KR20090052557A - System for estimating life time of a secondary battery and methode for estmating life time of a secondary battery - Google Patents

Abstract

The life determination system of a secondary battery according to the present invention includes a voltage measuring unit for measuring an open circuit voltage after discharge of a target secondary battery, a reference open circuit voltage which is an open circuit voltage measured after discharge of a reference secondary battery, and corresponding to the reference open circuit voltage. A memory for storing life data of the reference secondary battery, a life determination unit for determining the life of the target secondary battery by mapping the open circuit voltage of the target secondary battery and the life data of the reference secondary battery stored in the memory, and the life determination It includes a display unit for displaying the life of the target secondary battery determined by the unit. In addition, the life span determination method of the secondary battery according to the present invention includes an open circuit voltage measurement step, a life span determination step, and a display step. According to the life span determination system and life span determination method of the secondary battery of the present invention, it is easy to know the replacement time of the secondary battery, and it is possible to prevent unnecessary charging, and more accurate life span considering the influence on temperature is possible.

Secondary battery, life span, open circuit

Description

System for estimating life time of a secondary battery and methode for estmating life time of a secondary battery}

The present invention relates to a life determination system and a life determination method of a secondary battery.

Secondary batteries used as energy sources for portable and portable electronic devices, such as laptops, cellular phones, and PDAs, can be recharged and used repeatedly.

However, the discharge time becomes shorter after several charges and discharges. Therefore, after a certain number of charge-discharge cycles or when the discharge time becomes too short, the secondary battery needs to be replaced. However, the secondary battery becomes aging by shortening the use time of the secondary battery. At this time, the degree of aging of secondary batteries was unknown.

In the case of a secondary battery, a system for measuring how much remaining capacity until discharge is known is known. However, the time taken from a fully charged state to discharge becomes shorter as the battery ages. As the secondary battery was discharged at an unexpected time, there was an inconvenience in that the user could not use the portable electric device. In particular, despite the need for replacement of the secondary battery, there was a problem that the user does not know the charge before charging in the charger to make unnecessary charging.

In addition, there is a need for a life determination system and life determination method that can more accurately determine the life by reflecting the influence of temperature and the like.

The problem to be solved by the present invention is to provide a life determination system and a life determination method of the secondary battery to display the life of the secondary battery so that the replacement time.

The life determination system of a secondary battery according to the present invention includes a voltage measuring unit for measuring an open circuit voltage after discharge of a target secondary battery, a reference open circuit voltage which is an open circuit voltage measured after discharge of a reference secondary battery, and corresponding to the reference open circuit voltage. A memory for storing life data of the reference secondary battery, a life determination unit for determining the life of the target secondary battery by mapping the open circuit voltage of the target secondary battery with the life data of the reference secondary battery stored in the memory, and the life determination unit It includes a display unit for displaying the life of the target secondary battery determined by.

The apparatus may further include a forced discharge unit for forcibly discharging the target secondary battery.

The apparatus may further include a temperature measuring unit measuring a temperature of the target secondary battery.

The life data may be obtained through a graph showing a reference open circuit voltage value according to an increase in the number of charge / discharge cycles.

The life determining unit extracts a reference open circuit voltage corresponding to the open circuit voltage of the target secondary battery measured by the voltage measuring unit and corresponding lifetime data from the memory to determine the life of the target secondary battery. can do.

The display unit may display the life data by dividing the life data into two or more steps.

The display unit may display a replacement message of the secondary battery when the life of the target secondary battery corresponds to the life of the replacement life or less as a result of the determination of the life of the life determination unit.

The life span determination method of a secondary battery according to the present invention includes an open circuit voltage measuring step of measuring an open circuit voltage of a target secondary battery after a predetermined time after the power is cut off, an open circuit voltage of the target secondary battery, and a reference secondary stored in a memory. Life cycle determination step of determining the life of the target secondary battery by mapping the life data of the battery and a display step of displaying the life of the target secondary battery.

The method may further include a forced discharge step of forcibly discharging the target secondary battery before the open circuit voltage measurement step.

In addition, when the life of the target secondary battery is determined that the life of the target secondary battery corresponds to the life of less than the replacement life, the method may further include displaying a secondary battery replacement message.

According to the present invention, the life of the secondary battery can be easily determined and the user can not only easily determine the replacement time of the secondary battery, but also can be applied to the charger when the forced discharge function is added. Unnecessary charging can be prevented, and more accurate life judgment is possible in consideration of the influence of temperature and the like.

As shown in FIG. 1, the life span determination system of the secondary battery according to the present invention includes a voltage measuring unit 1, a memory 2, a life span determination unit 3, and a display unit 4.

In the case of a secondary battery, the capacity of the battery decreases during several charge and discharge cycles, thereby reducing the remaining life. This is because the internal resistance of the secondary battery increases because moisture existing in the fabrication of the battery creates deposits.

When the range of the product equipped with the secondary battery is 3.0 ~ 4.2V, the power is cut off when the secondary battery is used and reaches 3.0V.The open circuit voltage (OCV) of the secondary battery is 3.0V after the power is cut off. Has a higher value. The reason is that since the voltage drop (IR drop) occurs as much as the internal resistance of the secondary battery in the closed circuit, the power is cut off when reaching 3.0V, but after the power is cut off, the voltage corresponding to the internal resistance increases again.

As the internal resistance of the target secondary battery increases, the time for reaching the voltage at which the power is cut off is faster, so that the discharge occurs faster as the number of charge / discharge cycles of the secondary battery increases. The open circuit voltage (V _O ) of the target secondary battery increases as the internal resistance increases. Therefore, the life determination system of the secondary battery according to the present invention is to determine the life of the secondary battery through the data on the life with the secondary battery by measuring the open circuit voltage. As shown in FIG. 1, the voltage measuring unit 1 is connected to the target secondary battery B, which is the object of life determination, and measures the open circuit voltage V _O of the target secondary battery. Since it takes a certain time to recover the voltage drop according to the internal resistance value, it is more internal to measure after about 5 ~ 10 seconds have passed than when measuring the open circuit voltage immediately after the power is cut off. Accurately measure the resistance.

In the memory 2, the reference open circuit voltage V _R , which is the open circuit voltage of the reference secondary battery measured by an experiment in advance, and the lifetime data D _L of the reference secondary battery corresponding thereto are stored in advance. Different data may be inputted into the memory 2 according to the type of the secondary battery used in the electric device to which the life span determination system of the secondary battery according to the present invention is applied. If a battery life-saving system is used, it is also possible to store all memories of each type. In FIG. 2, the open-circuit voltage V _R of the reference secondary battery according to the number of charge / discharge cycles of the lithium ion battery is illustrated. The data stored in the memory of the present invention is not limited thereto, and the data about the life of the reference secondary battery and the reference open circuit voltage may vary according to the type of life data and the type of the secondary battery. Since the reference opening voltage V _{R, which} is the open circuit voltage of the reference secondary battery, and its corresponding lifetime are stored in the memory, the reference voltage stored in the memory when the voltage measuring unit 1 measures the open voltage V _O of the target secondary battery is measured. It is preferable that the open circuit voltage V _R is measured under the same conditions as those measured.

In the life determination unit 3, the lifespan of the target secondary battery is determined by mapping the open circuit voltage V _O of the target secondary battery measured by the voltage measuring unit 1 and the life data stored in the memory 2. Data on the time taken to discharge corresponding to the reference opening voltage (V _R ) may be input as the life data, or data on the number of charge and discharge cycles corresponding to the reference opening voltage (V _R ) may be input as the life data. It may be. At this time, the lifespan of the secondary battery is determined by mapping the open-circuit voltage V _O of the target secondary battery and life data stored in the corresponding memory.

Internal resistance varies slightly with temperature. Therefore, as shown in FIG. 4, the apparatus further includes a temperature measuring unit 6 for measuring the temperature of the target secondary battery, and stores data about the reference open circuit voltage V _R measured according to each temperature in the memory. The open-circuit voltage value can be obtained in consideration of the influences of the battery.

The lifespan determined by the lifespan judging unit may be displayed in two or more stages on the display unit. In this case, the lifespan may be displayed by the remaining time until discharge. In addition, the display may be divided into the same steps as in the upper, middle, and lower stages. For example, in the case of a lithium ion battery, when the open circuit voltage is 3.0 to 3.5 V, the upper phase is displayed. If it is above, it can be divided into "lower" and the life can be indicated by upper, middle and lower values.

The lifetime determination system of the secondary battery may be generally used in an electric appliance in which the secondary battery is used, but the lifetime determination system of the secondary battery according to the present invention may be used in a charger for charging the secondary battery. In the case of using the life determination system of the secondary battery according to the present invention as a charger, the discharge voltage of the target secondary battery after the discharge by adding a forced discharge unit 5 for performing a forced discharge function as shown in FIG. V _O ) can be measured. Accordingly, when the secondary battery is too old to discharge and the discharge time is too short, or the life of the battery is "lower", it is possible to know when the battery needs to be replaced before being charged, thereby preventing unnecessary charging.

In addition, if the replacement is necessary according to the life, the replacement message may be further displayed on the display unit.

In addition, the life span determination method of the secondary battery according to the present invention includes an open circuit voltage measurement step, a life span determination step, and a display step.

In the measuring of the open-circuit voltage, the open-circuit voltage is measured after a predetermined time after the power is cut off for the target secondary battery. In FIG. 5, a flowchart of a life determination method in the case of measuring the open circuit voltage after 10 seconds have elapsed after the power is cut off is shown, but this constant time is not limited to 10 seconds. As a next step, the lifespan determination step of determining the lifespan is performed by mapping the measured opening voltage (V _O ) of the target secondary battery to the lifespan data of the reference secondary battery stored in the memory. Referring to the embodiment of mapping the lifetime data, as shown in FIG. 5, the reference opening voltage V _R matching the opening voltage V _O of the target secondary battery is found, and the lifetime corresponding to the reference opening voltage is found. Life is judged by finding. When the life of the target secondary battery is determined, the information is sent to the display unit, and the display unit displays the life so that the user can know the current life of the secondary battery.

In addition, if a replacement is required, the method may further include a step of notifying the user. As shown in FIG. 6, when the life of the target secondary battery determined by the life determination unit is displayed as a value over the replacement life, only the life is displayed. If the value is less than the replacement life, the display unit may display the life and replacement message.

In addition, the life determination method of the secondary battery according to the present invention may further include a forced discharge step. FIG. 7 illustrates a life determination method including a forced discharge step and informing a replacement message. As described above, a method of measuring the open circuit voltage after forcibly discharging the secondary battery may be used in a charger.

In addition, by measuring the temperature (T _o ) and the open-circuit voltage (V _R ) of the target secondary battery, and mapping the life data according to the temperature (T _R ) of the reference secondary battery stored in the memory, the open circuit voltage and the reference secondary of the target secondary battery It is also possible to find the lifetime at the point where the open-circuit voltage values of the battery coincide. In this case, not only the life is judged by the value considering the influence on temperature, but also the life is judged by the measured data rather than simply correcting the influence on temperature by a calculation formula. . Although FIG. 8 illustrates a case in which a forced discharge step is included, even if the forced discharge step is not included, accurate life determination is possible by life data according to temperature.

1 and 3 illustrate an embodiment of a life determination system of a secondary battery according to the present invention.

2 illustrates an example of data stored in a memory unit.

4 to 6 are flowcharts illustrating one embodiment of a method for determining the life of a secondary battery according to the present invention.

Claims (10)

A voltage measuring unit measuring an open circuit voltage after discharge of the target secondary battery; A memory for storing a reference open circuit voltage, which is an open circuit voltage measured after discharge of the reference secondary battery, and lifetime data of the reference secondary battery corresponding to the reference open circuit voltage; A life determination unit for determining the life of the target secondary battery by mapping the open circuit voltage of the target secondary battery and life data of the reference secondary battery stored in the memory; And Lifespan determination system of a secondary battery comprising a display unit for displaying the lifespan of the target secondary battery determined by the lifespan determination unit. The method of claim 1, Life-time determination system of the secondary battery further comprises a forced discharge unit for forcibly discharging the target secondary battery. The method of claim 1, Life-time determination system of the secondary battery further comprises a temperature measuring unit for measuring the temperature of the target secondary battery. The method of claim 1, The lifespan data is a lifespan determination system of a secondary battery, characterized in that obtained through a graph showing the reference open circuit voltage value with increasing number of charge and discharge cycles. The method of claim 1, wherein the life determination portion The life span of the secondary battery is determined by extracting a reference open circuit voltage corresponding to the open circuit voltage of the target secondary battery measured by the voltage measuring unit and corresponding lifetime data from the memory. system. The method of claim 1, wherein the display unit Life cycle determination system of the secondary battery, characterized in that for displaying the life data divided into two or more stages. The method of claim 1, wherein the display unit The life determination system of the secondary battery, characterized in that for displaying the message that the replacement of the secondary battery when the life of the target secondary battery is determined that the life of the target secondary battery is less than the replacement life. Opening voltage measuring step of measuring the open-circuit voltage of the target secondary battery after a certain time after the power is cut off; A life determination step of determining the life of the target secondary battery by mapping the open circuit voltage of the target secondary battery and life data of the reference secondary battery stored in the memory; A display step of displaying the life of the target secondary battery; Life judgment method of a secondary battery comprising a. The method of claim 8, And a forced discharge step of forcibly discharging the target secondary battery before the open circuit voltage measurement step. The method of claim 7, wherein If the lifespan of the target secondary battery is determined that the life of the target secondary battery is less than the replacement life, further comprising the step of displaying a secondary battery replacement message, the method of determining the life of the secondary battery.

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