KR100523143B1 - Mobile phone having function of controlling battery-charge and method for charging battery - Google Patents

Abstract

The present invention relates to a mobile communication terminal, and more particularly to a technology for charging a battery.

The present invention provides a buffer reference current setting unit for setting a buffer reference current in response to a setting signal, and when the constant current is charged to the battery and reaches a predetermined voltage, the charging current reaches the buffer reference current set by the buffer reference current setting unit. It characterized in that it comprises a control unit including a charging unit for constant voltage charging the battery until it reaches, and a variable charging control unit for varying the buffer reference current of the buffer reference current setting unit according to the battery state.

Description

Mobile phone having function of controlling battery-charge and method for charging battery}

The present invention relates to a mobile communication terminal, and more particularly to a mobile communication terminal having a charge control function of the battery itself.

The mobile communication terminal supports an internal charging circuit, that is, a self charging function that can be charged by directly connecting a DC power source, without having to charge the battery through an external charger.

Currently, a battery commonly used in mobile communication terminals is a lithium ion battery. The lithium ion battery needs to be charged in a constant current / constant voltage (CC / CV) manner. Here, the constant current charging refers to a method of charging and maintaining the charging current of the battery at a constant value, and the constant voltage charging refers to charging while maintaining a constant voltage of the battery terminal.

When the battery is charged, it is charged in a constant current manner at the beginning of charging. The internal charging circuitry checks the battery terminal voltage while constantly applying a constant charging current (eg 800mA). If the terminal voltage rises to 4.2V, charge from the constant voltage method from this time. In constant voltage charging, the battery terminal voltage is kept at 4.2V, whereby the charging current (800mA) gradually decreases and the battery is charged. That is, the battery is fully charged when the charging current (800 mA) gradually decreases to reach a constant current (for example, 130 mA). The 130mA, the current at full charge, is initially set, and charging ends when the charge current reaches 130mA during battery charging.

At this time, 130mA, that is, the current which is the end reference of the constant voltage charging, which is a two-step charging process, is called a buffer reference current. 130 mA, which is the buffer reference current, is set before use of the battery as described above, and thus is a suitable current value when 100% of the battery capacity can be used.

However, batteries are consumables and their capacity naturally decreases with use. Therefore, shortening of battery life is inevitable. However, after the battery capacity is reduced, the charging stops due to the buffer reference current set at 130 mA, although charging may be performed when the charging current reaches 130 mA. If this decreases, the charging is stopped due to the buffer reference current initially set in a state where the battery is not sufficiently charged.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problem, and the purpose of the present invention is to increase the amount of current charged in a battery by changing the buffer reference current according to the use state of the battery, thereby increasing the battery usage time.

According to the battery charge control function of the mobile communication terminal according to an aspect of the present invention for achieving the above object, when it is determined that the battery time or capacity is reduced by detecting the battery state, the charging reference current is changed to charge the battery Increase the current to increase the battery life.

This, a further additional aspect of the present invention will become more apparent through the preferred embodiments described below with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention. In addition, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is a block diagram of a mobile communication terminal according to an embodiment of the present invention.

As shown, a mobile communication terminal typically includes a key input unit 22, a display unit 20 for displaying text data or numbers, a battery 40 connected to a removable battery 40, and an antenna for mobile communication. , An RF unit 10 and a voice signal processor 14 for processing voice. Also included is a control unit 12 implemented in the form of program code executed by a microprocessor and a memory 18 storing control program data for controlling the operation of the terminal.

The mobile communication terminal according to the characteristic aspect of the present invention has an internal charging circuit 26 capable of charging a battery by directly connecting a DC power source.

Hereinafter, the battery charge control function of the mobile communication terminal having the above-described configuration will be described in detail.

2 is a block diagram illustrating a battery charge control function of a mobile communication terminal according to an embodiment of the present invention.

As shown, the mobile communication terminal having a battery charging control function according to an embodiment of the present invention and the buffer reference current setting unit 32 for setting the buffer reference current in response to the set signal, and the constant current charging the battery When the predetermined voltage is reached, the charging unit 34 constant-charges the battery until the charging current reaches the buffer reference current set by the buffer reference current setting unit 32, and the buffer reference current setting unit according to the battery state. And a control unit 12 including a variable charge control unit 12a for varying the buffer reference current of (32).

The buffer reference current setting unit 32 receives the setting signal from the control unit 12 and sets the buffer reference current corresponding thereto. The buffer reference current is set by the resistance value. According to an exemplary embodiment of the present invention, the buffer reference current setting unit 32 includes an analog multiplexer and an array resistor, and varies the buffer reference current by selecting one or more of the array resistors by the set signal. Supply.

The charging unit 34 receives the DC power from the outside and transforms the DC power to be suitable for supplying the battery. The charging unit 34 measures the battery terminal voltage while constant current charging the battery (assuming that the charging current is 800 mA). When the terminal voltage reaches 4.2V, the charging unit 34 stops the constant current charging and switches to the constant voltage charging. The charging unit 34 measures a charging current that gradually decreases at 800 mA during constant voltage charging. When the charging current reaches the buffer reference current, the charging unit 34 stops charging the battery.

The control unit 12 includes a variable charging control unit 12a. The variable charging control unit 12a outputs the set signal according to the battery state to vary the buffer reference current. Here, the battery state refers to information indicating whether the battery usage time is reduced due to a decrease in capacity as the battery ages. In one embodiment, the battery state is input by the user through the key input unit 22 in consideration of the battery usage period. The variable charging control unit 12a detects the battery state through the information input by the user to vary the buffer reference current.

Assuming that the buffer reference current is varied to 50 mA due to the battery state, the time for reaching the buffer reference current is longer than that of the conventional 130 mA, thereby increasing the charging time and increasing the amount of current charged in the battery.

In another embodiment provided in accordance with a further aspect of the present invention, the battery condition is automatically detected by the status detector 38. In one embodiment, the state detector 38 detects the terminal voltage and detects the battery state from the time taken to start the constant voltage driving during charging, that is, the time taken to reach the reference voltage 4.2V. Then, the variable charging control unit 12a determines the battery capacity from the detected terminal voltage and the detection time. The variable charging control unit 12a outputs a setting signal for resetting the buffer reference current according to the determination result to vary the buffer reference current.

Since the battery state can be automatically detected by the state detector 38 described above, the user does not need to manually input the battery state. However, it may be configured to display the battery status on the display unit 20 so that the user can operate manually.

According to an additional aspect of the present invention, the control unit 10 may further include a state monitoring unit 12b. The state monitoring unit 12b continuously monitors the battery state output from the state detection unit 38 and stores the monitored battery state in the memory 18. Therefore, in this case, the variable charging control unit 12a determines the battery aging, that is, the capacity more accurately, from the battery state information or the state monitoring unit 12b accumulated and stored in the memory 18 to vary the buffer reference current.

4 is a diagram illustrating an example of a relationship between a battery terminal voltage and a use time.

Referring to FIG. 4, the state monitoring unit 12b continuously monitors and stores a battery use time of up to 70% of a terminal voltage from a battery full charge time point and stores it in a memory. For more accurate measurement, the controller 12 also stores power consumption mode data. The variable charging control unit 12a determines a change in the use time based on the information accumulated and stored in the memory 18, thereby enabling a more accurate buffering reference current to be set.

The charging unit 34 and the state detection unit 38 described above are included in one chip in hardware.

According to a further aspect of the invention the battery condition is characterized in that the battery terminal voltage or the battery availability time. Even when the battery is available, it is possible to determine the battery capacity and the use time by checking the change in the available time on the basis of a predetermined terminal voltage of the battery.

3 is a flowchart illustrating a battery charging process through a variable battery buffer reference current according to an embodiment of the present invention.

As shown, in the battery charging method of the mobile communication terminal, setting the buffer reference current according to the battery state, the step of constant current charging the battery, the step of measuring the battery terminal voltage during the constant current charging; Switching to constant voltage charging when the terminal voltage is above a predetermined voltage; measuring charging current during constant voltage charging; and completing battery charging when the charging current reaches the buffer reference current.

The variable charging control unit 12a determines the battery capacity according to the battery state described above, and outputs a setting signal for varying the buffer reference current. The buffer reference current setting unit 32 sets the buffer reference current to one or more resistance values of the array resistors based on the setting signal output from the variable charge control unit 12a (step 50). The buffer reference current set here is assumed to be 50 mA.

The charging unit 34 receives DC power directly from the outside, converts the DC power into DC power suitable for charging the battery, and performs constant current charging (step 52). It is assumed that the charging current value is 800 mA during constant current charging.

The charging unit 34 measures the terminal voltage from the battery terminal 36 while performing constant current charging (step 54). When the terminal voltage reaches 4.2V, the constant current charging is stopped and the process switches to constant voltage charging (step 56) (step 58). The charging unit 34 measures the charging current while performing constant voltage charging (step 60). Due to the nature of constant voltage charging, the measured charging current is gradually reduced at 800mA at the beginning of constant voltage charging. When the charging current reaches 50 mA, that is, the buffer reference current, charging is stopped (step 62) (step 64).

Therefore, when the buffer reference current of 130 mA initially set is changed to 50 mA according to the present invention, charging is continued while the charging current is reduced from 130 mA to 50 mA, thereby further charging the battery.

As described above, the present invention may increase the amount of current charged in the battery by changing the buffer reference current to increase the charging time even when the battery capacity is reduced.

As described above, the present invention can increase the amount of charging current when the battery capacity is reduced and the usage time is reduced, thereby charging more closely to the full charge and consequently extending the battery usage time.

The present invention has been described with reference to preferred embodiments, but is not limited thereto, and should be construed by the appended claims, which are intended to cover many variations that will be apparent to those skilled in the art without departing from the scope of the invention. do.

1 is a block diagram of a mobile communication terminal according to an embodiment of the present invention.

2 is a block diagram illustrating a battery charge control function of a mobile communication terminal according to an embodiment of the present invention.

3 is a flowchart illustrating a battery charging method using a battery charging control function according to an embodiment of the present invention.

4 illustrates an example of a relationship between a battery terminal voltage and a use time.

Claims (7)

A buffer reference current setting unit for setting a buffer reference current in response to the setting signal; A charging unit configured to constant voltage charge the battery until the charging current reaches the buffer reference current set by the buffer reference current setting unit when the battery reaches a predetermined voltage while performing constant current charging; A state detecting unit detecting a battery state which is one of a battery terminal voltage or a battery available time; And a control unit including a variable charge control unit for outputting a setting signal for varying the buffer reference current setting unit of the buffer reference current setting unit according to the battery state detected by the state detection unit. terminal. The method according to claim 1, And an analog multiplexer configured to select an array resistor configured to set the buffer reference current and one or more resistors connected to the array resistor in response to the set signal. Mobile terminal. delete The method according to claim 1, And a state monitoring unit for monitoring, by the controller, the battery state detected by the state detecting unit and storing the battery state in the memory as battery state information. delete delete In the battery charging method of the mobile communication terminal, Setting a buffer reference current according to a battery state which is either a battery terminal voltage or a battery available time; Constant current charging the battery according to the set buffer reference current; Measuring a battery terminal voltage during the constant current charging; Switching to constant voltage charging if the terminal voltage is above a predetermined voltage; Measuring a charging current during the constant voltage charging; And completing the battery charging when the charging current reaches the buffered reference current.