KR101349015B1 - Method for determining state of health of battery - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle battery aging determination method. More particularly, the present invention relates to a vehicle battery aging determination method for monitoring battery charge current and charging time so that battery aging can be determined without a battery sensor.
To this end, the present invention comprises the steps of determining whether the battery charge guarantee value, the alternator output signal state, and the vehicle speed and acceleration / deceleration state satisfy the battery aging determination condition; Monitoring battery charge current and battery charge time from a battery charge guarantee value to a target amount if the battery aging determination condition is satisfied; Determining whether the battery is aging based on the monitored result; It provides a vehicle battery aging determination method comprising a.

Description

Vehicle aging determination method for vehicles {Method for determining state of health of battery}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle battery aging determination method. More particularly, the present invention relates to a vehicle battery aging determination method for monitoring battery charge current and charging time so that battery aging can be determined without a battery sensor.

In order to ensure the optimum performance of the vehicle battery, efficient management and reliability of the battery is required, and a system for monitoring the state of charge and aging of the battery is applied according to such a request.

Referring to the accompanying drawings, a method for determining a conventional battery old state is as follows.

A conventional SOH (state of health) value indicating a battery aging condition is determined by using a battery charge sensor. For this purpose, the battery charge sensor periodically measures the full charge capacity of the battery and transmits it to the controller. The measurement data is saved.

That is, the SOH (state of health) value measured every time the full charge capacity is sequentially recorded in each cell index (0 ~ n) of the memory, and when the recording is completed in the entire cell index, the maximum of the recorded SOH values The value is determined as the SOH value indicating the battery aging state (for example, as shown in Fig. 6A), the maximum value 90% is determined as the SOH value.

At this time, when each cell index of the memory is recorded in a full, the SOH measurement value of the subsequent battery charge sensor is overwritten with the oldest value recorded in the cell index (for example, FIG. As shown in 6 (b), the zero (0) field of the memory cell index is overwritten by 85%).

In this way, the SOH value is stored and recorded in the memory using a sensor for sensing the battery charge capacity, and the maximum value of the recorded values is determined as the SOH value for determining the battery deterioration state.

However, the use of the maximum SOH value recorded in the memory as the battery aging determination value has a disadvantage in that the reliability of the battery aging determination is inferior.

In other words, depending on the driving conditions of the vehicle and the charging conditions of the battery, it may occur when the battery is not fully charged every time, and because the full charge capacity of the battery is different, it is ambiguous to use the maximum SOH value as a criterion for determining the age of the battery. In this case, there is a disadvantage in that the reliability of the battery age determination is inferior.

The present invention has been made in view of the characteristics that the charging capacity is also reduced as the aging of the battery is reduced and the charging is hardly possible even under a condition in which the alternator can sufficiently generate power above a certain SOC, without a conventional battery sensor It is an object of the present invention to provide a vehicle battery aging determination method for determining battery aging by monitoring conditions such as battery charging current and charging time.

The present invention for achieving the above object comprises the steps of: determining whether the battery charge guarantee value, the alternator output signal state, the vehicle speed and acceleration / deceleration state satisfy the battery aging determination condition; Monitoring battery charge current and battery charge time from a battery charge guarantee value to a target amount if the battery aging determination condition is satisfied; Determining whether the battery is aging based on the monitored result; It provides a vehicle battery aging determination method comprising a.

As a preferred embodiment of the present invention, as the battery aging determination condition, i) the battery charge is more than the battery charge guarantee value (SOC), ii) the output signal of the alternator is output in a duty range capable of generation, i) the vehicle speed is critical It is characterized in that all of the conditions below the speed and no acceleration / deceleration are satisfied.

In a preferred embodiment of the present invention, the step of determining whether the battery is aging: when the battery charge current is less than the threshold current value from the battery charge guarantee value to the target battery charge target value, the battery charge time is longer than the threshold time, the battery Is determined to be old.

Preferably, if it is determined that the battery is old, the step of warning the driver by turning on the warning light through the cluster is characterized in that further proceeds.

Through the above-mentioned means for solving the problems, the present invention provides the following effects.

According to the present invention, it is possible to determine the aging determination for a vehicle battery using actual vehicle-based conditions such as the current battery charge, the vehicle driving conditions (vehicle speed and acceleration and deceleration) and the output signal state of the alternator, thereby making The memory usage of the charge sensor and controller can be eliminated, thereby reducing the cost for the battery aging determination function.

1 is a schematic view showing a configuration for a vehicle battery aging determination method according to the present invention,
2 is a logic flow diagram illustrating a vehicle battery aging determination method according to the present invention;
3 is a flowchart illustrating a vehicle battery aging determination method according to the present invention;
4 and 5 are waveform diagrams showing experimental results of the vehicle battery aging determination method according to the present invention;
6 is a schematic view illustrating a conventional battery aging determination method.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention uses the conditions of the actual vehicle state, such as the driving conditions (vehicle speed and acceleration and deceleration) of the actual vehicle state and the output signal state of the alternator which functions to generate power for charging the battery, unlike the conventional memory of the battery sensor and the controller. The main point is that the battery aging can be determined.

To this end, the conditions of the battery charge guarantee value, the alternator output signal state, and the actual vehicle state such as the vehicle speed and acceleration / deceleration state are adopted as battery aging determination conditions.

As a preceding step for determining battery aging in the state where the battery aging determination condition is selected, it is determined whether the battery charge guarantee value, the alternator output signal state, the vehicle speed and the acceleration / deceleration state, etc. satisfy the battery aging determination condition. The step proceeds at the upper controller 10 (e.g., engine ECU).

That is, as shown in FIG. 1, overall management and control of the battery, such as a current vehicle speed and acceleration / deceleration signal of the vehicle from the vehicle speed sensor and the acceleration sensor 14, an output signal from the alternator 16, and a battery charge amount, may be performed. For example, information such as the current battery charge amount SOC from the lower controller 12 is inputted to the upper controller 10, thereby determining whether the upper controller 10 satisfies the battery aging determination condition. The logic goes on.

More specifically, referring to FIG. 2 and FIG. 3, i) battery charge amount is equal to or greater than the battery charge guarantee value (SOC), that is, SOC value in which the battery charge state is guaranteed in a real vehicle. 80% or more, ii) the output signal of the alternator is output in the duty range that can be developed, that is, in the duty ratio range of 10% to 80%, and i) the vehicle speed is a critical speed (preferably 120 km / h for constant speed driving). It is determined that the battery aging determination condition is satisfied when all of the following conditions are satisfied while the acceleration and deceleration are not performed.

When the battery aging determination condition is satisfied as described above, the monitoring of the battery charging current and the battery charging time from the battery charge guarantee value to the target amount is performed in the lower controller and the information is transmitted to the upper controller.

For example, as shown in FIG. 3, when the SOC is 80% and the battery charge target amount is 85%, the battery charge current and the battery charge time are changed from SOC 80% to SOC 85%. Will be monitored.

Subsequently, it may be determined whether the battery is old based on the monitored result as described above.

That is, the step of determining whether the battery is aging monitors the battery charge current and charging time from the battery charge guarantee value (for example, SOC 80%) to the target battery charge target amount (for example, SOC 85%), When the battery charge current is less than the threshold current value and the battery charge time takes more than the threshold time, it is determined that the battery is old.

For example, when the battery charge current is low, 2A or less, and the battery charge time is too long for 2 hours or more, it is determined that the battery is old.

As the test example 1 of the present invention, an aging battery was mounted in an MPI ISG vehicle, and the aging determination test was performed in the same manner from the guaranteed battery charge guarantee value (SOC 84%) to the target battery charge target amount (SOC 88%). In addition, as the test example 2 of the present invention, a new battery was mounted in the gamma gdi 1.6 vehicle, and the aging determination test was performed in the same manner from the guaranteed battery charge guarantee value (SOC 86%) to the target battery charge target amount (SOC 90%). The results are as shown in the waveform diagrams of FIGS. 4 and 5, respectively.

In Test Example 1, as shown in FIG. 4, the battery charging state increased by 4% (84%-> 88%) to 3752 s (seconds). Was lowered to 2A level and was found to be in a bad state due to charging by battery aging.

In Test Example 2, as shown in FIG. 5, the battery charge state is increased to 321 s (seconds) for a 4% (86% to 90%) increase in battery charge state, and the battery charge current is charged to at least 22A. The current state was also measured to be good.

As described above, the battery charge current and the battery charge time are continuously maintained when the state of charge (SOC) of the actual vehicle is higher than a certain level, and the condition that the alternator output is maintained almost constant in the idle or constant speed condition without vehicle acceleration / deceleration is satisfied. By monitoring, the battery charge current and charge time become an AND condition that satisfies the threshold value, and when this state passes the delay time, it is determined that the battery is old, thereby detecting the battery charge amount. The memory usage of the sensors and controllers can be eliminated, thereby reducing the cost for the battery aging determination function.

On the other hand, if it is determined that the battery is old, the step of turning on the warning light through the cluster according to the control command of the upper controller to the driver warning can be further proceeded, thereby inducing the driver to replace the battery.

Claims (4)

Determining whether the battery charge guaranteed value, the alternator output signal state, the vehicle speed and the acceleration / deceleration state satisfy the battery aging determination condition;
Monitoring battery charge current and battery charge time from a battery charge guarantee value to a target amount if the battery aging determination condition is satisfied;
Determining whether the battery is aging based on the monitored result;
Vehicle aging determination method for a vehicle comprising a.
The method according to claim 1,
As the battery aging determination condition,
Ⅰ) The battery charge guarantee value (SOC) is 80% or more, ii) The output signal of the alternator is output in the duty ratio range of 10% ~ 80%, ⅲ) All conditions under which the vehicle speed is below the critical speed and there is no acceleration / deceleration A vehicle battery aging determination method characterized in that it must be satisfied.
The method according to claim 1,
The determining of whether the battery is aging is:
And determining that the battery is old when the battery charge current is less than the threshold current value and the battery charge time takes longer than the threshold time from the battery charge guarantee value to the target battery charge target amount.
The method according to claim 1,
If it is determined that the battery is old, the step of warning the driver by lighting a warning light through the cluster is further performed.

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