KR20010001325U - Power Control Circuit In Mobile Telecommunication Terminal - Google Patents

Abstract

The present invention relates to a power control circuit in a mobile communication terminal, and in particular, when a button set arbitrarily set in a mobile communication terminal in preparation for an emergency call even in a state of being discharged by battery discharge of the mobile communication terminal, The present invention relates to a power supply control circuit in a mobile communication terminal which is turned on to make an emergency call.

The present invention sets a reference power level so that an emergency call can be made in preparation for an emergency state with respect to the battery power of the mobile communication terminal, so that the mobile communication terminal can prepare for an emergency call even in a down state due to battery discharge of the mobile communication terminal. By operating a button set arbitrarily, the mobile communication terminal is turned on to enable an emergency call.

Description

Power control circuit in a mobile communication terminal

The present invention relates to a power control circuit in a mobile communication terminal, and in particular, when a button set arbitrarily set in a mobile communication terminal in preparation for an emergency call even in a state of being discharged by battery discharge of the mobile communication terminal, The present invention relates to a power supply control circuit in a mobile communication terminal which is turned on to make an emergency call.

In the conventional mobile communication terminal, as shown in FIG. 1, the power supply control circuit includes a voltage detector 1, a battery 2, a logic operation means 3, a switching means 4, and a DC / DC converter. (5) is provided.

The voltage detection unit 1 sets a reference voltage at which the mobile communication terminal can operate, compares the voltage detected from the battery 2 with the set reference voltage, and transmits a predetermined signal to the logic operation means 3. Output to one terminal.

The battery 2 is a charge / discharge battery such as Ni-MH or Ni-ion to supply power to the entire circuit.

The logic operation means 3 is composed of an AND gate, and performs an AND operation on the signal applied from the voltage detector 1 and the power PWR on / off signal of the mobile communication terminal and outputs the result to the switching means 4. .

The switching means 4 is composed of a FET switching element and is turned on / off according to a control signal input from the logic operation means 3 to interrupt the power of the battery 2 supplied to the DC / DC converter 5 side. .

The DC / DC converter 5 processes the DC power supplied from the battery 2 as the power required for each circuit part of the mobile communication terminal under the control of the switching means 4 and supplies it to the circuit part side.

The operation of the power supply control circuit in the conventional mobile communication terminal as described above is as follows.

First, when the battery 2, which is the power supply source of the mobile communication terminal, is coupled, the voltage detector 1 checks the voltage level of the battery 2 at a set period and outputs a signal thereof to one terminal of the logic operation means 2. If the voltage of the battery 2 coupled to the corresponding mobile communication terminal is more than the preset reference voltage in a fully charged state, the signal input to one terminal of the logic operation means 3 is in a 'high' level state. Keep it.

On the other hand, when the voltage of the battery 2 coupled to the corresponding mobile communication terminal is discharged below the predetermined reference voltage, the signal input to one terminal of the logical operation means 3 is maintained at the 'low' level.

Here, the reference voltage preset in the voltage detector 1 is defined as about 2.0V as a reference voltage that the mobile communication terminal can operate. When the voltage of the battery is about 2.0V or more, the reference voltage is output at a 'high' level and the corresponding battery is output. If the voltage is less than about 2.0V, it is output at a 'low' level. At this time, a reference voltage capable of performing the operation of the mobile communication terminal may vary according to the battery type of the mobile communication terminal.

As described above, when the signal of the 'high' level is input from the voltage detection unit 2 to the voltage state of the battery 2 at one terminal of the logic operation means 3, the other of the logic operation means 3 is different. When the high level signal for turning on the mobile terminal is input to the side terminal, the logical operation means 3 performs an AND operation on the 'high' level signal input to both terminals to perform a 'high' level signal. A signal is outputted to the switching means 4 side which consists of FETs.

Accordingly, the switching means 4 is turned on by the 'high' level signal applied from the logic operation means 3 so that the voltage of the battery 2 is supplied to the DC / DC converter 5 side, and the DC The / DC converter 5 converts the voltage supplied from the battery 2 into an operation voltage required for each circuit part of the mobile communication terminal and supplies the voltage to the circuit part side.

On the other hand, when the voltage of the battery is discharged due to the loss supplied to each circuit part, and the voltage level of the battery 2 is lower than the predetermined reference voltage, the voltage detection unit 1 performs a logic operation on the signal of the low level Output to one terminal of the means (3).

Accordingly, since the logic operation means 3 is turned off and the switching means 4 is also turned off in conjunction, the voltage of the battery 2 is cut off toward the DC / DC converter 5 so that the mobile communication terminal is brought down.

As described above, when the conventional mobile communication terminal is exhausted below a reference voltage at which the mobile communication terminal can operate, that is, it is not possible to make an urgent call in the state where the battery of the mobile communication terminal is discharged as well as mobile communication. There is a problem that cannot use personal notes stored in the terminal.

The present invention is conceived in view of the above problems, the present invention by setting a reference power level to make an emergency call for the emergency state of the battery of the mobile communication terminal, the battery of the mobile communication terminal In the down state due to the discharge, when the button is arbitrarily set in the mobile communication terminal in preparation for an emergency call, the power of the mobile communication terminal is turned on to enable an emergency call.

1 is a power control circuit in a conventional mobile communication terminal.

2 is a power control circuit in a mobile communication terminal according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: voltage detector 20: battery

31 to 33: switching means 41, 42: logical operation means

50: DC / DC converter

The present invention to achieve the above object, the third switching means for intermittent the power supplied from the battery; A power control circuit in a mobile communication terminal having a DC / DC converter for processing a power supply of a battery to a voltage required for each circuit unit of a mobile communication terminal in response to on / off of the third switching means, the power control circuit comprising: a voltage detected from a battery; A voltage detector for comparing a predetermined reference voltage and outputting a predetermined signal; First switching means for inverting the signal transmitted from the voltage detector and switching a power on / off signal transmitted from an input terminal according to the inverted signal; Second switching means for switching an emergency on / off signal transmitted from an input terminal according to the signal transmitted from the voltage detector; First logical operation means for performing an OR operation on the signals transmitted from the first and second switching means; And second logic operation means for performing an AND operation on the signal transmitted from the first logic operation means and the signal transmitted from the voltage detection part, and outputting the result to the third switching means.

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

In the mobile communication terminal according to the embodiment of the present invention, as shown in FIG. 2, the power control circuit includes a voltage detector 10, a first switching means 31, a second switching means 32, and a first control circuit. The logic calculation means 41, the second logic calculation means 42, the third switching means 33, the DC / DC converter 50 and the battery 20 are provided.

The voltage detector 10 is preset with a reference voltage for the mobile terminal to operate and a reference voltage for operating in an emergency state, and compares the voltage detected from the battery 2 with a predetermined reference voltage to provide a predetermined signal. Output

The first switching means 31 inverts the signal transmitted from the voltage detector 10 to switch the power PWR on / off signal transmitted from the input terminal to the first logic operation means 41.

The second switching means 32 switches the emergency on / off signal to the first logic operation means 41 according to the signal transmitted from the voltage detector 10.

The first logical operation means 41 performs an OR operation on the ON / OFF signals transmitted from the switching means 31 and 32 and outputs the result to the second logical operation means 42.

The second logic operation means 42 multiplies the signal transmitted from the first logic operation means 41 and the signal transmitted from the voltage detector 10 and transmits the result to the third switching means 33.

The third switching means 33 supplies or cuts off the power supplied from the battery 20 to the DC / DC converter 50 side according to the control of the signal transmitted from the second logic operation means 42.

The DC / DC converter 50 converts the DC power supplied from the battery 20 into DC power for operating the mobile communication terminal according to the on / off of the third switching means 33 and supplies them to each system. .

The operation of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, when the battery 20, which is the power supply source of the mobile communication terminal, is coupled, the voltage detector 10 periodically checks the voltage state of the battery 20, and the voltage detected from the battery 20 and the mobile communication terminal. Compares a predetermined maximum reference voltage that can be operated, and outputs a signal having a reference level to the first and second switching means 31 and 32 through the first output terminal A. FIG.

At the same time, the voltage detector 10 compares the voltage detected from the corresponding battery 20 with a minimum reference power preset to enable emergency call through the corresponding mobile communication terminal, and transmits a signal having a reference level through the second output terminal B. FIG. Output to the first logical operation means 41.

Here, the maximum reference voltage preset in the voltage detector 10 is defined as about 2.4V as the maximum reference power that the mobile communication terminal can operate to correspond to through the first output terminal A of the corresponding voltage detector 10. If the power is about 2.4V or higher, it is applied at 'low' level. If the power is about 2.4V or less, it is applied at 'high' level. When the power of the battery 20 is about 2.4V or less, it is prepared for an emergency state. Enable an emergency call.

In addition, the minimum reference voltage preset in the voltage detector 10 is defined as about 2.0V as the minimum reference power that allows emergency calls through the corresponding mobile communication terminal, so that the second output terminal B of the corresponding voltage detector 10 is defined. If the power is about 2.0V or more through the 'high' level is applied, if the power is about 2.0V or less is applied to the 'low' level, when the power of the battery 20 is about 2.0V or less, move The communication terminal is powered down. In this case, the reference power source capable of operating the mobile communication terminal may vary depending on the battery of the mobile communication terminal.

If the power of the battery 20 checked in the voltage detector 10 is about 2.4V or more, the first power source of the voltage detector 10 may be about 2.4V or more because the reference power that the mobile communication terminal can operate is about 2.4V or more. A reference power supply for outputting a 'low' level signal to the first switching means 31 and the second switching means 32 through the output terminal A, and to make an emergency call through the corresponding mobile communication terminal, is about 2.0. Since it is greater than or equal to V, the signal of the 'high' level is output to the second logic operation means 42 through the second output terminal B of the voltage detector 10.

Accordingly, the first switching means 31 converts the 'low' level signal transmitted from the voltage detection unit 10 into a 'high' level signal, thereby converting the on / off signal of the battery power source of the mobile communication terminal into the first signal. Switching to the logic operation means 41 side, the second switching means 32 is turned off by the 'low' level transmitted from the voltage detection unit 10, the emergency call for the emergency state is not performed.

Accordingly, the first logic operation means 41 transmits the power on / off signal transmitted from the first switching means 31 to the second logic operation means 42, and the second logic operation means 42 is used. Is a logical sum of the power on / off signal transmitted to the first logic operation means 41 and the 'high' level transmitted from the voltage detection unit 10 and transmitted to the third switching means 33.

Accordingly, the third switching means 33 is turned on according to the 'high' level transmitted from the second logic operation means 42 and transmits the power supplied from the battery 20 to the DC / DC converter 50 side. The DC / DC converter 50 converts the DC power supplied from the battery 20 into DC power for operating the mobile communication terminal and supplies the DC power to each system.

On the other hand, when the power supplied from the battery 20 is about 2.4V or less and about 2.0V or more, the reference power source capable of operating the mobile communication terminal is about 2.4V or less. Outputting a 'high' level signal to the first switching means 31 and the second switching means 32 through the first output terminal (A) of 10) and to make an emergency call through the corresponding mobile communication terminal Since the reference power supply is about 2.0V or more, a 'high' level signal is output to the second logic operation means 42 through the second output terminal B of the voltage detector 10.

Accordingly, the first switching means 31 is turned off by inverting the 'high' level transmitted from the voltage detection unit 10 to the 'low' level to cut off the power supply of the mobile communication terminal. At this time, when the second switching means 32 operates the button set in preparation for the emergency state by being turned on by the 'high' level transmitted from the voltage detection unit 10, the second logic means inputs the emergency state input signal to the first logic. It transmits to the one terminal of the second logical operation means 42 through the calculation means (41).

Accordingly, the second logic operation means 42 performs an OR operation on the 'high' level transmitted from the first logic operation means 41 and the 'high' level transmitted from the voltage detection unit 10 to perform the third switching means. Send to 33.

Accordingly, the third switching means 33 is turned on according to the 'high' level transmitted from the second logic operation means 42, and the voltage of the battery 2 is supplied to the DC / DC converter 5 side to move. If the button set for emergency call is pressed while the battery of the communication terminal is discharged, the corresponding mobile communication terminal is turned on to make an emergency call.

Here, if the voltage of the battery is discharged due to a loss supplied to each circuit part and the voltage detector 10 checks that the voltage level of the battery 20 is about 2.0V or less, which is a predetermined reference voltage, the corresponding voltage detector 10 ) Outputs a 'low' level signal to one terminal of the logic operation means (30).

Accordingly, since the logic operation means 3 is turned off and the switching means 4 is also turned off in conjunction, the voltage of the battery 2 is cut off toward the DC / DC converter 5 so that the mobile communication terminal is brought down.

As described above, the present invention sets a reference power level so that an emergency call can be made in preparation for an emergency state of the battery of the mobile communication terminal, thereby preparing for an emergency call even in a down state due to battery discharge of the mobile communication terminal. By operating a button set arbitrarily in the mobile communication terminal, the mobile communication terminal is turned on to enable an emergency call.

Claims (4)

Third switching means for interrupting power supplied from a battery; In the power control circuit in a mobile communication terminal having a DC / DC converter for processing the power of the battery to the voltage required for each circuit unit of the mobile communication terminal in accordance with the on / off of the third switching means, A voltage detector for comparing a voltage detected from the battery with a preset reference voltage and outputting a predetermined signal; First switching means for inverting the signal transmitted from the voltage detector and switching a power on / off signal transmitted from an input terminal according to the inverted signal; Second switching means for switching an emergency on / off signal transmitted from an input terminal according to the signal transmitted from the voltage detector; First logical operation means for performing an OR operation on the signals transmitted from the first and second switching means; And a second logical operation means for performing an AND operation on the signal transmitted from the first logic operation means and the signal transmitted from the voltage detection part, and outputting the result to the third switching means. . The method of claim 1, The reference voltage preset in the voltage detection unit is a power control circuit in the mobile communication terminal, characterized in that for setting the predetermined reference voltage and the minimum reference voltage to perform the operation in the emergency communication terminal. The method according to claim 1 or 2, And the voltage detector outputs a predetermined signal to the first and second switching means through a first output terminal when the battery voltage to be compared is in a state where normal communication can be maintained. The method according to claim 1 or 2, The voltage detector outputs a predetermined signal to the second logical operation means through a second output terminal when the battery voltage to be compared cannot maintain normal operation but an emergency call is possible. Circuit.