KR101853382B1 - Calculating apparatus of residual life parameter for starting battery - Google Patents

Abstract

The present invention finds a situation in which the same vehicle condition is detected in the vehicle running state after the start time as well as the battery starting resistance measured at the start time, calculates the dynamic resistance of the battery measured under the condition, Based on this, it is aimed to calculate a more precise aging level of the starting battery and predict the future remaining life.
In order to accomplish the above object, according to the present invention, there is provided a power supply apparatus including: a starting resistance calculation unit for analyzing a starting resistance calculation period in which a constant voltage and current value inclination is generated at a starting time point and calculating a starting resistance in the corresponding period; A condition judging unit for continuously confirming that the same vehicle condition is maintained in a vehicle running state after the starting time point; A dynamic resistance calculation unit for measuring the battery voltage and current in the vehicle condition to calculate and continuously update the dynamic resistance; A change rate calculating unit for calculating a change in battery aging level based on the calculated starting resistance and dynamic resistance; And a life estimation unit for estimating a remaining battery life using the rate of change.

Description

[0001] CALCULATING APPARATUS OF RESIDUAL LIFE PARAMETER FOR STARTING BATTERY [0002] BACKGROUND OF THE INVENTION [0003]

The present invention relates to a device for calculating the remaining service life of a battery for starting a vehicle, and more particularly, to a device for calculating a remaining service life of a battery for starting a vehicle, which is derived from a starting resistance calculation section having a constant slope, The present invention relates to a device for calculating the remaining service life of a battery for starting a vehicle that finally calculates the remaining service life of the battery for starting the vehicle by calculating the resistance change rate and the rate of change of the aging level based on the calculated dynamic resistance of the battery .

In an internal combustion engine vehicle with a 14V power configuration, a starter 12V battery is a very important part of the power supply required at startup. Especially automobiles with features like Idle Stop & Go or Idle Stop & Start need to know the state of the starting battery correctly because they require frequent start-up. do.

The state of charge (SOC) and the state of health (SOH) are used as variables representing the state of the battery, and the state of function (SOF) is determined using the state of charge. As a method for calculating such variables, there is a method of measuring the charged state of the battery and the internal resistance (starting resistance) at the starting point by using an apparatus such as an intelligent battery sensor (IBS). However, regarding the starting resistance, since the temperature and the charging state of the battery at the starting time of the vehicle are different from each other, the temperature correction coefficient is applied to the internal resistance of the battery measured at the starting time, It is common to calculate the SOH and SOF by using the estimation. Therefore, many experiments for calculating the temperature correction coefficient are required from the initial IBS development stage. If the temperature correction coefficient changes with the aging of the battery, it is difficult to estimate the accurate internal resistance. This is because the aging calculated based on the starting resistance There is a problem of increasing the level of uncertainty. In addition, there is a difference between the voltage change amount used for calculating the starting resistance and the reference time point of the current change amount, and the error of the starting resistance calculation itself is largely generated.

In addition, charge / discharge currents and temperature environmental conditions that cause aging of the battery are different depending on the operating condition of the vehicle equipped with the battery and the usage pattern of the driver. Therefore, It is general that the calculation of the remaining life of the battery based on the calculated resistance data has a large error.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a battery charging device that detects a battery starting resistance measured at a starting time, The purpose of the present invention is to calculate the dynamic resistance, to continuously check the change trend, to calculate a more accurate aging level of the starting battery based on the calculated dynamic resistance, and finally to predict the remaining life of the battery for starting the vehicle.

In order to accomplish the above object, the present invention relates to an apparatus for calculating remaining service life using a rate of change in resistance and a rate of change in aging level of a battery for starting a vehicle. The voltage and current change rate in the starting resistance calculation section are measured, A starting resistance calculation unit for calculating a starting resistance which is an equivalent resistance inside the battery; A condition judging unit for continuously confirming that the same vehicle condition is maintained in a vehicle running state after the starting time point; A dynamic resistance calculation unit for calculating and updating the dynamic resistance by measuring the battery voltage and current at the vehicle condition; A change rate calculating unit for calculating a change in battery aging level based on continuously updated starting resistance and dynamic resistance; And a life estimation unit for estimating a remaining battery life using the rate of change.

The present invention relates to an apparatus for calculating an aging level and a remaining service life using a battery starting resistance and a dynamic resistance variation of a vehicle battery, Measuring a battery starting resistance and measuring a dynamic resistance in a running state; (b) comparing the measured values of the starting resistance and the dynamic resistance with the reference data to calculate a current battery state level; (c) predicting the remaining battery life as the battery aging progresses by checking the continuously updated battery level; .

According to the present invention, the aging level of the present battery is calculated on the basis of the dynamic resistance measured not only in the starting resistance measured at the start time of the vehicle but also in the similar vehicle condition, There is a possible effect.

According to the present invention, since the battery aging trend is continuously analyzed, it is possible to predict how aging of the battery will occur as the driver operates the vehicle in a similar manner. This has the effect of allowing the operator to recognize the aging level of the battery prior to battery failure and to perform the inspection and replacement of the battery by a specialist.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall configuration conceptually showing an apparatus for calculating the remaining service life of a vehicle starting battery according to the present invention; FIG.
2 is a diagram showing an example of the operation of the starting resistance calculating unit in the remaining life calculating apparatus for a vehicle starting battery according to the present invention.
3 is a diagram showing an example of the operation of the dynamic resistance calculating unit in the remaining life calculating apparatus for a vehicle starting battery according to the present invention.
4 is an exemplary diagram showing an operation of the resistance change rate calculating module of the change rate calculating unit in the remaining life calculating apparatus for a vehicle starting battery according to the present invention.
5 is a diagram showing an example of an operation of the aging level change rate calculating module of the change rate calculating unit in the remaining life calculating device for a vehicle starting battery according to the present invention.
6 is a whole flow chart of a method for calculating the remaining service life of a battery for vehicle starting according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

The apparatus for calculating the remaining service life of a battery for starting a vehicle according to the present invention will now be described with reference to FIGS. 1 to 5. FIG.

In an internal combustion engine vehicle equipped with a battery sensor (BS) or an intelligent battery sensor (IBS), a minimum voltage is calculated in real time at the start of the battery to secure the starting performance of the vehicle. Because the lowest voltage at this start-up is directly affected by battery aging, calculating the aging level of the battery and estimating the remaining service life are critical factors in ensuring stable start-up performance.

The apparatus for calculating the remaining service life of a battery for starting a vehicle according to the present invention calculates a current battery aging level to determine whether a next restart will normally be performed in a vehicle in which frequent restarting occurs, It is preferable to understand that the operation of predicting the journals in advance is performed.

Fig. 1 is an overall configuration diagram conceptually showing a remaining service life calculating device for a vehicle starting battery according to the present invention.

1, the apparatus for calculating the remaining service life of a battery for starting a vehicle according to the present invention includes a starting resistance calculating unit 100, a dynamic resistance calculating unit 200, a condition determining unit 300, a rate of change calculating unit 400 and a life estimation unit 500.

The starting resistance calculation unit 100 can measure the battery voltage and current change at the start time and calculate the starting resistance by dividing the voltage change amount by the current change amount. However, in the conventional method, the difference between the current value at the starting point and the maximum starting current value in the starting section is defined as the current variation amount, and the voltage variation amount is the difference between the voltage value before the starting point and the lowest battery voltage value As shown in Fig. Considering that an inflection point occurs in the slope of the current and the voltage or a difference occurs at the point when the voltage and the current become the minimum value or the maximum value in the present invention, a section maintaining a stable and constant slope, as shown in FIG. 2, The starting resistance value is calculated.

The dynamic resistance calculating unit 200 calculates the dynamic resistance after the start of the starting operation. Specifically, the battery voltage and current are continuously measured even after the start-up time, and the point where the current value and the voltage value at each measurement time are set as the X-axis and Y-axis values are defined as operating points, Finally, the dynamic resistance value is calculated by deriving the statistical trend line of the listed operating points and obtaining the slope of the trend line.

The condition determining unit 300 determines whether the vehicle condition at the time when the starting resistance and the dynamic resistance are calculated is appropriate. As shown in FIG. 1, the starting condition calculating module 310 and the starting condition calculating unit And a dynamic resistance calculation condition confirmation module 320.

Specifically, the starting resistance calculation condition determining module 310 estimates the state of charge (SOC) and the temperature of the electrolyte in the battery by measuring the open circuit voltage (OCV) and the temperature before the starting time, Verify that the estimated value is included in the set constraint.

 The dynamic resistance calculation condition confirmation module 320 determines the dynamic resistance calculation condition based on the RPM of the vehicle engine per minute (RPM), the cooling water temperature, the number of gear stages, and the load current for a predetermined time period for measuring the voltage and current of the battery, Is continuously maintained.

It is determined whether to use the newly calculated starting resistance and the dynamic resistance value as calculation result values according to the results of the starting resistance calculation condition confirmation module 310 and the dynamic resistance calculation condition confirmation module 320. [

The rate of change calculator 400 calculates the rate of change of the starting resistance and the dynamic resistance to determine how much the aging of the used battery has progressed. The rate of change of resistance calculator 410 and the rate of change of the rate of aging rate calculation 420 ).

Specifically, the resistance change rate calculation module 410 calculates the rate of change using the starting point and the magnitude of the dynamic resistance and the starting resistance, respectively. When the calculation time of the calculation resistance and the resistance value are calculated as shown in Fig. 4, the rate of change is calculated as in [Expression 1].

[Equation 1]

K _R12 = R ₁₂ / T = (R ₂ - R ₁ ) / (T ₂ - T ₁ )

K _R23 = R ₂₃ / T = (R ₃ - R ₂ ) / (T _{3 -} T ₂ )

The resistance change rate calculation module 410 can obtain the final resistance change rate by averaging the rate of change that is repeatedly calculated through the process of [Equation 1] as shown in [Equation 2]. The number of change rates for obtaining the average is preferably three or more.

[Equation 2]

_R K _R = K _{(n-1) (n)} / n = (K K + _{R12 R23} + _R34 + ... + K K _{R (n-1) (n))} / n

As shown in FIG. 5, the aging level change rate calculating module 420 calculates a trend line to which the aging level of the present time point and the aging level of the past time point are applied, and calculates an estimated aging level by applying the estimated time point to be estimated to the calculated trend line . The aging level at each time point is calculated by dividing the dynamic resistance calculated by the dynamic resistance calculating unit 200 by the dynamic resistance of the battery in the new state. The dynamic resistance of the battery in the new state may be provided by the manufacturer, and the present invention may include measuring the dynamic resistance of the target battery only once, unless otherwise provided by the manufacturer. Then, the aging level change rate calculating module 420 calculates the aging level change rate through the aging level calculated at the past time and the aging level calculated at the current time.

The life estimation unit 500 estimates the resistance change rate K _R calculated through the change rate calculation unit 400 and the aging level at the estimated time estimated through the aging level change rate calculation module 420, Estimate the life span. At this time, the life estimating unit 500 calculates the time until the dynamic resistance reaches the resistance value corresponding to the battery failure, based on the rate of change in resistance and the rate of change in the aging level calculated through the rate-of-change calculating unit 400, The remaining life of the battery is calculated by confirming the rate of change of the aging level during the calculated time and checking whether the aging level at that time corresponds to battery failure.

Hereinafter, a method of calculating the remaining service life of the battery for starting the vehicle will be described with reference to FIG.

As shown in the figure, the starting resistance calculation module 110 of the starting resistance calculation unit 100 calculates the remaining service life of the vehicle before starting the vehicle and during starting (S10), and calculates the starting resistance using the values in the starting resistance calculation interval region of the voltage and current values measured in operation S10 (S20).

Thereafter, the dynamic resistance calculation unit 200 continuously measures the battery voltage and current after the starting point through the dynamic resistance calculation module 210 (S30), and calculates an operating point according to the measured voltage and current value Dimensional dynamic XY plane to calculate dynamic resistance from the trend line (S40)

It is determined in step S50 whether the vehicle condition is appropriate for the starting resistance calculation result calculated in step S20 and the dynamic resistance calculation result calculated in step S40. If it is determined that the starting resistance value is appropriate, it is provided to the vehicle main controller as a value for calculating the SOF (State Of Function) at the start of the future. If the vehicle condition is not proper, the starting resistance value is not reflected.

 If the vehicle condition is appropriately maintained within the limit condition for a certain period of time during which the dynamic resistance value is calculated, the calculated dynamic resistance value is utilized for calculating the dynamic resistance increase rate under the corresponding condition through step S60. If the current or voltage measurement value is included in a state outside the limit condition (engine RPM, cooling water temperature, etc.) set for a predetermined time to calculate the dynamic resistance in step S40, the calculated dynamic resistance is deleted, And the steps S30 and S40 for calculating the dynamic resistance are executed again.

The aging level of the current time is calculated in step S70 by reflecting the dynamic resistance increase rate calculated in step S60, and the aging level calculated in the past time and the aging level calculated in the current time are applied to the change rate calculator 400, The rate of change of the aging level per hour is calculated from the aging level change rate calculating module 420 of step S80.

Then, the life estimation unit 500 estimates the aging level at a certain time in the future by reflecting the rate of change of the aging level, thereby estimating how much the life of the battery is left until the time of the final failure (S90).

As described above, the apparatus for calculating the remaining service life of a battery for starting a vehicle according to the present invention continuously calculates the remaining service life of the battery according to the present invention by reflecting the condition of the vehicle against the starting resistance and the dynamic resistance in calculating the battery aging level, It is possible to calculate resistance and dynamic resistance and to calculate the rate of change of resistance based on the calculated resistance value under the same vehicle condition and to calculate the rate of change of the degree of aging according to the calculated resistance value to ultimately estimate the future remaining life of the battery It has the advantage of being able to do.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. Accordingly, all such appropriate modifications and changes, and equivalents thereof, should be regarded as within the scope of the present invention.

100: Starting resistance calculation unit 200: Dynamic resistance calculation unit
300: Condition determination unit 400: Rate of change calculation unit
500: life estimation unit
110: Starting resistance calculation module 210: Dynamic resistance calculation module
310: Starting resistance calculation condition confirmation module 320: Dynamic resistance calculation condition confirmation module
410: Rate of change in resistance calculation module 420: Rate of change in rate of change in aging rate

Claims (5)

A condition judging unit for judging whether a vehicle condition is maintained within a limiting condition for a predetermined time to calculate a starting resistance and a dynamic resistance;
A rate of change calculating unit that calculates the rate of change in resistance of the starting resistance and the dynamic resistance and the rate of change in the aging level of the battery when the condition determining unit determines that the vehicle condition is maintained within the limiting condition; And
A life estimation unit for estimating a remaining life of the battery based on the rate of change in resistance and the rate of change in the degree of deterioration calculated by the rate-of-change calculating unit;
Lt; / RTI >
The condition judging unit judges,
A starting resistance calculation condition confirmation module for estimating a state of the battery by measuring an open-circuit voltage and a temperature of the battery before a start-up time, and determining whether the estimated value is included in a setting restriction condition; And
And a dynamic resistance calculation condition determining module that determines whether the vehicle condition is maintained at a value within a set limit condition for a predetermined time period during which the dynamic resistance is calculated.
The method according to claim 1,
The state of the battery includes a state of charge (SOC) of the battery and an electrolyte temperature of the battery,
Wherein the vehicle condition includes engine RPM, coolant temperature, and battery temperature.
The method according to claim 1,
Wherein the rate-
A resistance change rate calculating module that calculates the resistance change rate of the starting resistor and the dynamic resistance; And
An aging level change rate calculating module for calculating the aging level change rate by calculating an aging level of the battery at each time point from the dynamic resistance;
The remaining life of the battery for vehicle starting is calculated.
The method of claim 3,
The life estimating unit estimates,
Calculating a time until the dynamic resistance reaches a resistance value corresponding to a battery failure based on the rate of change in resistance and the rate of change in senility level calculated through the rate-of-change calculating unit, and determining a rate of change in aging level during the calculated time And calculating a remaining service life of the battery by checking whether the aging level at the time point corresponds to a battery failure.
The method according to claim 1,
A starting resistance calculation unit for calculating the starting resistance by using a voltage variation value and a current variation value of the battery in a starting resistance calculation period in which the slope of the battery voltage and the current according to time is kept constant at a starting time of the vehicle; And
After the start of the vehicle, the battery voltage and current are continuously measured, and the current point and the voltage value at each measurement point are set as the X-axis and Y-axis values, respectively. A dynamic resistance calculation unit for deriving a statistical trend line of the finally listed operating points and calculating the dynamic resistance by obtaining a slope of the derived trend line;
Further comprising: a remaining life calculation unit for calculating a remaining life of the battery for starting the vehicle.

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