KR100442985B1 - Method for estimating design capacity of battery loaded on mobile phone - Google Patents

Abstract

The present invention provides a method for accurately measuring and restoring a design capacity of a battery mounted in a mobile communication terminal. As the battery is mounted, a design capacity value used for measuring a charge / discharge state of the battery is increased. A first step of checking whether the battery is stored in the mounted battery and measuring the remaining capacity of the battery when the design capacity value is not stored; And a second step of determining a design capacity of the mounted battery by comparing the plurality of reference charge values stored in advance with the magnitude of the measured remaining capacity value of the battery, and then storing the determined design capacity in the battery. .

Description

Method for estimating design capacity of battery loaded on mobile phone}

The present invention relates to a method for measuring the design capacity of a battery mounted in a mobile communication terminal, and more particularly, to a method for measuring and restoring a design capacity recorded in a battery when it is lost.

In general, a mobile communication terminal uses a rechargeable battery that stores energy because it is used by an individual. Such a battery is mounted on the mobile communication terminal and discharged after being used for a predetermined time, so it must be charged again. Therefore, in order to inform the user of the replacement time of the battery, the mobile communication terminal displays the remaining amount of the mounted battery on the LCD screen.

Therefore, the mobile communication terminal is provided with a program for calculating the remaining amount of the mounted battery, and receives the residual current applied from the battery mounted by the program to calculate the remaining amount of the battery. In addition, the mobile communication terminal determines the state of charge and discharge of the battery based on the remaining amount of the battery is calculated and displayed on the LCD screen. Here, the mobile communication terminal determines the state of charge and discharge of the battery by comparing the calculated remaining battery capacity and the battery design capacity. That is, the mobile communication terminal must accurately know the design capacity of the battery to accurately determine the state of charge and discharge of the battery.

In order to confirm the design capacity of the battery, the design capacity of the battery was conventionally measured by checking the time taken until the fully charged battery is completely discharged.

However, in the conventional method of measuring the battery design capacity, it is almost impossible to measure the battery design capacity in a fully charged and discharged state of the battery, so that the battery design capacity is measured in a state substantially near full charge and full discharge. Therefore, the mobile communication terminal was not able to accurately know the design capacity of the mounted battery, and thus the mobile communication terminal could not display the more accurate state of charge and discharge of the battery to the user.

Accordingly, an object of the present invention is to provide a method for accurately measuring and restoring a design capacity of a battery mounted in a mobile communication terminal.

The present invention accurately measures and restores the design capacity of the battery, so that even if the digit capacity recorded in the battery is lost, the design capacity measurement method of the battery to accurately measure the charge and discharge time of the battery using the newly measured design capacity. There is another purpose to provide.

1 is a configuration diagram of a mobile communication terminal and a battery mounted thereto according to the present invention.

2 is a flowchart illustrating a method for measuring a design capacity of a battery mounted in a mobile communication terminal according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: battery 111: cell

112: first memory 120: mobile communication terminal

121: second memory 122: capacity measurement control unit

In order to achieve the above object, the present invention provides a method for measuring the design capacity of a battery mounted in a mobile communication terminal, wherein the mobile communication terminal measures the charge / discharge state of the battery as the battery is mounted in a fully charged state. A first step of checking whether a design capacity value used in the battery is stored in the mounted battery, and if the design capacity value is not stored, measuring a remaining capacity of the battery when the battery is mounted; And a second mobile terminal configured to determine a design capacity of the mounted battery by comparing the plurality of reference charge values stored in advance with the magnitude of the measured remaining capacity value of the battery, and to store the determined design capacity in the battery. Herein, the design capacity (DC) refers to a cell's maximum charge capacity value determined by the designer of the battery when the battery is manufactured.

According to the present invention, when the design capacity value recorded in the battery is lost due to user's negligence or device coupling, the mobile communication terminal measures and restores the design capacity value, and is used for measuring the charge / discharge state of the battery. DETAILED DESCRIPTION Exemplary embodiments for describing the technical idea of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a mobile communication terminal to which the present invention is applied and a battery mounted thereon, when a design capacity value of a battery 110 having a predetermined size and a mounted battery 110 is lost. It consists of a mobile communication terminal 120 to make.

The battery 110 includes a cell 111 for charging and discharging a predetermined amount of current, and a first memory 112 for storing a design capacity value of the cell 111.

The mobile communication terminal 120 stores the second memory 121 for storing a plurality of reference charge values used for measuring the design capacity of the battery 110 and the first memory 112 of the battery 110. When the design capacity value is lost, the capacity measurement control unit 122 for measuring the design capacity value of the battery 110 using the reference charge capacity value in the second memory 121 and storing it in the first memory 112 again is provided. Equipped.

Here, the capacitance measuring control unit 122 receives input and output current amounts of the cell 111 and design capacity values stored in the first memory 112 of the battery 110 through power terminals (+,-) and communication terminals, respectively. As the design capacity value of the battery 110 is lost, the newly measured design capacity value is stored in the first memory 112 through the communication terminal.

In addition, the design capacity value DC stored in the first memory 112 of the battery 110 is the maximum charge capacity value of the cell 111 designed by the user at the time of manufacture.

However, when the battery 110 maintains the charging performance at the time of design, the cell 111 may be charged with a current amount that is substantially larger than the design capacity value within a predetermined level, which will be described by the following Equation 1 Same as

MC DC (1 + δ) 0≤δ≤0.2

In Equation 1, MC is the actual maximum charge capacity of the cell 111, DC is the design capacity value of the cell 111, δ is the error value between the design capacity value and the maximum charge capacity of the cell 111. This is the value verified through the experiment.

As shown in Equation 1, the cell 111 may be charged with a current amount of about 20% more than the design capacity value. For example, the design capacity value of the cell 111 of the battery 110 may be charged. In the case of 100 mA, the maximum amount of current of 120 mA can be charged in the cell 111 during actual charging.

However, since the charging performance of the battery 110 is degraded by continuous use, the battery 110 can maintain a maximum charge capacity of about 120% within six months after the initial use, and the usage period exceeds six months. The written maximum charge gradually decreases. Accordingly, when the battery 110 is used for a predetermined period or more, the maximum charge amount is lowered to about 80% of the design capacity.

Accordingly, the present invention intends to newly measure and restore the design capacity value lost in the first memory 112 under the assumption that the maximum charge capacity value of the battery 110 is changed.

Next, a method of measuring the design capacity of the battery according to the present invention through the mobile communication terminal having the above configuration and the battery mounted thereon will be described in detail with reference to FIG. 2.

Referring to FIG. 2, first, when the battery 110 is fully charged and then mounted on the mobile communication terminal 120 (S201), the capacity measuring control unit 122 may determine a battery (eg, a charge / discharge state of the cell 111). It is determined whether the design capacity value of 110 is stored in the first memory 112 (S202). As a result of the determination, if the design capacity value is stored, the capacity measurement control unit 122 uses the current capacity of the cell 111 and the design capacity value of the battery 110 stored in the first memory 112. The charging / discharging state is measured (S203).

If it is determined that the design capacitance value is not stored, the capacitance measurement control unit 122 measures the remaining capacitance of the cell 111 at the time of mounting using the amount of current applied from the cell 111 through the power terminals (+,-) ( S204). Here, since the capacity measuring control unit 122 measures the remaining capacity of the cell 111 in the fully charged state, the remaining capacity RC of the cell 111 measured by the capacity measuring control unit 122 is the maximum charge amount MC. It is the same capacity value as). Such a technique for measuring the remaining capacity or the maximum charge capacity of the battery 110 may use a technique commonly used.

In this way, after the maximum charge capacity of the cell 111 is measured, the capacity measurement control unit 122 measures the magnitude of the plurality of reference charge values stored in the second memory 121 and the measured remaining capacity value RC at the time of mounting. Next, as shown in Equation 2, a design capacity of the battery 110 mounted in the mobile communication terminal 120 is determined (S205).

MC (n-1) RC <MCn

In Equation 2, MC1 to MCn are reference charge values stored in the second memory 121. For example, MC1 is 50mA, MC (n-1) is 100mA, and MCn is 150mA.

In the state in which the reference charge value is set as described above, a method of determining the design capacity of the battery 110 according to the present invention through [Equation 2] will be described below.

First, when the remaining capacity value RC of the mounted cell 111 measured by the capacity measuring control unit 122 is a current amount value of 80 mA to 120 mA, the remaining capacity value RC is substituted into Equation 2 above. Since the remaining capacity value RC of the cell 111 at the time of mounting is a current amount value closest to the reference charge capacity value MC (n-1) of 100 mA, the capacity measuring controller 122 is designed to design the mounted battery 110. Determine the capacity (DC) to 100mA.

In addition, when the remaining capacitance value RC of the mounted cell 111 measured by the capacitance measuring controller 122 is a current amount value of 130 mA to 170 mA, the residual capacitance value RC is substituted into Equation 2 above. Since the remaining capacity value RC of the cell 111 at the time of mounting is the current amount value closest to 150 mA of the reference charge capacity value MCn, the capacity measuring control unit 122 determines the design capacity DC of the mounted battery 110. Determine 150mA.

Here, when the capacitance measuring control unit 122 determines the design capacity DC of the battery 110, the cell 111 measured among the plurality of reference charge values MC1 to MCn stored in the second memory 121 is measured. The reason for determining the reference capacitance value MC closest to the remaining capacitance value RC as the design capacitance value DC of the battery 110 is as described above through Equation 1, as described above. This is because an error occurs between the design capacitance value (DC) and the maximum charge capacity value (MC).

If the charging performance of the battery 110 is lowered to 80% or less of the design capacity value DC, for example, if the charging performance of the battery 110 having a design capacity of 100 mA is lowered to less than 80%, The maximum charge capacity value MC of this battery 110 will be about 70 mA.

As such, when the battery 110 whose charging performance is reduced to less than 80% is fully charged and mounted on the mobile communication terminal 120, the maximum charge capacity value MC of the battery 110 measured by the capacity measuring controller 122 is measured. ) Will be around 70mA. Accordingly, the capacitance measurement control unit 122 may determine the remaining capacitance value of the mounted cell 111 measured with the reference charge values MC1 to MCn in the second memory 121 as shown in [Equation 2]. By comparing RC), the design capacity of the mounted battery 110 will be determined as 50 mA.

After the design capacity of the battery 110 is measured in the same manner as in [Equation 2], the capacity measurement control unit 122 measures the design capacity of the newly measured battery 110 through the communication terminal. It is stored in the first memory 112 of (S206).

The design capacity of the battery 110 measured as described above is used by the capacity measurement control unit 122 to determine the charge / discharge state of the cell 111.

Although the technical spirit of the present invention has been described in detail according to the above-described preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

As described above, the present invention accurately measures and restores when the design capacity recorded in the battery is lost, so that the charge and discharge time of the battery can be accurately determined using the newly measured design capacity even when the digital input capacity recorded in the battery is lost. Measurement, which can significantly improve the user's confidence in the product.

Claims (3)

In the method for measuring the design capacity of the battery mounted in the mobile communication terminal, The mobile communication terminal checks whether the design capacity value used to measure the charge / discharge state of the battery is stored in the mounted battery as the battery is mounted in a fully charged state. Measuring a remaining capacity of the battery at a time; And The mobile terminal determines a design capacity of the mounted battery by comparing the plurality of reference charge values stored in advance with the measured remaining capacity value of the battery, and then stores the determined design capacity in the battery. Design capacity measurement method of a battery mounted on a mobile communication terminal comprising a. The method of claim 1, The mobile communication terminal is the following formula MC (n-1) <RC <MCn The MC (n-1) and MCn are reference charge values stored in the mobile communication terminal, and RC is the remaining capacity value of the battery when mounted. The design capacity measurement method of the battery mounted in the mobile communication terminal, characterized in that for determining the design capacity of the mounted battery by comparing the plurality of reference charge values and the magnitude of the measured remaining capacity value of the battery through . The method of claim 2, The mobile communication terminal, The design capacity measurement method of the battery mounted in the mobile communication terminal, characterized in that for determining the design capacity of the battery, the reference capacity value that is closest to the remaining capacity of the on-board battery measured among the plurality of reference charge values; .