KR20030083323A - Battery charger of internal mobile communication terminal - Google Patents

Abstract

PURPOSE: A battery charger device is provided to achieve improved user convenience by permitting the device to be used as a power supply when there is no battery and as a battery charger where there is a battery. CONSTITUTION: A battery charger device comprises a connector(20) for connecting an adaptor(10) and a battery(30) of a mobile communication terminal(200); a charger circuit(500) for receiving a battery charger voltage from the adaptor, charging the battery when a high potential control signal is input, and outputting a constant voltage when the battery is not mounted; a battery voltage detection unit(70) switched by the mounting of the battery, and which outputs a high potential or a low potential to the charger circuit; a CPU(400) which is turned on by the voltage of the battery or the voltage of the charger circuit so as to control the operation of the mobile communication terminal; and a drive power unit(60) for receiving voltages from the battery or the charger circuit, and supplying a drive power to the components of the mobile communication terminal.

Description

Battery charger in mobile terminal {BATTERY CHARGER OF INTERNAL MOBILE COMMUNICATION TERMINAL}

The present invention relates to a battery charging device in a mobile communication terminal, and in particular, to use the external power regardless of whether the CPU (CentralProcess Unit) on / off, the battery for power supply when there is no battery for charging the battery The present invention relates to a battery charging device in a mobile communication terminal.

In general, the battery charging device of the mobile communication terminal is implemented in a form separated from the mobile communication terminal for charging the battery through a charger with a built-in charging circuit. Therefore, in the conventional charger, not only the housing and the connector of the mechanical model are required, but also the CPU (CentralProcess Unit) for controlling the charging must be used separately from the mobile communication terminal, thereby increasing the manufacturing cost, thereby increasing the unit cost of the mobile communication terminal. There was a problem that the competitiveness with other companies fell.

As a result, the battery charging circuit has been recently implemented in an empty space of a PCB mounted in the mobile communication terminal, thereby reducing the manufacturing cost of the mobile communication terminal due to the manufacture of a separate charger, and will be described with reference to the accompanying drawings. As follows.

1 is an exemplary view showing the configuration of a battery charging device in a conventional mobile communication terminal, as shown in this is mounted on one side of the mobile communication terminal 100, the user to the adapter 10 to the mobile communication terminal 100 A connector 20 which connects the adapter 10 to the battery 30 attached to the mobile communication terminal 100; As the adapter 10 is connected to the connector 20, the charging circuit 60 receives the battery charging voltage from the adapter 10 and charges the battery 30 when the high potential control signal is input; A CPU (40) turned on by the voltage of the battery (30) and outputting the high potential control signal to the charging circuit; The driving power supply unit 60 receives the output voltage of the battery 30 and supplies driving power to the components inside the mobile communication terminal 100. The operation of the conventional device configured as described above will be described below.

First, the charging circuit 50 inside the mobile communication terminal 100 receives a direct current (DC) 5V output from the adapter 10 having no built-in charging circuit to charge the battery 30.

FIG. 2 is a diagram illustrating a battery terminal of a general mobile communication terminal. As the adapter 10 is connected to the power terminal POWER_5.2V receiving the DC 5V and the connector 20, the adapter 10 is connected to the adapter 20. When the charging voltage is applied from the battery 30, the on switch stage GND for outputting an on signal and the ground terminal GND for receiving a ground signal are configured.

The charging circuit 50 is possible only when the high voltage (HIGH) control signal of the CPU 40 is supplied from the battery as a condition for charging the battery 30.

That is, the charging circuit 50 is activated by the high potential control signal of the CPU 40 to apply a constant voltage to the battery 30.

As a result, the battery 30 is charged and supplies a voltage to the driving power supply unit 60 and the CPU 40.

However, when the conventional mobile communication terminal 100 operating as described above uses an external power source, it is only known whether the battery 30 is present or not when the CPU 40 is operating. When off, there was a problem that can not operate without a battery.

Accordingly, the present invention has been made to solve the above problems, the use of an external power source regardless of the on / off of the CPU in the absence of a battery for power supply for the battery if there is a battery for charging Can be used

That is, it is an object of the present invention to provide a battery charging device in a mobile communication terminal that allows a mobile communication terminal to be used for a call or other purpose when there is an internal charging integrated circuit even without the battery.

1 is an exemplary view showing the configuration of a battery charging device in a conventional mobile communication terminal.

2 is an exemplary view showing a battery terminal of a general mobile communication terminal.

Figure 3 is an exemplary view showing the configuration of a battery charging device in a mobile communication terminal of the present invention.

*** Explanation of symbols for main parts of drawing ***

10: Adapter 20: Connector

30: battery 60: driving power unit

70: battery voltage detector 200: mobile communication terminal

400: CPU 500: charging circuit

TR1, TR2: first and second transistors R1, R2, R3: first to third resistors

The present invention for achieving the above object, in the battery charging device of the mobile communication terminal to charge the voltage of the battery attached to the mobile communication terminal by receiving the battery charging voltage supplied from the adapter, one side of the mobile communication terminal A connector connected to the adapter and the battery attached to the mobile communication terminal when the user plugs the adapter into the mobile communication terminal; A charging circuit which receives the battery charging voltage from the adapter as the adapter is connected to the connector, charges the battery when the high potential control signal is input, and outputs a constant voltage when the battery is not installed; A battery voltage detection unit switched according to whether the battery is mounted and outputting a high potential or a low potential to the charging circuit; A CPU which is turned on by the voltage of the battery or the voltage of the charging circuit to control the mobile communication terminal as a whole; And a driving power supply unit receiving the output voltage of the battery or the output voltage of the charging circuit and supplying driving power to components inside the mobile communication terminal.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

3 is an exemplary view showing a configuration of a battery charging device in a mobile communication terminal according to the present invention. As shown in FIG. 3, the battery 30 is attached to the mobile communication terminal 200 by receiving a battery charging voltage supplied from the adapter 10. In the battery charging device of the mobile communication terminal 200 to charge the voltage of the), mounted on one side of the mobile communication terminal 200, when the user plugs the adapter 10 into the mobile communication terminal 200 A connector 20 connecting the adapter 10 and the battery 30 attached to the mobile communication terminal 200; As the adapter 10 is connected to the connector 20, the battery 30 is charged from the adapter 10 to charge the battery 30 when the high potential control signal is input, and the battery 30 is mounted. If not, the charging circuit 500 for outputting a constant voltage; A battery voltage detector 70 which is switched according to whether the battery 30 is mounted and outputs a high potential or a low potential to the charging circuit 500; A CPU 400 which is turned on by the voltage of the battery 30 or the voltage of the charging circuit 500 to control the mobile communication terminal as a whole; It is composed of a driving power supply unit 60 for receiving the output voltage of the battery 30 or the output voltage of the charging circuit 500 to supply the driving power to the components inside the mobile communication terminal 200, Referring to the operation and operation of the invention as follows.

The battery terminal of the present invention also consists of a battery terminal as shown in Fig. 2 which is the same as the conventional one.

First, the charging circuit 50 inside the mobile communication terminal 100 receives a DC 5V output from the adapter 10 in which the charging circuit is not embedded.

At this time, the conventional mobile communication terminal has charged the battery by the high potential or low potential control signal output from the CPU.

However, the present invention further includes a battery voltage detector 70 to charge the battery 30 regardless of whether the CPU 400 of the present invention is turned on or off.

The battery voltage detector 70 includes the first and second transistors TR1 and TR2 and predetermined resistors R1 to R3. The battery voltage detection unit 70 performs the following operation according to whether the battery 30 is mounted.

First, when the battery 30 is mounted on the mobile communication terminal 200, the battery 30 is charged, and second, when the battery 30 is not installed, the mobile communication terminal 200 is charged. Only power is supplied.

First, in the first case, the output voltage of the mounted battery 30 is input to the base terminal of the first transistor TR1 through the first resistor R1 of the battery voltage detector 70.

As a result, the first transistor TR1 is brought into a conductive state, and the emitter terminal of the first transistor TR1 is grounded so that the second transistor TR2 connected to the collector terminal of the first transistor TR1 is connected. The direct current (DC) 5V supplied from the adapter 10 cannot be applied to the base terminal side.

Therefore, the charging circuit 500 receives the high potential through the third resistor R3 of the battery voltage detector 70 to recognize that the battery 30 is present, charges the battery 30, and then charges the battery 30. ) Is charged and supplies voltage to the CPU 400 and the driving power supply 60.

In the second case, since the battery 30 is not installed, the output voltage of the direct current (DC) 5V of the adapter 10 is connected to the base terminal of the second transistor TR2 through the second resistor R2 of the voltage detector 70. Is entered.

As a result, the second transistor TR2 is brought into a conductive state, the emitter terminal of the second transistor TR2 is grounded, and a signal input to the charging circuit 500 through the third resistor R3 is cut off. The low potential state is entered.

Therefore, the charging circuit 500 recognizes that the battery 30 is not present and supplies power to the CPU 400 and the driving power supply unit 60.

As described in detail above, the present invention can be used for supplying power when there is no battery in using an external power source regardless of whether the CPU is on or off.

That is, even without the battery, if there is an internal charging integrated circuit, a mobile communication terminal can be used for a call or other purpose, thereby enabling a user to use a more convenient mobile communication terminal.

Claims (2)

In the battery charging device of the mobile communication terminal to charge the voltage of the battery attached to the mobile terminal by receiving the battery charging voltage supplied from the adapter, A connector mounted on one side of the mobile communication terminal and connecting the adapter and a battery attached to the mobile communication terminal when the user plugs the adapter into the mobile communication terminal; A charging circuit which receives the battery charging voltage from the adapter as the adapter is connected to the connector, charges the battery when the high potential control signal is input, and outputs a constant voltage when the battery is not installed; A battery voltage detection unit switched according to whether the battery is mounted and outputting a high potential or a low potential to the charging circuit; A CPU which is turned on by the voltage of the battery or the voltage of the charging circuit to control the mobile communication terminal as a whole; And a driving power supply unit configured to receive the output voltage of the battery or the output voltage of the charging circuit and supply driving power to components inside the mobile communication terminal. The battery voltage detector of claim 1, wherein the emitter terminal is grounded, and the second and third terminals are disposed between the collector terminal of the first transistor, the base terminal of which is connected to the first resistor, and the base terminal and collector terminal of the second transistor. A battery charging device in a mobile communication terminal, characterized in that the resistor is connected to the base terminal connected in series and the emitter terminal of the second transistor is grounded.