KR200315793Y1 - Circuit for protecting the power on of mobile phone - Google Patents

Abstract

An object of the present invention is to provide a power-on prevention circuit of a mobile communication terminal for preventing a power-on phenomenon due to a force-press of a power switch when a folder is closed in a folder-type mobile communication terminal in a power-off state.

To this end, the present invention is a circuit for preventing power-on of a folding mobile communication terminal in a power-off state, and the power supply is supplied to the CPU when the power switch is forcibly pressed by a power switch of the folding mobile communication terminal in a power-off state. And a CPU power supply interrupting means for interrupting power supply, and a CPU power supply means for normally supplying power supplied to the CPU when the clamshell mobile communication terminal operates normally. The grounded mobile terminal in the power-off state is always maintained in the power-off state to provide a useful effect of preventing unnecessary battery consumption.

Description

Circuit for protecting the power on the mobile terminal {Circuit for protecting the power on of mobile phone}

The present invention relates to a power-on prevention circuit of a mobile communication terminal, and in particular, a mobile communication terminal for preventing a power-on phenomenon by forcibly pressing a power switch when a folder is closed in a folder-type mobile communication terminal in a power-off state. It relates to a power-on prevention circuit of.

The power switch of the conventional mobile communication terminal as shown in Figure 1 is usually used a soft touch switch to soften the user's touch feeling, this soft touch switch can be operated simply by pressing lightly.

2 illustrates an example of a switching signal transfer circuit of a conventional soft touch switch.

As shown in FIG. 2, the power switch 10 is a soft touch power switch, and the resistor R1 appropriately lowers the voltage of the UPR (Uninteruptable Power Rail) power source 11 to input the power switch 10 signal input. Resistance to supply

In the normal state, the voltage of the power supply circuit 20 is supplied to the CPU 30 of the terminal from the power supply 11 through the resistor R1 to the input terminal of the power switch 10.

In this state, when the terminal user presses the soft touch power switch 10 for a predetermined time to supply power to his terminal, the power supply voltage from the power supply circuit 20 supplied to the power switch 10 input terminal. The soft touch power switch 10 is supplied to the CPU 30 to operate the terminal.

In this way, when the terminal is powered on, the power of the power circuit 20 is supplied to the folder detection circuit 40, and then the folder detection circuit 40 sends a folder detection signal to the CPU 30.

The soft touch power switch 10 operated as described above is convenient because it can smoothly and accurately transmit a switching signal, but there is a problem in that the on / off operation is performed even in an unauthorized terminal state.

For example, when an authorized user wants to keep the folder terminal in an inactive state, there is no way to limit the on operation of the folder terminal due to an unauthorized press.

In the general case, the power switch 10 is not pressed when the folder is closed, but when the power switch of the folder terminal is protruded mechanically, the power switch (10) is subjected to external pressure when the folder is closed. Since 10) may be forcibly pressed, power is forcibly turned on, contrary to the intention of the user of the folder terminal, causing unnecessary battery voltage consumption.

In this case, when the power of the folder terminal is turned on, it is possible to prevent the power-off by recognizing the closed state of the folder. However, when the power of the folder terminal is turned off, it is difficult to solve the software.

Since the software SW is enabled only when the CPU 30 operates, the CPU 30 cannot operate in the power-off state and thus cannot be used.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and moves to prevent the power-on phenomenon caused by the power switch being pressed when the folder is closed in the power-off folder type mobile communication terminal. It is an object of the present invention to provide a power-on prevention circuit of a communication terminal.

In order to achieve the above object, the present invention provides a circuit for preventing the power-on of a folding mobile communication terminal in a power-off state, wherein the power switch is forcibly pressed by a power switch to power the CPU. And a CPU power supply interrupting means for cutting off the power supplied to the CPU when supplied, and a normal CPU power supply means for normally supplying power supplied to the CPU when the clamshell mobile communication terminal operates normally.

The CPU power supply disconnecting means includes a first MOS transistor operated by an output of a folder sensing circuit that detects a terminal folder when the terminal folder is closed and outputs a high signal, and the first MOS transistor operates when the base terminal applying signal is a high signal. Type MOS transistor.

The normal CPU power supply means includes a second MOS transistor operated by an output of a folder sensing circuit that detects a terminal folder when the terminal folder is opened and outputs a low signal. The second MOS transistor operates when the base terminal applying signal is a low signal. NPN type MOS transistor.

1 is an external configuration of a conventional clamshell mobile communication terminal.

2 is a configuration diagram of a switching signal transmission circuit of a power switch in a conventional clamshell mobile communication terminal.

3 is a block diagram of a power-on prevention circuit of the clamshell mobile communication terminal according to an embodiment of the present invention.

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

5: folder terminal 10: power switch

11: UPR power stage 60, 61: MOS transistor

R1, R2: resistor 51: battery power supply

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

3 is a block diagram of a power-on prevention circuit of a mobile communication terminal according to an embodiment of the present invention, which is configured to supply a power switch 10 signal input terminal by appropriately lowering the voltage of the UPR power source 11, which is a power source that is always operating. A first resistor R1 is connected to the UPR power source 11 terminal.

The power switch 10 and the power supply circuit 20 are connected to the UPR power supply 11 through the first resistor R1, and a first metal oxide semiconductor transistor 60 is connected to the power switch 10. ) Is connected to the CPU 30 at the same time.

The power supply circuit 20 connects the folder detection signal 52 to the CPU 30 via a second resistor R2 to a supply terminal 21 to which power is supplied only when the power is on. 61).

The first MOS transistor 60 is a PNP type MOS transistor that operates when a high signal is applied to the base terminal, and the second MOS transistor 61 is an NPN type MOS transistor that operates when a low signal is applied to the base terminal.

The folder sensing circuit 50, which receives the battery power 51, is connected to the base end of the first and second MOS transistors 60 and 61, respectively, and the first and second MOS transistors 60 and 61 are connected to each other. Ground all emitters.

In the power on prevention circuit of the present invention made of the configuration as described above will be described in detail their operation.

In the folder-type mobile communication terminal, the user turns off the power and then closes the folder. In this case, when the folder terminal power switch 10 is forcibly pressed for a certain time by a forced press of the external terminal, the UPR power source 11 is the power that is always operated. The power supply of the power supply circuit 20 is supplied to the CPU 30 through the forcibly turned on the power switch 10, but at this time, the folder detection circuit 50 operating by receiving the battery power 51 is the folder of the terminal. Detects that is closed and outputs the output signal as a high signal.

The high output signal of the folder sensing circuit 50 is applied to the base ends of the first and second MOS transistors 60 and 61, but the second MOS transistor 61 operating at the low signal is turned off and operated at the high signal. The first MOS transistor 60 is turned on and flows to the emitter through the base terminal where the voltage of the collector terminal is turned on and grounded.

Therefore, since the conduction voltage of the forcibly turned on power switch 10 is not supplied to the CPU 30 and flows to the turned on first MOS transistor 60, the CPU 30 continues to be in an off state. it does not work.

Therefore, the folder terminal in the off state is forced from the outside, even if the power switch is forcibly turned on, the folder terminal always maintains the power off state.

Meanwhile, when the folder terminal user turns on the power or otherwise opens a folder of the terminal for use of the terminal, the folder detecting circuit 50 detects this and outputs the output signal as a low signal.

The low output signal of the folder sensing circuit 50 is applied to the base ends of the first and second MOS transistors 60 and 61, but the first MOS transistor 60 operating at the high signal is turned off and operated at the low signal. The second MOS transistor 61 is turned on so that the power of the power supply circuit 20 for supplying power only when the voltage at the collector end, that is, the power-on 21 is supplied to the folder sensing signal 52 through the second resistor R2. The folder terminal is transferred to the CPU 30 to operate.

Therefore, the folder terminal in the on state is always maintained in the normal operating state through the folder open detection of the folder detecting circuit 50.

As described in detail above, the present invention uses a MOS transistor to prevent power from being applied to the CPU even when the power switch is forcibly pressed when the folder is closed in the power-off folder type mobile communication terminal. The off-line clamshell mobile terminal provides a useful effect of preventing unnecessary battery consumption by always maintaining a power-off state.

Claims (5)

In the circuit for preventing the power-on of the folding mobile communication terminal in the power off state, A CPU power supply disconnecting means for cutting off the power supplied to the CPU when the power switch is forcibly pressed by the folding mobile communication terminal in the power off state; And a CPU power supply means for supplying power normally supplied to the CPU during the normal operation of the clamshell mobile communication terminal. The method according to claim 1, And the CPU power supply disconnecting means comprises a first MOS transistor operated by an output of a folder sensing circuit that detects when the terminal folder is closed and outputs a high signal. The method according to claim 2, And the first MOS transistor is a PNP type MOS transistor that operates when the base terminal applying signal is a high signal. The method according to claim 1, The power supply preventing circuit of the mobile communication terminal, characterized in that the CPU power supply means is composed of a second MOS transistor which is operated by the output of the folder detection circuit for detecting the terminal folder is opened and outputs a low signal. The method according to claim 4, And the second MOS transistor is an NPN type MOS transistor that operates when the base terminal applying signal is a low signal.