KR20050035972A - Method for calibrating maximum capacity battery - Google Patents

Abstract

The present invention relates to a method for calculating a battery maximum charging capacity, and after detecting the output voltage of the battery in the state of storing the data for the total charge capacity ratio of each battery voltage level of at least one or more, By referring to the charge capacity ratio, the maximum charge amount is calculated according to the voltage detected by the battery. The maximum charge capacity of the battery can be accurately calculated by performing the calibration based on the total capacity ratio, and the maximum capacity of the battery can be frequently corrected even during the charge / discharge cycle by performing the calibration for the maximum capacity even before the complete discharge / charge. It is a very useful invention.

Description

Calculation method for battery maximum charging capacity {Method for calibrating maximum capacity battery}

The present invention relates to a rechargeable battery, and more particularly, to a method for calculating a maximum charging capacity of a rechargeable battery.

Today rechargeable batteries are used in many portable electronic devices such as portable computer systems, video cameras or cell phones.

The total charge capacity of the rechargeable battery is changed by various causes, the biggest damage of which is the memory effect due to chemical properties, which is caused by frequent charge / discharge of the battery by the user. The total charge capacity is reduced. For example, a Li-Ion battery's capacity is reduced to 60% of its initial capacity after 500 charge / discharge cycles, while a Ni-Mn battery has a capacity of 60% of its initial capacity after 300 charge / discharge cycles. It is known to become.

Therefore, since the battery remaining capacity information provided by the battery after charging / discharging is frequently performed, an error occurs due to the memory effect, so that an error may occur in the remaining battery information calculated by the portable terminal to which the battery is applied. In order to prevent this, it is necessary to estimate the exact battery total charge capacity.

FIG. 1 shows a configuration of a general battery total charge capacity detecting apparatus, wherein the battery total charge capacity detecting apparatus includes a battery voltage detector 1 for detecting an output voltage of a battery as an analog voltage, and the detected voltage. An amplifying unit 2 for amplifying, an A / D converter 3 for converting the amplified signal into a digital signal, and a total charge capacity and remaining amount of the battery in response to the digitally converted signal, and remaining amount display unit 5 It is configured to include a main processor (4) to display through.

An operation of the general battery total charge capacity detecting device configured as described above will be described with reference to an operation flowchart of the method for calculating the maximum battery full charge capacity of FIG. 2.

First, since the battery is in a state of constant discharge, the total charge capacity detecting device detects the output voltage at the time of discharge through the battery voltage detector 1, and the detected output voltage is amplified by the amplifier 2. Amplify by.

Accordingly, the A / D converter 3 converts the amplified signal into a detection value by converting a current battery output voltage into a detection value, and the main processing unit detects the detection output from the A / D converter 3. On the basis of the value, it is checked whether the battery is completely discharged (S10).

Further, the main processor 4 determines whether the battery is completely discharged based on the detected voltage at the time of discharge. (S11)

As a result of the determination, when the battery is completely discharged, the main processing unit 4 causes the complete discharge state to be displayed through the remaining amount display unit 5, and allows the user to perform a battery charging operation (S12).

Here, the main processor 4 determines whether the battery is fully charged according to the continuous voltage detection from the battery voltage detector 1 (S13).

As a result of the determination, when the voltage detected from the battery becomes constant, the operation of calculating the total charge capacity of the battery is performed based on the voltage output from the battery (S14).

However, in the conventional battery total capacity detection device, the total battery charge is calculated after the battery is fully discharged and then charged to 100%, so that the total battery capacity is detected when the battery is not fully discharged or fully charged. There is a problem that cannot be done.

In addition, when calculating the total capacity after the full charge operation as described above, the output voltage of the battery remaining capacity detected through the A / D converter has a voltage value and error of the initial battery total capacity (residual capacity) due to the memory effect Since the error cannot be checked, there is a problem in that the remaining capacity ratio with respect to the total charging capacity cannot be represented.

Accordingly, the present invention was created to solve the above problems, and in order to accurately calculate the total charge capacity of the battery, when the output voltage of the battery reaches a predetermined detection voltage level, By calculating the maximum charge capacity of the battery by referring to the voltage-to-total charge capacity ratio data, the accurate total charge capacity can be calculated even before fully charged, and the voltage value of the actual battery charge capacity and the voltage of the remaining capacity after full charge To provide a method for calculating the maximum charge capacity of the battery that can correct the error of the value. The purpose is.

According to an aspect of the present invention, there is provided a method of calculating a maximum charge capacity of a battery, the method comprising: detecting an output voltage of a battery in a state in which data on a total charge capacity ratio for each voltage level of at least one battery is stored; And calculating a total charging capacity according to the voltage detected by the battery, with reference to the total charge capacity ratio for each voltage level stored in advance.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the method for calculating the maximum battery capacity according to the present invention will be described in detail.

Fig. 3 shows the configuration of the battery total charge capacity detecting apparatus of the present invention. The battery total charge capacity detecting apparatus includes an A / D converter 30, a memory unit 40, a setting unit 51, And a main processing unit 50 having a comparing unit 52 and a mountain unit 53.

The A / D converter 30 receives the amplified detection voltage from a detector (not shown) for detecting the output voltage of the battery and converts the detected voltage into a digital signal.

The memory unit 40 includes a data table 41 in which total charge capacity ratio data is stored in relation to battery output voltage levels of respective manufacturers, and the total charge capacity ratio for each voltage level is in the output voltage range of batteries of each manufacturer. The maximum charge capacity value for

In addition, the main processor 50 is. The digital signal applied from the A / D converter 3 is read, and the total charge capacity ratio data for each manufacturer stored in the memory unit is read to correspond to the detected voltage applied to the A / D converter 30. Calculate the total charge capacity.

Here, the setting unit 51 of the main processing unit reads a data table of a designated battery by designating a battery of a predetermined manufacturer by a user selection, but detects a battery among battery data of each manufacturer previously stored in the memory unit. It is also possible to read the total charge capacity table with respect to a predetermined manufacturer battery voltage corresponding to the voltage value detected through the negative.

In addition, the comparator 52 of the main processor compares the voltage level in the data of the total charge capacity table data with respect to the voltage read out by the setting unit and the detected voltage, so that the detected voltage is the total charge capacity compared to the voltage. Upon entering each voltage level of the data table, a comparison result signal is output to the calculation unit.

In addition, the calculation unit 53 calculates the total charge capacity of the comparison result signal with reference to the total charge capacity ratio corresponding to each voltage level corresponding to the detected voltage, as a result of the determination of the comparison unit. The resultant signal is corrected and output to the total remaining capacity on the remaining amount display unit 60.

An operation of the apparatus for detecting the total battery charge capacity of the present invention configured as described above will be described with reference to FIG. 4.

 4 is a flowchart illustrating a method of calculating a maximum charge capacity of a battery according to the present invention. The output voltage at the time of discharge is detected through a battery voltage detector 1, and the detected output voltage is amplified. Amplify by 2).

Accordingly, the A / D converter 30 converts the amplified signal into a detection value by converting a current battery output voltage into a detection value, and the main processing part is a voltage detected by the battery voltage detection part, and the battery is completely replaced. Check whether the battery is fully charged or discharged completely (S20).

Then, through the setting unit 51 of the main processor, the battery of a predetermined manufacturer is designated by the user's selection, and the total charge capacity data table with respect to the designated manufacturer's battery voltage is read out (S21).

In addition, the comparison unit 52 of the main processor determines whether the battery is discharged or charged based on the detected voltage applied to the main processor.

The comparator 52 determines whether the detected voltage enters a predetermined voltage level of the total charge capacity ratio data compared to the voltage read from the memory 40 under a predetermined condition.

For example, when the detection voltage range of the data read by the setting unit 51 is 3.5V to 3.6V level, the comparator determines whether the detection voltage has entered the 3.5V to 3.6V level (S23).

Therefore, when the voltage level at which the detection value is constantly output corresponds to the predetermined voltage level, the detection voltage is referred to by referring to the data table 41 stored in the memory unit 40 of the main processor 50. The current maximum charge capacity of the battery is calculated, and the previous correction is made to the current total charge capacity instead of the total charge capacity (S23).

The main processor may display a value corrected by the current total charge capacity value of the battery as a character and a shape that can be easily recognized by the user through the remaining amount display unit.

However, when the detected value does not reach the level, the calculated value of the already calculated total charging capacity is maintained.

5 and 6 are data of the total charge capacity ratio with respect to the voltage according to the present invention, showing the detected voltage for the battery discharge time of the total number of times of full discharge charge of the battery of Company A and Company B compared with the total charge capacity value of the battery The bar chart of the graph shows the total charge capacity of the battery according to the number of times of use (n) of the battery as a percentage of the initial battery full charge.

In the diagram, the y-axis represents the detected output voltage of the battery, and the x-axis represents the complete discharge time (t) with respect to the discharge time of the number of times of use of the battery (10, 30, 60 ... n).

In addition, in the graph, it is possible to know the characteristics of the total battery capacity for each full charge / discharge frequency of the output detection voltage of the battery. For example, as shown in FIG. The detection voltage of the battery having 70% of the voltage is detected at 4.0V level, and the detection voltage at 180 full charge / discharge ranges from 3.5V to 3.6V, and the detection voltage has a charge capacity ratio of 75% over the above range. Able to know.

In addition, as shown in FIG. 6, the output voltage of the battery in which the total charge capacity of the battery of the company B has 80% of the initial charge amount is detected at 3.5V to 3.6V level.

Accordingly, the user can collect the total capacity ratio data of the battery of each company by means of the graph, and accordingly, the total capacity ratio of each voltage is converted into data, and the data is stored in the memory unit 40. By recording, the data value is drive-implemented in the battery total capacity detection device.

In Figure 5, the detection voltage of the battery of Company A is When the 3.5V voltage level set by the setting unit 51 is reached, the main processor 50 reads a pre-stored data value of the memory, and the total charge capacity value corresponding to the 3.5V level is 70%. Calculate the total capacity of the battery, and in the case of the battery of Company B, perform the calculation operation with the total capacity of the battery at 80%, correcting the 70% and the 80% of each battery to 100% of the total charge capacity. The remaining capacity is calculated based on the detected voltage value and outputted.

Therefore, in the conventional battery total capacity detection method, the battery is fully charged and then charged to 100% and then calibrated. In the present invention, even when the full discharge or full charge operation is not performed, that is, the total charge capacity can be calculated based on the total charge capacity value compared to the pre-stored voltage even during discharge / charge.

In addition, by correcting the voltage value and the error of the initial battery total capacity due to the memory effect, the instantaneous voltage value of the output voltage of the battery remaining capacity through the A / D converter is consistent with the voltage value of the total battery charging capacity, so that the correct remaining The capacity is calculated so that the user can know the correct remaining capacity through the remaining amount display.

As mentioned above, preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art can improve other various embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. Changes, substitutions or additions will be possible.

In the battery maximum charging capacity calculation method according to the present invention configured and made as described above, after detecting the output voltage of the battery in the state of storing data on the total charge capacity ratio for each voltage level of one or more batteries, the pre-stored voltage By referring to the total charge capacity ratio for each level, the maximum charge amount is calculated according to the voltage detected by the battery, so that the battery voltage is stored during the charging or discharging during the battery level without the battery remaining capacity after the full charge after the full discharge. Accurate calculation of the maximum charge capacity of the battery by performing the operation of calculating the total charge capacity of the battery based on the total charge capacity ratio, and by performing the calibration for the maximum capacity even before the complete discharge / charge, frequently during the charge / discharge It is a very useful invention that can correct the charging capacity.

1 illustrates a configuration of a general battery total charge capacity detecting device,

2 is a flowchart illustrating a general method of calculating a total battery charge capacity;

3 illustrates a configuration of a battery total charge capacity detecting apparatus to which the method for calculating a battery maximum charge capacity of the present invention is applied;

4 is a flowchart illustrating an operation of calculating a battery maximum charge capacity according to the present invention;

FIG. 5 is a graph showing the voltage of the total capacity-to-capacitance ratio according to the present invention, comparing the detected voltage with respect to the battery discharge time of the total number of discharge cycles of the A company battery to the total charge capacity value of the battery.

FIG. 6 is a graph showing data of a total capacity-to-capacity ratio according to the present invention, in which a detected voltage of a battery discharge time of a complete discharge charge count of a company B is compared with a total charge capacity value of a battery.

※ Explanation of code for main part of drawing

1: Battery voltage detector 2: Amplifier

3: A / D converter 4: Main processor

5: remaining amount display unit

Claims (3)

Detecting an output voltage of the battery in a state in which data on a total charge capacity ratio for each voltage level of at least one battery is stored; Calculating a total charge capacity of the battery by comparing the detected voltage of the battery with the total charge capacity ratio for each voltage level; And And correcting and displaying the actual total charge capacity of the battery based on the calculated total charge capacity value. The method of claim 1, In the step 1, the total charge capacity ratio for each voltage level, the maximum charge capacity calculation method, characterized in that the maximum charge capacity value for the output voltage range of the battery for each manufacturer. The method of claim 1, In the step 2, the maximum charge capacity calculation method of the battery, characterized in that the selection of the total charge capacity ratio data for each voltage level to be compared with the detected voltage of the battery is set by the user.