turns on the main switch unit 110 turned off and turns on the auxiliary battery unit 200 so that the charge current path is forcibly formed. That is, when the user turns off the main switch unit 110 to turn off the main battery unit 100 for a long time, due to the limitation of the power supply of the auxiliary battery unit 200, Can be forcibly terminated. Therefore, when the residual charge amount of the main battery unit 100 is less than 20% and the main switch unit 110 is maintained in the TURN OFF state for a predetermined time or more, the charge control unit 400 controls the main switch unit 110 And turns it on forcibly (TURN ON).

The charge control unit 400 automatically charges the auxiliary battery unit 200 when the residual charge amount of the main battery unit 100 is 80% or more, and then the residual charge amount of the main battery unit 100 is 20% %, It is controlled so as not to charge the auxiliary battery unit 200. In addition, when the residual charge amount of the main battery unit 100 is less than 20%, the auxiliary battery unit 200 can be controlled to be charged again. The auxiliary battery unit 200 can be efficiently charged in consideration of the residual charged amount of the main battery unit 100 so that the capacity of the main battery unit 100 can be prevented from being drastically reduced due to the charging of the auxiliary battery unit 200 .

The charging control unit 400 basically forms a current path to always charge the auxiliary battery unit 200 by using the power of the main battery unit 100. However, the charging control unit 400 is configured to perform the various charging control operations described above according to the embodiment It will be possible.

Since the auxiliary power source of the auxiliary battery unit 200 is supplied to the portable terminal while the main battery unit 100 is being replaced, the power supply of the portable terminal according to the exemplary embodiment of the present invention can operate the portable terminal Lt; / RTI > Therefore, inconvenience due to re-booting of the portable terminal and power consumption upon rebooting can be reduced.

In addition, the power supply unit of the portable terminal may supply the auxiliary driving power of the auxiliary battery unit 200 to the portable terminal after cutting off the main driving power of the main battery unit 100, .

Since the power supply unit of the portable terminal automatically controls the charge current path for charging the auxiliary battery unit 200 according to the residual charged amount of the main battery unit 100, The charging amount of the auxiliary battery unit 200 can be kept at a maximum when the battery is imminent.

Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: main battery section
110: Main switch section
200: auxiliary battery section
300: charge current path forming portion
400: charge control unit
500: Charge voltage display unit

Claims (5)

A main battery unit detachably attachable to the portable terminal and supplying a main driving power to the power terminal;
An auxiliary battery unit electrically connected in parallel with the main battery unit and supplying auxiliary drive power to the power terminal;
A charging current path forming unit forming a charging current path for charging the auxiliary battery unit;
A charge controller for controlling the charge current path according to a residual charge amount of the main battery; And
A main switch unit for controlling an electrical connection between the main battery unit, the power terminal, and the auxiliary battery unit;
And a power supply for supplying power to the portable terminal.
The method according to claim 1,
And a charging voltage display unit for visually displaying a charging amount of the auxiliary battery unit.
The method according to claim 1,
Wherein the auxiliary battery unit includes a plurality of unit capacitors connected in series with each other,
Wherein the charge current path forming unit is connected between the unit capacitors of the plurality of unit capacitors and forms a charge current path in one or more unit capacitors selected by a plurality of select signals output from the charge control unit The power supply of the portable terminal.
The method according to claim 1,
Wherein the charge control unit comprises:
And controls the charging current path to be formed in the auxiliary battery unit when the residual charging amount of the main battery unit is less than 20%.
The method according to claim 1,
Wherein the charge control unit comprises:
Wherein when the residual charge amount of the main battery unit is less than 20%, the main switch unit turned off automatically turns on to control the charge current path to be formed in the auxiliary battery unit. The power supply of the terminal.

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