KR19990059006A - Mobile phone with built-in back-up battery and power control method of the mobile phone - Google Patents

Abstract

The present invention provides a back-up battery in which a small back-up battery is built in a mobile phone system so that a continuous call is maintained at all times by preventing a call disconnection that is inevitably caused when the battery is replaced due to insufficient battery capacity of the main battery during a call. The present invention relates to a built-in mobile phone and a method for controlling a power supply of the mobile phone. The present invention includes the steps of: embedding a back-up battery in a mobile phone system, and determining a low battery by detecting a remaining amount of the main battery; Generating a switching control signal when the main battery is in a low battery state to control the power of the back-up battery to be used as the main power source; When the main battery is installed while the main battery is used as the main power supply, and the main battery is installed and the main battery has sufficient charge, the main battery is turned off and the main battery is turned off. Controlling the main power to be supplied; If the back-up battery is not installed or if the remaining capacity goes low while the back-up battery is in use, an alarm is issued for the final alarm and the system is turned off by successive steps to disconnect the call even when the main battery is low. You can prevent it.

Description

Mobile phone with built-in back-up battery and power control method of the mobile phone

The present invention relates to a mobile phone, and in particular, a small back-up battery is embedded in a mobile phone system, thereby preventing continuous call disconnection caused by battery replacement due to insufficient battery remaining during a call, so that continuous communication is always maintained. The present invention relates to a mobile phone having a built-in back-up battery and a power control method of the mobile phone.

In general, the mobile phone system is configured to be equipped with a separate battery for supplying power to drive the system.

In addition, the microprocessor in the system always detects the remaining capacity of the battery to be mounted and makes the user aware of the remaining state.

Therefore, the user checks the remaining battery status and if the battery becomes low (when the phone is not available due to insufficient battery capacity), the user can replace it with another one or recharge the battery. do.

Here, when the battery is replaced, the operation of the system is inevitably turned off, so the call is disconnected.

Accordingly, in the conventional mobile phone system, the microprocessor always checks the remaining battery capacity and informs the user, but when the battery is changed to a low battery state during a call, there is no countermeasure and there is a problem that the call is disconnected.

Accordingly, the present invention has been proposed to solve various problems occurring in the conventional mobile phone system as described above.

The present invention provides a mobile phone with a built-in battery and a back-up battery in which a continuous battery is maintained at all times by preventing a call disconnection that is inevitably caused when a battery is replaced due to insufficient battery remaining during a call by embedding a small battery in a mobile phone system. Its purpose is to provide a power control method for a mobile phone.

Mobile phone system according to the present invention for achieving the above object,

A main battery detector for detecting whether the main battery is mounted;

Battery remaining amount detection unit for detecting the remaining amount of the main battery;

A back-up battery detector for detecting whether the back-up battery is built-in;

Recognizing whether the main and back-up batteries are installed as the state values detected by the main battery detection unit and the back-up battery detection unit, respectively, and the main battery and the battery according to the battery state detection signal output from the remaining battery detection unit. A microprocessor for generating a control signal for determining whether to use the back-up battery;

And a switching unit for supplying a voltage discharged from the back-up battery to the main power by a control signal output from the microprocessor.

Mobile phone power control method according to the present invention for achieving the above object,

Determining whether or not a low battery is detected by detecting a remaining amount of the main battery;

Generating a switching control signal when the main battery is in a low battery state to control the power of the back-up battery to be used as the main power source;

If the main battery is installed in the state of using the back-up battery as the main power supply, and if the main battery is installed and the main battery is charged enough, the use of the back-up battery is turned off. Controlling the battery to supply the main power;

When the back-up battery is not installed or the remaining capacity becomes low during the use of the back-up battery, an alarm for the final alarm is made and the system is powered off.

1 is a circuit diagram of a mobile phone system with a built-in back-up battery according to the present invention,

2 is a configuration diagram of a battery and a main body terminal in the present invention;

(a) is a terminal configuration diagram of the main battery,

(b) is a terminal configuration of main body PCB battery contact.

Figure 3 is a flow chart illustrating a power control method of a mobile phone with a built-in back-up battery according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: main battery 2: main battery detector

3: Back-up battery 4: Battery level detector

5: Back-up battery detection unit 6: Microprocessor

7: switching unit

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

1 is a circuit diagram of a mobile phone system incorporating a back-up battery according to the present invention.

As shown therein, the main battery detecting unit 2 detects whether the main battery 1 is mounted; A battery remaining amount sensing unit 4 for sensing the remaining amount of the main battery 1 or the back-up battery 3; A back-up battery detector (5) for detecting whether the back-up battery (3) is installed; Recognizing whether the main and back-up batteries are installed as the state values detected by the main battery detector 2 and the back-up battery detector 5, respectively, the battery output from the battery remaining amount detector 4 is detected. A microprocessor (6) generating a control signal for determining whether to use the main battery (1) and the back-up battery (3) according to the state detection signal; It is composed of a switching unit (7) for supplying the voltage discharged from the back-up battery (3) to the main power supply by a control signal output from the microprocessor (6).

In the above, the main battery detector 2 divides the discharge voltage of the main battery 1, and as a result, a voltage divider R1 (R2) which transmits the voltage to the microprocessor 6 as a detection signal of whether the main battery is installed. It is composed of

In addition, the back-up battery detector 5 divides the discharge voltage of the back-up battery 3, and as a result, the divided voltage which transmits the voltage to the microprocessor 6 as a detection signal of whether the back-up battery is installed. It consists of resistors R3 and R4.

In the figure, reference numeral D1 denotes a reverse current prevention diode.

The operation of the mobile phone system according to the present invention configured as described above will be described in detail with reference to FIGS. 2 and 3 as follows.

First, the main battery detector 2 divides the discharge voltage of the main battery 1 into the voltage dividing resistors R1 and R2 and transfers the result to the microprocessor 6, and the microprocessor 6 If the partial pressure is high (5V), the main battery is installed.

When it is recognized that the main battery is mounted as described above, the next step is to detect the output of the battery remaining amount detection unit 4 to determine whether or not to use the main battery (1).

At this time, the battery remaining amount detection unit 4 detects the remaining capacity of the main battery 1 and generates a high signal when the battery is in a low battery state to signal that the main battery 1 can be used by the microprocessor 6. On the contrary, if the remaining amount of the main battery 1 is a low battery state, a low signal is transmitted to the microprocessor 6 to inform that the state of the main battery is a low battery state by an interrupt.

Accordingly, the microprocessor 6 searches for the output of the battery remaining amount detection unit 4 and determines to use the discharge voltage of the main battery 1 as the main power source if the signal is high, and simultaneously switches the switching control signal to the high signal. It outputs and the switching element Q1 in the switching part 7 is turned off.

By doing so, when the main battery 1 is normally mounted and the charging voltage is full, the discharge of the back-up battery 3 is prevented.

On the other hand, when the output signal of the battery remaining amount detection unit 4 becomes a low signal while operating the system with the power of the main battery 1 by the above method, that is, the state of the main battery 1 is low battery In the state, the microprocessor 6 searches the output of the back-up battery detector 5.

Here, the back-up battery detector 5 outputs a high signal to the microprocessor 6 when the back-up battery 3 is built in, and the back-up battery 3 is not built in. If not, a low signal is generated and transmitted to the microprocessor 6.

The microprocessor 6 searches for a signal generated by the back-up battery detector 5 as described above, and when the power is low, there is not enough power to be used as the main power supply of the system. Turn off the power.

In addition, when the output signal of the back-up battery detection unit 5 is a high signal, a low signal is generated as the switching control signal for switching the main power.

The switching element Q1 in the switching unit 7 is turned on by the low signal, and the power charged in the back-up battery 3 is turned on by the turn-on of the switching element Q1. Via the sensing unit 4 is supplied to the system as the main power source.

When the main power is supplied by the separately built-in back-up battery 3 as described above, the user can maintain the call for a predetermined time without disconnection even when the remaining capacity of the main battery 1 is not available during the call.

At this time, if there is a main battery to be replaced, the user can replace the main battery 1 while maintaining a call.

If the output of the main battery detection unit 2 becomes a high signal again (when the main battery is detached and changes to a low signal) while the back-up battery 3 is in use, the main battery 1 is charged again. The power supply is determined to be used as the main power supply of the system, and the switching control signal is output as a high signal to prevent discharge of the back-up battery 3.

In this case, the built-in back-up battery does not affect the size of the mobile phone by using a small battery that can hold about one call (based on three minutes), and the separate charging terminal and the back-up battery Make sure it is plugged in so that you can use the main battery or charge it externally.

In addition, the terminal of the main battery has a main battery ID terminal and a back-up battery ID terminal as shown in FIG. 2A, and the battery contact portion of the main body PCB to which the main battery or the back-up battery contacts is also illustrated in FIG. Likewise, the main battery ID terminal and the back-up battery ID terminal can be connected to each other.

Here, the main battery ID terminal is provided separately to classify the charging current according to the main battery capacity.

As described above, the present invention, by providing a separate back-up battery is charged to the mobile phone for a predetermined time, the effect of being able to prevent the call disconnection even during the low battery of the main battery during the call. There is.

Claims (4)

In the mobile phone system which drives the system by the attached battery, A main battery detector for detecting whether the main battery is mounted; Battery remaining amount detection unit for detecting the remaining amount of the main battery; A back-up battery detector for detecting whether the back-up battery is built-in; Recognizing whether the main and back-up batteries are installed as the state values detected by the main battery detection unit and the back-up battery detection unit, respectively, and the main battery and the battery according to the battery state detection signal output from the remaining battery detection unit. A microprocessor for generating a control signal for determining whether to use the back-up battery; And a switching unit for supplying the voltage discharged from the back-up battery to the main power by a control signal output from the microprocessor. The method of claim 1, wherein the main battery detection unit, And a voltage divider resistor (R1) (R2) for dividing the discharge voltage of the main battery and consequently transferring the voltage to the microprocessor as a detection signal of whether the main battery is installed. The method of claim 1, wherein the back-up battery detection unit, Built-in back-up battery, characterized in that divided by the voltage divider (R3) (R4) to divide the discharge voltage of the back-up battery and as a result transfers the voltage to the microprocessor as a detection signal whether the back-up battery is installed; One phone. In the mobile phone power control method, Determining whether or not a low battery is detected by detecting a remaining amount of the main battery; Generating a switching control signal when the main battery is in a low battery state to control the power of the back-up battery to be used as the main power source; When the main battery is installed while the main battery is used as the main power supply, the main battery is detected. If the main battery is installed and the main battery has sufficient charge, the main battery is turned off and the main battery is turned off. Controlling the battery to supply the main power; When the back-up battery is not installed or the remaining capacity becomes low while the back-up battery is in use, a mobile phone with a built-in back-up battery is generated, which generates an alarm for the final alarm and turns off the system power. Power control method.