KR100377201B1 - Back-up battery inserted mobile terminal and power control method thereof - Google Patents

Abstract

PURPOSE: A back-up battery inserted mobile terminal and its power control method are provided to allow a user to maintain a continuous call connection by installing a power-charged back-up battery available for a call for a certain amount of time. CONSTITUTION: A main battery sensing unit(2) senses whether a main battery(1) has been mounted through a discharge voltage. A remaining battery capacity sensing unit(4) senses a remaining capacity of the main battery(1). A back-up battery sensing unit(5) detects whether a back-up battery(3) has been inserted through a discharge voltage. A microprocessor(6) generates a control signal to check whether the main battery(1) and the back-up battery(3) have been mounted through state values outputted the main battery sensing unit(2) and the back-up battery sensing unit(5) and determine whether the main battery(1) and the back-up battery(3) are in use. A switching unit(7) switches a main power of the main battery(1) so that a voltage discharged from the back-up battery(3) can be used as preliminary power if the main battery(1) is not available for use, and switches the preliminary power of the back-up battery(3) so that a voltage discharged from the main battery(1) can be used as main power if the main battery(1) is available for use.

Description

Mobile communication terminal with built-in back-up battery and its power control method

The present invention relates to a mobile communication terminal, and in particular, a small back-up battery is built into the system to prevent unnecessarily disconnection caused by battery replacement due to insufficient battery remaining during a call. The present invention relates to a mobile communication terminal having a built-in back-up battery and a power control method thereof.

In general, the mobile communication terminal is configured such that a battery for supplying power for driving the system is mounted separately.

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 becomes inoperable due to insufficient battery capacity), the user can replace the battery with another one or recharge the battery. Will be used.

In this case, when the battery is replaced, the driving of the system is inevitably turned off, so the call is disconnected.

Therefore, in the conventional mobile communication terminal, the microprocessor always checks the remaining amount of battery and informs the user, but there is a problem in that the call is disconnected because there is no countermeasure when the battery is changed to a low battery state during a call.

The present invention has been proposed in order to solve the problems described above, the built-in small battery in the system to prevent the call disconnection phenomenon inevitably occurred when replacing the battery due to insufficient battery remaining during the call to always keep continuous calls It is an object of the present invention to provide a mobile communication terminal having a built-in sustainable back-up battery and a power control method thereof.

1 is a configuration diagram of an embodiment of a mobile communication terminal with a built-in back-up battery according to the present invention.

2 is a diagram illustrating an embodiment of a battery and a main body terminal of a mobile communication terminal incorporating a back-up battery according to the present invention.

3 is a flowchart illustrating a power control method of a mobile communication terminal incorporating a back-up battery according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: main battery 2: main battery detection unit

3: Back-up battery 4: Battery remaining amount detection unit

5: back-up battery detection unit 6: microprocessor

7: switching unit

In order to achieve the above object, the present invention provides a known mobile communication terminal for driving a system by an installed battery, comprising: main battery sensing means for detecting whether the main battery is installed through a discharge voltage of a main battery; Battery remaining amount detecting means for detecting the remaining amount of the main battery; Back-up battery detection means for detecting whether the built-in through the discharge voltage of the back-up battery; Recognizing whether the main battery and the back-up battery are installed as the state values detected by the main battery detecting means and the back-up battery detecting means, respectively, and according to a battery state detecting signal output from the battery remaining amount detecting means. Control means for generating a control signal for determining whether the main battery or the back-up battery is used; And switching the main power of the main battery to use the voltage discharged from the back-up battery as a backup power when the main battery is not available, according to a control signal output from the control means, and enabling the use of the main battery. Switching means for switching the backup power of the back-up battery to use the voltage discharged from the main battery as the main power supply, wherein the control means, if the remaining amount of the main battery is low Since the power supply is insufficient, a switching control signal is generated to switch the main power supply of the main battery and to control the power supply of the back-up battery to be used as a backup power supply.The main battery is restarted while the backup power supply of the back-up battery is used. If the charging capacity of the main battery is sufficient, the switching control signal is generated. By switching the backup power of the back-up battery and characterized in that the control to use the power of the main battery as the main power.

In addition, the present invention provides a method for controlling a power supply of a mobile communication terminal having a back-up battery, comprising: a first step of detecting a remaining battery by detecting a residual amount of a main battery; According to the detection result of the first step, if the remaining amount of the main battery is low, the power to be used as the main power supply is insufficient, so generating a switching control signal to switch the main power supply of the main battery and the power supply of the back-up battery A second step of controlling to use the power supply as a spare power; While using the backup power supply of the back-up battery, it is detected whether the main battery is mounted, and if a detection result indicates that the main battery is remounted and the charging amount of the main battery is sufficient, a switching control signal is generated to generate the back-up. A third step of switching the spare power of the battery and controlling to use the power of the main battery as the main power; And when the back-up battery is not installed even though the remaining capacity of the main battery is low, or the main battery is not remounted while the backup power of the back-up battery is being used, the remaining capacity of the back-up battery is low. In the state, it characterized in that it comprises a fourth step of generating an alarm for the final alarm and the terminal power off.

The present invention incorporates a small battery in a known mobile communication terminal to prevent inevitable call disconnection when the battery is replaced due to insufficient battery remaining during a call, and implements a continuous call.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an embodiment of a mobile communication terminal having a built-in back-up battery according to the present invention.

As shown in FIG. 1, a mobile communication terminal incorporating a back-up battery according to the present invention, in a known mobile communication terminal for driving a system by an installed battery, has a discharge voltage of the main battery 1. Built-in via the discharge voltage of the main battery detection unit (2) for detecting whether or not mounted, the battery remaining amount detection unit (4) for detecting the remaining capacity of the main battery (1), and the back-up battery (3) The main battery (1) and the back-up battery (1) and the state value detected by the back-up battery detector (5), the main battery detector (2) and the back-up battery detector (5) for detecting 3) recognizes whether or not to install, and generates a control signal for determining whether to use the main battery (1) or the back-up battery (3) according to the battery state detection signal output from the battery remaining amount detection unit (4) Exit from microprocessor (6) and microprocessor (6) According to the control signal output, when the main battery 1 is not available, the main power supply of the main battery 1 is switched to use the voltage discharged from the back-up battery 3 as a backup power supply, and the main battery 1 It includes a switching unit (7) for switching the backup power of the back-up battery (3) to use the voltage discharged from the main battery (1) as the main power supply when available.

In the above process, the main battery detector 2 divides the discharge voltage of the main battery 1, and as a result, the voltage divider resistor 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 detection unit 5 divides the discharge voltage of the back-up battery 3, and as a result, a voltage divider resistor R3 which transmits the voltage to the microprocessor 6 as a detection signal of whether the back-up battery is installed. ) R4.

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

The operation of the mobile communication terminal incorporating the back-up battery 3 according to the present invention having the configuration as described above will be described in detail as follows.

First, the main battery detector 2 divides the discharge voltage of the main battery 1 into the voltage divider resistors R1 and R2 and transfers the result to the microprocessor 6, and the microprocessor 6 divides the voltage. If the value is high (5V), it is assumed that 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 capacity 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 low battery state or more, and sends a signal that the use of the main battery (1) to 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 detecting unit 4, and if the signal is high, determines that the discharge voltage of the main battery 1 is used as the main power source, 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 supply of the main battery 1 by the above method, that is, the state of the main battery 1 becomes low battery state. If so, the microprocessor 6 searches for 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, unlike the back-up battery 3, the back-up battery 3 is not built in. In this case, a low signal is generated and transmitted to the microprocessor 6.

As described above, the microprocessor 6 searches for a signal generated by the back-up battery detector 5, and when the signal 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 sensor 5 is a high signal, a low signal is generated as a switching control signal for switching the main power. The switching element Q1 in the switching unit 7 is turned on by this 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 4) it is supplied to the system by a reserve power source (in the end, this reserve power source is operated as the main power source).

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

At this time, if the user has a main battery to replace the main battery (1) can be replaced while maintaining the 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 power charged to the main battery 1 again. Is determined to be used as the main power source of the system, and at the same time, the switching control signal is output as a high signal to prevent discharge of the back-up battery (3).

Here, the back-up battery built into the system preferably uses a small battery that can hold about one call (based on three minutes call) so as not to affect the terminal size, and a separate charging terminal and a back- Allow the up battery to be connected so that it can be recharged using the main battery or from an external power source.

In addition, the terminal of the main battery has a main battery ID terminal and a back-up battery ID terminal as shown in (a) of FIG. 2, 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. 2. As shown in (b), the main battery ID terminal and the back-up battery ID terminal can be combined with each other.

In FIG. 2, (a) shows the terminal configuration of the main battery, and (b) shows the terminal configuration of the main body PCB battery contact portion.

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

In the power control method of the mobile communication terminal having the back-up battery, as shown in FIG. 3, first, the remaining amount of the main battery 1 is detected to detect whether or not the low battery is present.

According to the detection result, if the remaining capacity of the main battery (1) is low, there is not enough power to be used as the main power source, so a switching control signal is generated to switch the main power source of the main battery (1) to change the back-up battery (3). Control the power supply to use as a backup power supply (back-up battery enable signal generated).

At this time, during use of the backup power supply of the back-up battery 3, it is detected whether the main battery 1 is attached, and as a result of the detection, the main battery 1 is remounted (the main battery is in a high state) and the main battery 1 is When the charging amount of the battery is sufficient, the backup power supply of the back-up battery 3 is switched and the main battery 1 is controlled to be used as the main power supply (back-up battery disable signal setting).

Although the remaining capacity of the main battery (1) is low, the back-up battery (1) is not installed or the main battery (1) is not remounted while the backup power of the back-up battery (1) is in use (main Battery low. When the back-up battery 3 remains low (the battery detection signal for backup is high), an alarm is generated for the final alarm and the system is turned off.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

As described above, the present invention provides a separate back-up battery which is charged with a power source capable of talking for a predetermined time in a mobile communication terminal, thereby avoiding a call disconnection phenomenon that is inevitably generated when a battery is replaced due to insufficient battery remaining during a call. It is effective in maintaining continuous calls at all times.

Claims (4)

In a known mobile communication terminal for driving the system by the attached battery, Main battery detecting means for detecting whether the main battery is installed through the discharge voltage of the main battery; Battery remaining amount detecting means for detecting the remaining amount of the main battery; Back-up battery detection means for detecting whether the built-in through the discharge voltage of the back-up battery; Recognizing whether the main battery and the back-up battery are installed as the state values detected by the main battery detecting means and the back-up battery detecting means, respectively, and according to the battery state detecting signal output from the battery remaining amount detecting means. Control means for generating a control signal for determining whether the main battery or the back-up battery is used; And According to a control signal output from the control means, when the main battery is not available, the main power supply of the main battery is switched to use the voltage discharged from the back-up battery as a spare power supply, and when the main battery is available. And switching means for switching the backup power of the back-up battery to use the voltage discharged from the main battery as a main power source. When the remaining amount of the main battery is low, the control means lacks a power source to be used as a main power source, so that a switching control signal is generated to switch the main power source of the main battery and to use the back-up battery power source as a spare power source. When the main battery is remounted while the backup battery is in use and the charging capacity of the main battery is sufficient, a switching control signal is generated to transfer the backup power of the backup battery to the main battery. A mobile communication terminal with a built-in back-up battery, characterized in that the control to use the power supply as the main power source. The method of claim 1, The main battery detection means, A mobile communication having a built-in back-up battery, characterized in that the voltage divider discharge voltage of the main battery, and consequently a voltage divider (R1) (R2) for transmitting the voltage to the control means as a detection signal whether the main battery is installed. terminal. The method of claim 1, The back-up battery detection means, The back-up battery is configured to divide the discharge voltage of the back-up battery, and as a result, a voltage dividing resistor (R3) (R4) for transmitting the voltage to the control means as a detection signal whether the back-up battery is installed. Built-in mobile terminal. In the power control method of a mobile communication terminal having a back-up battery, A first step of detecting the remaining amount of the main battery, whether the low battery; According to the detection result of the first step, if the remaining amount of the main battery is low, the power to be used as the main power supply is insufficient, so generating a switching control signal to switch the main power supply of the main battery and the power supply of the back-up battery A second step of controlling to use the power supply as a spare power; While using the backup power supply of the back-up battery, it is detected whether the main battery is mounted, and if a detection result indicates that the main battery is remounted and the charging amount of the main battery is sufficient, a switching control signal is generated to generate the back-up. A third step of switching the spare power of the battery and controlling to use the power of the main battery as the main power; And Even though the main battery is low, the back-up battery is not installed, or the main battery is not reloaded while the backup battery is in use, so the remaining capacity of the back-up battery is low. The fourth step of generating an alarm for the final alarm and turning off the terminal power Power control method of a mobile communication terminal with a built-in back-up battery including a.

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