KR102311949B1 - Battery charge-discharge control apparatus and control method of the same - Google Patents

Abstract

The present invention discloses a charge/discharge control apparatus for a rechargeable battery and a charge/discharge control method thereof. A battery charge/discharge control apparatus according to an embodiment of the present invention monitors the state of a battery and calculates a cycle count and discharge capacity of the battery, a charging unit for supplying charging power to the battery, and the cycle count at a preset number of times. Upon arrival, the controller may include a controller configured to control the operation of the charging unit according to the discharging type of the battery to adjust the charging current supplied to the battery or to adjust the discharging current of the battery.

Description

BATTERY CHARGE-DISCHARGE CONTROL APPARATUS AND CONTROL METHOD OF THE SAME

The present invention relates to a charging/discharging control apparatus for a rechargeable battery and a charging/discharging control method thereof, and more particularly, it is possible to extend the life of the battery by variably controlling the charging and discharging of the battery according to a user's battery usage pattern. It relates to a battery charging/discharging control device and a charging/discharging method therefor.

Electronic devices such as portable phones, tablets, notebook computers, MP3 players, digital cameras, and PMPs may provide a communication function, a multimedia function, a game function, and various application functions to a user. The electronic device may receive power through a battery such as a secondary battery in order to provide various functions as described above. The battery may be a rechargeable battery that can be recharged and reused.

The electronic device may uniformly fully charge the battery regardless of the user's battery usage history. As the charging voltage of the battery is set higher, the charging capacity of the battery may increase and the use time of the electronic device may be increased. As the charging current of the battery is set higher, the time taken for the battery to be fully charged may be shortened.

However, as the charging voltage or charging current of the battery is set higher, the service life of the battery may be shortened due to deterioration of the battery, and problems such as explosion of the battery may increase.

In addition, in the process of repeatedly discharging and charging the battery, the battery life may be reduced due to various variables such as the residual capacity of the battery and the size of the current.

The present invention analyzes the cause of deterioration of a battery based on a user's battery usage pattern and, through this, efficiently controls charging and discharging of the battery, thereby extending the life of the battery.

A battery charge/discharge control apparatus according to an embodiment of the present invention monitors the state of a battery and calculates a cycle count and discharge capacity of the battery, a charging unit for supplying charging power to the battery, and the cycle count at a preset number of times. Upon arrival, the controller may include a controller configured to control the operation of the charging unit according to the discharging type of the battery to adjust the charging current supplied to the battery or to adjust the discharging current of the battery.

A battery charge/discharge control method according to an embodiment of the present invention includes calculating a cycle count and a discharging capacity of a battery, determining a discharge type of the battery when the cycle count reaches a preset number of times, and discharging the battery It may include adjusting the charging current supplied to the battery or the discharging current of the battery according to the type.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention can extend the life of the battery by variably controlling the charging and discharging of the battery according to the user's battery usage pattern.

1 is a view showing a simulation result of a change in discharge capacity according to a change in the discharge current of a battery.
FIG. 2 is a view showing a simulation result of a change in discharge capacity when a discharge current or a charging current is adjusted for the cases of FIG. 1 .
3 is a block diagram showing the configuration of a battery charge/discharge control apparatus according to an embodiment of the present invention.
4 is a flowchart illustrating a method for controlling battery charge/discharge according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

1 is a view showing a simulation result of a change in discharge capacity according to a change in the discharge current of a battery, and FIG. 2 is a view showing a change in the discharge capacity when the discharge current or the charging current is adjusted for the cases of FIG. 1 A diagram showing the simulation results for

1 (a) and (b) are both diagrams showing changes in discharge capacity (capacity retention) of a battery when low current discharge is forcibly performed every 50 cycles.

As shown in FIG. 1 , the same discharge conditions were applied to different batteries, but the battery of (a) showed a large change in discharge capacity after low current discharge, whereas the battery of (b) did not show such change. That is, although batteries manufactured through the same processes, it can be seen that the change in the discharge capacity can be greatly changed as the discharge conditions according to the repetition of the cycle are changed.

In this regard, an experiment was performed to control the discharge current and the charge current for the batteries simulatedly set to have the same characteristics as in FIGS. 1(a) and (b).

As a result, as shown in (a) of FIG. 2 , when the change in the discharge capacity according to the discharge current was large, it was found that the slope of the capacity decrease according to the cycle repetition was reduced by decreasing the discharge current. That is, it was found that when the change in the discharge capacity according to the discharge current is large, the lifespan of the battery can be extended by reducing the discharge current.

In addition, as shown in (b) of FIG. 2 , when the change in the discharge capacity according to the discharge current was small, it was found that the slope of the capacity decrease according to the cycle repetition was reduced by decreasing the charging current. That is, it was found that, when the change in the discharge capacity according to the discharge current is small, the lifespan of the battery can be extended by reducing the charging current.

That is, it can be seen that in order to extend the life of the battery, it is necessary to take appropriate measures (discharge current control or charging current control) after determining the discharge type (user's battery usage pattern) of the battery.

3 is a block diagram showing the configuration of a battery charge/discharge control apparatus according to an embodiment of the present invention.

The battery charge/discharge control apparatus of FIG. 3 includes a battery gauge 10 , a memory 20 , a controller 30 , and a charging unit 40 .

The battery gauge 10 is built in a specific electronic device together with the battery 1 to monitor the voltage of the battery 1, the current at the time of charging, the current at the time of discharging (average current), resistance and temperature, etc. After calculating the state of charge (SOC), cycle count, charge capacity, and discharge capacity of (1), the result is stored in the memory 20 . In particular, the battery gauge 10 divides the discharge current into a low current discharge and a high current discharge, calculates discharge capacities for each case, and stores the values in the memory 20 . The battery gauge 10 also provides a cycle count to the controller 30 . The battery gauge 10 may be implemented in the form of a chipset, and by monitoring the state of the battery 1 , a state of charge (SOC), a cycle count, and a charge of the battery 1 are performed. Any kind of conventional chipset may be used as long as the capacity and the discharge capacity can be measured.

The memory 20 stores the values calculated by the battery gauge 10 , and provides the stored data to the controller 30 according to a request of the controller 30 . A nonvolatile memory such as a NAND flash memory may be used as the memory 20 .

The controller 30 analyzes a pattern in which the battery 1 is used by using the information measured by the battery gauge 10 and stored in the memory 20, and performs charging and discharging of the battery 1 according to the usage pattern. variable control. To this end, for example, the controller 30 compares the low current discharge capacity and the high current discharge capacity accumulated during the cycle count for every predetermined cycle count (eg, 50). . According to the comparison result, the controller 30 adjusts the charging current when the ratio of the low current discharge capacity and the high current discharge capacity is within a predetermined ratio (eg, 2%), and the difference between the low current discharge capacity and the high current discharge capacity When the ratio exceeds a preset ratio, the discharge current is adjusted. In this case, the control of the charging current and the discharging current may be continuously performed during charging and discharging until the next usage pattern analysis, for example, until the cycle count becomes 50 times again. The operation of the controller 30 will be described later in detail.

The charging unit 40 is connected to an external charger (not shown) and the battery 1 , and receives power from the charger to supply charging power to the battery 1 . The charging unit 40 may adjust the amount of current (charging current) supplied to the battery 1 under the control of the controller 30 .

4 is a flowchart illustrating a method for controlling battery charge/discharge according to an embodiment of the present invention.

First, for convenience of description, a case in which the battery charge/discharge control apparatus according to the present embodiment is applied to and used in a smartphone will be exemplarily described.

While the user uses the smartphone, the battery gauge 10 continuously measures and monitors the voltage of the battery 1 according to a predefined algorithm, the current at the time of charging, the current at the time of discharging, the resistance and the temperature, and the like, After calculating the SOC, cycle count, charge capacity, and discharge capacity of the battery 1 using such information, the results are stored in the memory 20 ( S110 ).

In particular, the battery gauge 10 divides the current at the time of discharging into a low current discharge and a high current discharge, and calculates a discharge capacity for each case. For example, the battery gauge 10 has a discharge capacity (low current discharge capacity) and a discharge rate (C-rate) of 0.5C to 0.7C in the case of a low current discharge having a discharge rate (C-rate) of 0.1C to 0.2C. The discharge capacity (high current discharge capacity) for the case of high current discharge, which is the level, is calculated separately, and the discharge capacities in each case are stored in the memory 20 . In this case, the battery gauge 10 may calculate the discharge rate by using the average current after obtaining an average of the current at the time of discharging in a predetermined time unit.

Also, the battery gauge 10 transmits the calculated cycle count to the controller 30 .

The controller 30 receiving the cycle count from the battery gauge 10 determines whether the cycle count has reached a preset number of times (eg, 50 times in this embodiment) (S120).

When the cycle count reaches a preset number of times, the controller 30 calculates the low current discharge capacity and the high current discharge capacity, respectively, and determines whether the ratio of the capacities is within a preset constant ratio (eg, 2% in this embodiment). It is determined whether or not (S130).

For example, the controller 30 adds the low current discharge capacity values and the high current discharge capacity values continuously accumulated in the memory 20 by the battery gauge 10 while the cycle count becomes 50, respectively, and then adds the summed low It is determined whether the value is within 1.02 (low current discharge capacity/high current discharge capacity ≤ 1.02) by dividing the current discharge capacity by the summed high current discharge capacity.

As a result of the determination, if the ratio of the low current discharge capacity to the high current discharge capacity is within 2%, the controller 30 controls the operation of the charging unit 40 to adjust the charging current of the battery 1 ( S140 ).

To this end, the controller 30 may control the charging unit 40 to lower the charging current of the battery 1 to a certain level lower than the charging specification of the corresponding battery when the battery 1 is charged while the cycle count becomes 50 again.

For example, the controller 30 may control the charging unit 40 to lower the charging current from 1C to 0.9C. At this time, the controller 30 controls the operation of the charging unit 40 to lower the charging current for the entire SOC period or the charging unit 40 to lower the charging current only for the SOC partial section (eg, SOC 50% to 100%) section. operation can be controlled.

As a result of the determination in step S130, if the ratio of the low current discharge capacity and the high current discharge capacity exceeds 2% (low current discharge capacity/high current discharge capacity >1.02), the controller 30 adjusts the charging current of the battery 1 to control the operation of the charging unit 40 (S150).

To this end, the controller 30 may take measures to reduce the amount of current discharged from the smart phone or provide a guide to reduce the discharge current to the user while the cycle count becomes 50 again after that.

For example, the controller 30 automatically terminates the application(s) activated in the smart phone but not in use for a preset period of time (eg, 15 minutes) or outputs a message requesting the user to terminate the applications. can do it Alternatively, the controller 30 may output a message instructing the user to terminate the background application of the smart phone or to refrain from using the application in order to prevent deterioration of the battery.

In FIG. 4 , only the case where the cycle count is the first 50 times has been described for convenience of explanation, but the above-described operations S110 to S150 may be repeatedly performed while the cycle count is every 50 times.

In the above-described embodiment, for convenience of explanation, the ratio of the low current discharge capacity and the high current discharge capacity is compared with only one reference value (2%), but the reference value is subdivided into several and the charging current for each case is The degree of reduction may be varied (eg, 1C→0.9C or 1C→0.8C or 1C→0.7C), or a corresponding method for reducing the discharge current may also be varied.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

1: battery
10: battery gauge
20: memory
30: controller
40: charging part

Claims (13)

a battery gauge that monitors the state of the battery to calculate the cycle count and discharge capacity of the battery;
a charging unit for supplying charging power to the battery; and
When the cycle count reaches a preset number of times, a controller that controls the operation of the charging unit according to the usage pattern of the battery to adjust the charging current supplied to the battery or to adjust the discharging current of the battery,
The battery gauge is calculated by dividing a first discharge capacity discharged at a first discharge rate (C-rate) and a second discharge capacity discharged at a second discharge rate;
The controller is configured to adjust the discharging current of the battery when the usage pattern of the battery satisfies a condition that a ratio of the first discharging capacity to the second discharging capacity is greater than a preset reference value. delete The method of claim 1, wherein the controller
When the usage pattern of the battery satisfies a condition that the ratio of the first discharge capacity to the second discharge capacity is within the reference value, the charging unit is controlled to adjust the charging current of the battery. Device. 4. The method of claim 3, wherein the controller
The battery charging/discharging control device, characterized in that the charging unit is controlled so that the charging current of the battery is lower than the charging specification of the battery by a predetermined level. delete The method of claim 1, wherein the controller
A device for controlling battery charge/discharge, characterized in that it terminates a function not being used for a predetermined period of time or outputs a message requesting the user to reduce the discharge current. calculating the cycle count and discharge capacity of the battery;
determining a usage pattern of the battery when the cycle count reaches a preset number; and
Adjusting the charging current supplied to the battery or the discharging current of the battery according to the usage pattern of the battery,
The step of calculating the cycle count and the discharge capacity of the battery is calculated by dividing the first discharge capacity discharged at the first discharge rate and the second discharge capacity discharged at the second discharge rate,
In the step of adjusting the charging current supplied to the battery or the discharging current of the battery, when the usage pattern of the battery satisfies the condition that the ratio of the first discharging capacity to the second discharging capacity is greater than a preset reference value, A battery charge/discharge control method by regulating the discharge current. delete The method of claim 7, wherein determining the usage pattern of the battery comprises:
and determining whether the usage pattern of the battery satisfies a condition in which a ratio of the first discharge capacity to the second discharge capacity is within the reference value. The method of claim 9, wherein the adjusting of the charging current or the discharging current comprises:
and controlling the charging current of the battery when the usage pattern of the battery satisfies a condition in which the ratio of the first discharge capacity to the second discharge capacity is within a preset reference value. 11. The method of claim 10, wherein the adjustment of the charging current is
A battery charging/discharging control method, characterized in that lowering the charging current of the battery by a certain level than the charging specification of the battery. delete 8. The method of claim 7, wherein the control of the discharge current comprises:
A method for controlling battery charge/discharge, comprising terminating a function not being used for a predetermined period of time or outputting a message requesting a user to reduce the discharge current.

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