KR100277171B1 - Automatic power supply circuit when battery is combined in mobile communication terminal - Google Patents

Abstract

The present invention relates to an automatic power supply circuit when a battery is coupled in a mobile communication terminal. Particularly, when the terminal user separates the battery from the main body and then recombines the battery, the battery power for performing various functions is performed even if the user does not operate the power switch. The present invention relates to an automatic power supply circuit when a battery is coupled in a mobile communication terminal to be automatically supplied.

In the conventional mobile communication terminal, since power is not supplied to the main body circuit part even when the main body and the battery are combined, there is an inconvenience in that the user must turn on the power switch in order to use the terminal.

The present invention comprises a power supply automatic supply circuit between the battery and the DC-DC converter to automatically supply the battery power to the main body circuit part by using the pulse generated due to the load when the battery and the mobile communication terminal body is coupled, When the battery is coupled to the main body, it is possible to automatically supply power to the main body circuit unit that performs various functions even without a separate power switch operation.

Description

Automatic power supply circuit when battery is combined in mobile communication terminal

The present invention relates to an automatic power supply circuit when a battery is coupled in a mobile communication terminal. Particularly, when the terminal user separates the battery from the main body and then recombines the battery, the battery power for performing various functions is performed even if the user does not operate the power switch. The present invention relates to an automatic power supply circuit when a battery is coupled in a mobile communication terminal to be automatically supplied.

In general, when the battery power is discharged while the mobile terminal is used, and the user wants to replace the battery with another battery or charge the battery, the user separates the battery from the body of the mobile terminal. In order to use, you had to turn on the power by pressing the power switch located on the keypad of the terminal after connecting the battery to the main body.

On the other hand, the power supply structure in the conventional mobile communication terminal as described above is a battery 11, a DC-DC converter 12, a power switch 13 and the main body circuit unit as shown in FIG. 14 is provided.

The battery 11 supplies DC power required to perform various functions of the main body circuit unit 14, and the DC-DC converter 12 converts the DC power supplied from the battery 11 into AC, and then transformers. The voltage is increased and rectified by a transformer to transform the DC power supply to the main body circuit section 14.

The power switch 13 performs a switch function for connecting or disconnecting the flow of power supplied from the battery 11 to the main body circuit unit 14 through the DC-DC converter 12, and the main body circuit unit 14. ) Performs various functions by providing various circuit components constituting the mobile communication terminal, and operates by a power supplied from the battery 11 through the DC-DC converter 12.

The user of the conventional mobile communication terminal configured as described above needs to supply power necessary for the operation of the main body circuit unit 14 in order to use the mobile communication terminal after detaching and recombining the battery 11 from the main body. The user presses the power switch 13 located on the keypad of the terminal, and as the corresponding power switch 13 is turned on internally, a control pin of the DC-DC converter 12 is shown. Is not applied).

Then, the control pin of the DC-DC converter 12 receives the power supplied from the battery 11 by a predetermined signal applied from the power switch 13, that is, a signal of 'low' level, and the main body circuit unit 14. Will be supplied to the side.

That is, in the conventional mobile communication terminal, even when the battery 11 is installed in the main body, the control pin of the corresponding DC-DC converter 12 is converted to the 'low' level by the user's power switch 13 operation. Since the power from the battery 11 is not supplied to the main body circuit portion 14, the user must turn on the power switch 13 in order to use the mobile communication terminal.

As described above, in the conventional mobile communication terminal, even when the main body and the battery are combined, power is not supplied to the main body circuit part, so that the user needs to turn on the power switch in order to use the terminal.

The present invention is to solve the above problems, the object of the present invention is to automatically supply the power supply that can automatically supply the battery power to the main body circuit part by using the pulse generated due to the load when the mobile communication terminal and the battery is coupled By configuring a circuit between the battery and the DC-DC converter, when the battery is coupled to the main body, it is possible to automatically supply power to the main body circuit unit that performs various functions without a separate power switch operation.

1 is a block diagram showing a power supply structure in a conventional mobile communication terminal.

Figure 2 is a block diagram showing a structure for automatically supplying power when the battery in the mobile communication terminal according to the present invention.

3 is an automatic power supply circuit diagram when the battery is combined in a mobile communication terminal according to the present invention.

Explanation of symbols on the main parts of the drawings

21: battery 22: automatic power supply control circuit

23: DC-DC converter 24: main body circuit

25: power switch C1, C2: capacitor

D1, D2, D3: Diodes R1, R2, R3: Resistance

TR: Transistor

A feature of the present invention for achieving the above object is a mobile communication terminal having a DC-DC converter for supplying power from a battery to the main body circuit portion, which is provided between the battery and the DC-DC converter, The apparatus further includes a power supply automatic control circuit for automatically supplying power to the main body circuit part by operating the DC-DC converter by using a pulse generated by a load when the main body of the mobile communication terminal and the battery are coupled to each other. .

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

In the mobile communication terminal according to the present invention, the automatic power supply structure when the battery is coupled, as shown in FIG. 2, the battery 21, the automatic power supply control circuit 22, and the DC-DC converter 23. And a main body circuit section 24 and a power switch 25, the battery 21, the DC-DC converter 23, the main body circuit section 24, and the power switch 25 are attached. Since the description is the same as the conventional configuration shown in FIG. 1, the description thereof will be omitted. However, the automatic power supply control circuit 22 is installed between the battery 21 and the DC-DC converter 23, and the terminal body. And battery 21 are automatically supplied with power to the main body circuit part 24 by operating the corresponding DC-DC converter 23 by using a pulse generated by the load. It performs the function.

On the other hand, the automatic power supply control circuit unit 22 is a plurality of capacitors (C1, C2), a plurality of diodes (D1, D2, D3), and a plurality of resistors (R1, R2, R3) as shown in FIG. And a transistor TR, and FIG. 3 further includes a battery 21, a DC-DC converter 23, and a power switch 25, which are the same block as that of FIG. 2. .

The automatic power supply operation when the battery is combined in the mobile communication terminal according to the present invention configured as described above is as follows.

First, the basic operation of the DC-DC converter 23 is performed even if the battery 21 is mounted on the main body and power is supplied to the input port. Output) does not supply power to the main body circuit unit 24, and stable control power can be supplied to the main body circuit unit 24 only when the corresponding control pin maintains the 'low' level.

Therefore, in the present invention, by including the automatic power supply control circuit unit 22 between the battery 21 and the DC-DC converter 23, the load to the load at the moment when the mobile communication terminal main body and the battery 21 is coupled The first current path is formed in the automatic power supply control circuit unit 22 by the generated pulse, and power is supplied to the base terminal B of the transistor TR, and the second current path is formed to form a DC-DC converter. Power is supplied to the input port Input of the 23, and a third current path is formed to supply power to the collector terminal C of the transistor TR and to instantly control the DC-DC converter 23. The pin is at the 'low' level to supply power to the main body circuit section 24.

In more detail, first, the pulse generated by the load at the moment of coupling the corresponding battery 21 is charged in the first capacitor C1 of the automatic power supply control circuit unit 22, and then the first diode D1. After the first current path for supplying the 'high' level power to the base terminal B of the transistor TR is formed, the second current path and the third current path are simultaneously formed, and the corresponding DC-DC converter is formed. Power is supplied to the main body circuit unit 24 through the 23, and the power of the second current path from the battery 21 through the first resistor R1 is supplied to the base terminal B of the transistor TR. As the 'high' level is supplied, the 'low' level is instantaneously supplied to the collector terminal C of the transistor TR, and the control pin of the corresponding DC-DC converter 23 is 'low' level. It becomes

Accordingly, the DC-DC converter 23 supplies the power through the third current path supplied from the battery 21 to the input port to the main body circuit part 24 through the output port.

In addition, in order to continuously maintain the control pin of the DC-DC conversion section 23 at the 'low' level to supply a continuous and stable power to the main body circuit section 24, the third resistor (CPU) from the central processing unit (CPU) ( By forming a fourth current path for continuously maintaining the base terminal B of the transistor TR at the 'high' level through R3) and the third diode D3, the collector terminal of the transistor TR ( C) is continuously maintained at the 'low' level, while the control pin of the corresponding DC-DC converter 23 is maintained at the 'low' level, so that the main body circuit part 24 can be supplied with continuous and stable power. do.

As described above, the present invention provides an automatic power supply circuit between the battery and the DC-DC converter to automatically supply the battery power to the main body circuit part by using the pulse generated by the load when the mobile communication terminal body and the battery are combined. In this configuration, when the battery is coupled to the main body, power can be automatically supplied to the main body circuit unit that performs various functions even without a separate power switch operation.

Claims (2)

A mobile communication terminal having a DC-DC converter for supplying power from a battery to a main body circuit part, Installed between the battery and the DC-DC converter, the DC-DC converter is operated by using a pulse generated by the load when the mobile communication terminal body and the battery is coupled to automatically supply power to the main body circuit part side. The automatic power supply circuit when the battery is coupled in the mobile communication terminal, characterized in that it further comprises a power supply automatic supply control circuit for supplying. The method of claim 1, The automatic power supply control circuit unit may include: a first current path configured to supply a 'high' level power to a base terminal of a transistor through a first diode after a pulse generated by the load is charged to a first capacitor; As the 'high' level power is supplied to the base terminal of the transistor, the 'low' level power is instantaneously supplied to the collector terminal of the transistor and the control pin of the DC-DC converter through a first resistor from the battery. A second current path; And a third current path for supplying power to the input port of the DC-DC converter from the battery.