KR100626529B1 - Apparatus for controlling power of mobile communication terminal - Google Patents

Abstract

The present invention relates to a power control device of a mobile communication terminal to normally power off the mobile communication terminal, the drain terminal is connected to the enable pin of the power supply IC, the drain by the voltage applied through the gate terminal An N-channel FET which opens an N-channel between the source and the source and flows a voltage remaining at an enable pin of the power supply IC to a ground terminal to discharge the voltage remaining at the enable pin of the power supply IC; A short circuit connected to the gate terminal of the N-channel FET and turned on by a power-off signal to apply a voltage to the gate terminal of the N-channel FET, while maintaining a voltage continuously applied to the gate terminal of the N-channel FET. It is preferable to comprise a key diode.

Power-Off Signal, N-Channel FETs, Schottky Diodes, and Parallel Resistors

Description

Power control device for mobile communication terminal {APPARATUS FOR CONTROLLING POWER OF MOBILE COMMUNICATION TERMINAL}             

1 is a view showing the configuration of a power control device of a conventional mobile communication terminal by way of example.

2 is a view showing the configuration of a power control device of a mobile communication terminal according to an embodiment of the present invention by way of example.

The present invention relates to a power control device for a mobile communication terminal, and more particularly, to a power control device for a mobile communication terminal that can normally power off the mobile communication terminal.

When the terminal user normally turns off the power of the mobile communication terminal by using the END key, conventionally, as shown in FIG. 1, power is supplied so that the power supply of the terminal can be maintained even if the battery is temporarily removed. An NPN transistor TR is added to the enable pin of the power supply IC to discharge the charge of the capacitor added to the enable pin of the IC, and a high level power-off signal is applied to the base of the transistor TR. By applying, the voltage applied to the enable pin of the power supply IC becomes low, and the power supply to the terminal is cut off.

However, as described above, the power-off signal applied to the base terminal of the NPN transistor TR is located at the end of the terminal termination procedure in order to cut off the power supply of the terminal, so that the power-off signal applied to the transistor TR is When it is kept short, the time for which the transistor TR, which is a current operating element, is turned on is also shortened, so that the voltage remaining at the enable pin of the power supply IC does not completely fall to Low. Cases can occur.

Accordingly, there is a problem in that the power supply of the terminal is not normally cut off and thus the power is not turned off.

In addition, if a power off signal is generated and the terminal is normally powered off and then the power is applied again immediately, the voltage inside the terminal may be supplied without being completely discharged. There is a problem that the existing voltage overlaps the newly incoming voltage, which may cause abnormal operation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and the present invention relates to a mobile communication terminal capable of maintaining a voltage at a FET gate terminal due to a Schottky diode even when a power-off signal is generated using a FET as a voltage operation element. It is an object to provide a power supply control device.

In the power control apparatus of a mobile communication terminal according to an embodiment of the present invention for achieving the above object, the drain terminal is connected to the enable pin of the power supply IC, the drain and the terminal by the voltage applied through the gate terminal; An N-channel FET which opens the N-channel between the sources and flows the voltage remaining at the enable pin of the power supply IC to the ground terminal to discharge the voltage remaining at the enable pin of the power supply IC; A short circuit connected to the gate terminal of the N-channel FET and turned on by a power-off signal to apply a voltage to the gate terminal of the N-channel FET, while maintaining a voltage continuously applied to the gate terminal of the N-channel FET. It is preferable to comprise a key diode.

Furthermore, it is preferable to further include a resistor connected in parallel between the N-channel FET and the Schottky diode to discharge all the remaining voltage remaining inside the terminal.

Hereinafter, a power control apparatus for a mobile communication terminal according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 illustrates a road, an N-channel FET (MOSFET-N), a Schottky diode (D), and a parallel resistor, showing a configuration of a power supply control device of a mobile communication terminal according to an embodiment of the present invention. It is provided with (R).

In such a configuration, the N-channel FET (MOSFET-N) has a drain terminal connected to the enable pin of the power supply IC, and the N channel between the drain and the source is opened to supply power by a voltage applied through the gate terminal. By sending the voltage remaining at the enable pin of the IC to ground, the voltage remaining at the enable pin of the power supply IC is completely discharged.

The Schottky diode (D) is connected in series with the gate terminal of the N-channel FET (MOSFET-N), and is turned on by a power-off signal to apply voltage to the gate terminal of the N-channel FET (MOSFET-N). However, due to the characteristics of the Schottky diode D, the voltage applied to the gate terminal of the N-channel FET (MOSFET-N) is continuously maintained.

Referring to the above-described characteristics of the Schottky diode (D), the Schottky diode (D) reduces the forward turn-on voltage to about 0.2 ~ 0.3V by using a Schottky barrier to minimize the power loss, the voltage across the anode and cathode terminals The drop is as low as approximately 0.1V.

As described above, even if the power-off signal is short due to the characteristics of the Schottky diode D, the voltage applied to the gate terminal of the N-channel FET (MOSFET-N) is continuously maintained, whereby the N-channel FET (MOSFET-N) The N-channel between the drain and the source of the circuit is kept open, and any voltage remaining at the enable pin of the power supply IC flows through the N-channel FET (MOSFET-N) to the ground stage to be completely discharged.

The parallel resistor (R) is connected in parallel between the N-channel FET (MOSFET-N) and the Schottky diode (D) to discharge all residual voltage remaining inside the terminal, but by adjusting the resistance value, the N-channel FET ( MOSFET-N) controls the time the voltage is applied.

That is, by adjusting the resistance value, the time that the voltage between the Schottky diode (D) and the N-channel FET (MOSFET-N) flows out to the ground is adjusted, thereby controlling the time that the voltage is applied to the N-channel FET gate stage. Accordingly, the discharge time for discharging all of the remaining voltage remaining inside the terminal can be adjusted.

Hereinafter, an operation of a power control device of a mobile communication terminal according to an embodiment of the present invention will be described with reference to FIG. 2.

First, when the terminal user presses the end key and the terminal is normally turned off by the high level power-on signal, which is continuously applied, When the power-off signal is generated, the Schottky diode D is turned on by the power-off signal, and voltage is started to be applied to the gate terminal of the N-channel FET (MOSFET-N). Due to the characteristics, the voltage applied to the gate terminal of the N-channel FET (MOSFET-N) is continuously maintained even if the power-off signal is short.

As described above, the N-channel FET (MOSFET-N) applied with the voltage through the gate stage opens the N channel between the drain and source stages, so that any voltage remaining at the enable pin connected to the drain stage is grounded. Let it flow.

As described above, when all of the voltage remaining at the enable pin of the power supply IC is discharged, the power supply IC recognizes a signal coming through the enable pin at a low level, thereby stopping the power supply.

The apparatus for controlling a power supply of the mobile communication terminal of the present invention is not limited to the above-described embodiments, and may be variously modified and implemented within the range permitted by the technical idea of the present invention.

According to the power control apparatus of the mobile communication terminal of the present invention as described above, even if the power-off signal is short, the voltage applied to the FET gate terminal is continuously maintained due to the Schottky diode, so that any voltage remaining at the enable pin is maintained. By discharging, the terminal can be normally turned off.

In addition, the parallel discharge resistor added between the gate terminal of the N-channel FET and the Schottky diode makes it possible to completely discharge the residual voltage inside the terminal.

Claims (2)

The drain stage is connected to the enable pin of the power supply IC, and the voltage applied through the gate stage opens the N channel between the drain and the source to send the voltage remaining at the enable pin of the power supply IC to the ground stage. An N-channel FET for discharging the voltage remaining at the enable pin of the power supply IC; A short circuit connected to the gate terminal of the N-channel FET and turned on by a power-off signal to apply a voltage to the gate terminal of the N-channel FET, while maintaining a voltage continuously applied to the gate terminal of the N-channel FET. A power supply control device for a mobile communication terminal comprising a key diode. The power control apparatus of claim 1, further comprising a resistor connected in parallel between the N-channel FET and the Schottky diode to discharge all remaining voltage remaining inside the terminal.

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