KR20090065931A - Method for calculating state of charge of ultra capacitor - Google Patents

Abstract

A method for producing the remaining capacity of an ultra capacitor is provided to reduce the error generated when the input/output current is detected, thereby accurately producing the remaining capacity of the ultra capacitor. A method for producing the remaining capacity of an ultra capacitor comprises the following steps of: detecting the input/output current of the ultra capacitor and producing AH remaining capacity using an AH counting method(S101); confirming whether the input/output current is greater than a preset value and confirming whether the current lasts for a predetermined time when the current is less than the preset value(S105,S107); producing the remaining capacity of instantaneous voltage while the current lasts for the predetermined time(S109); producing the remaining capacity error(S111); comparing the produced remaining capacity error to a preset error range; and calibrating the cumulative error of the AH remaining capacity by using the remaining capacity of the instantaneous voltage when the remaining capacity error is greater than the preset error range.

Description

Method for calculating state of charge of ultra capacitor

The present invention is a technique for accurately calculating the remaining capacity of the ultracapacitor in a hybrid energy storage device using an ultracapacitor and a battery.

In general, ultracapacitors are used in hybrid energy storage devices such as hybrid electric vehicles (HEVs) and electric vehicles (EVs) because of their excellent output characteristics. In order to efficiently use the ultracapacitor as an energy storage device, the energy storage system (BMS: Battery Management System or EMS: Energy Management System) is used to accurately calculate the state of charge (SOC) of the ultracapacitor. Needs to be.

Conventional methods for calculating the remaining capacity of ultracapacitors include an AH counting method that monitors input and output currents, and an OCV that infers a residual capacity (SOC) value corresponding to a detected voltage by detecting an ultracapacitor voltage. (Open Circuit Voltage) detection method is mainly used.

However, in the case of ultracapacitors, since the capacity is very small, even if a small current error occurs when applying the AH counting method, the error of the remaining capacitance (SOC) value accumulates continuously.

Therefore, in order to calculate accurate residual capacity using AH counting method, a high-precision CT (Current Transformer) should be used to reduce input / output current detection error. it's difficult.

In addition, the OCV detection method is based on the measurement of the ultra-capacitor stabilized has a disadvantage that the time required for the ultracapacitor to stabilize. Therefore, when the input / output current flow exists, that is, when the residual capacity value is calculated using the measured voltage in a situation where it is not stabilized, there is a disadvantage that a large error occurs in the residual capacity value at the large input / output current. have. Therefore, it is impossible to calculate SOC through ultracapacitor voltage detection in a situation where the variation of the input / output current of the ultracapacitor is large.

Accordingly, the present invention is proposed to solve all the problems caused when measuring the remaining capacity of the ultracapacitor applied to the conventional hybrid energy storage device as described above,

The problem to be solved by the present invention is to accurately calculate the ultra-capacitor residual capacity error due to the error generated when the input / output current is detected when calculating the residual capacity of the ultracapacitor by the AH counting method The present invention provides a method for calculating the remaining capacity of an ultracapacitor for calculating the remaining capacity of a capacitor.

Another problem to be solved by the present invention is the AH counting method to calculate the remaining capacity of the ultracapacitor by using the method of detecting the ultracapacitor voltage in a situation where the error can be predicted when the remaining capacity of the ultracapacitor, and the accumulated remaining capacity An object of the present invention is to provide a method for calculating the remaining capacity of an ultracapacitor, in which an error stays within a marginal error range, thereby preventing the error from accumulating continuously.

According to the present invention for solving the above problems, "a method of calculating the remaining capacity of an ultra capacitor",

)을 순시적으로 산출하는 제1단계와;After detecting the input and output currents of the ultracapacitor, AH counting method

A first step of instantaneously calculating;

)가 미리 설정된 설정치 이하인지를 확인하여, 상기 전류의 크기가 상기 설정치 이하일 경우 그 전류의 크기가 설정 시간 동안 지속되는지를 확인하는 제2단계와;Magnitude of the input and output currents (

Determining whether the current level is equal to or less than a preset value, and checking whether the current level lasts for a predetermined time when the magnitude of the current is equal to or less than the preset value;

)을 산출하는 제3단계와;When the magnitude of the current is maintained for a predetermined time, the instantaneous voltage remaining capacity due to the voltage of the ultra capacitor (

Calculating a third step;

)과 상기 순시전압 잔존용량을 연산하여 잔존용량 오차(

)를 산출하는 제4단계와;The AH remaining capacity calculated at the instant (

) And the instantaneous voltage residual capacity to calculate the residual capacity error (

Calculating a fourth step;

A fifth step of comparing the calculated remaining capacity error with a preset error range;

And a sixth step of determining the remaining capacity of the ultracapacitor by correcting the cumulative error of the AH remaining capacity, which is instantaneously calculated using the instantaneous voltage remaining capacity, when the calculated remaining capacity error is greater than or equal to the error range. It features.

In the above, the setting value is 5A, the setting time is 5 seconds, and an error range is within ± 5%.

In addition, the fourth step,

)에서 상기 순시전압 잔존용 량(

)을 감산하여 그 결과치를 잔존용량 오차(

)로 산출하는 것을 특징으로 한다.Instantaneously calculated AH remaining capacity (

In the instantaneous voltage remaining capacity (

) Is subtracted and the result is

It is characterized by calculating to).

In addition, the sixth step,

The cumulative error of the remaining capacity calculated instantaneously is characterized in that it is continuously corrected little by little over a predetermined time (t).

In addition, the method of calculating the remaining capacity of the ultracapacitor according to the present invention,

)의 산출을 진행하고, 잔존용량 보정시에도 입/출력 전류에 따른 잔존용량 연산을 수행하는 것을 특징으로 한다.Instantaneous AH remaining capacity by the AH counting method even under the correction of remaining capacity (

) And calculates the remaining capacity according to the input / output current even when the remaining capacity is corrected.

According to the present invention, when the SOC calculation is performed by the AH counting method, the ultracapacitor voltage can be detected and the residual capacity can be corrected even when the ultracapacitor does not have a separate stabilization time.

In addition, the above-described advantages can reduce the calculation error of the remaining capacity of the ultracapacitor, thereby providing an efficient and stable control.

In addition, by continuously correcting the correction of the remaining capacity value by a small amount, there is an advantage of minimizing the possibility of adverse effects on the controller and the vehicle system the correction operation.

In addition, when calculating the instantaneous voltage remaining capacity by detecting the voltage of the energy storage device to be applied, if only the basic experiment to check how much the error with the actual remaining capacity by current and remaining capacity is performed, The advantage is that it can be extended to other energy storage devices.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention. If it is determined that the detailed description of the known function or configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a configuration diagram showing an example of a hybrid energy storage device to which the present invention is applied, an energy generation source 10 such as a generator in a vehicle generating energy, an ultracapacitor 20 for storing generated energy, and , The battery 30 for storing electrical energy together with the ultracapacitor 20, and an energy management system 40 for detecting the input / output current of the ultracapacitor 20 and calculating a residual capacity (SOC). do.

In the hybrid energy storage device configured as described above, when energy is generated by the energy source 10 when the vehicle starts, the ultracapacitor 20 and the battery 30 are charged.

In addition, the energy management system 40 detects the remaining capacity of the ultracapacitor 20 and the battery 30 to perform operation control of the generator, etc. At this time, the remaining capacity of the ultracapacitor 20 is accurately calculated. Only accurate control is achieved.

2 is a flowchart illustrating a method of calculating the remaining capacity of the ultracapacitor 20 in the energy management system 40, where S represents a step.

)을 순시적으로 산출하는 제1단계(S101 ~ S103)와; 상기 입력 및 출력 전류의 크기(

)가 미리 설정된 설정치 이하인지를 확인하여, 상기 전류의 크기가 상기 설정치 이하일 경우 그 전류의 크기가 설정 시간 동안 지속되는지를 확인하는 제2단계(S105 ~ S107)와; 상기 전류의 크기가 설정 시간 동안 유지될 경우, 울트라 커패시터의 전압에 의한 순시전압 잔존용량(

)을 산출하는 제3단계(S109)와; 상기 순시적으로 산출한 AH 잔존용량(

)과 상기 순시전압 잔존용량을 연산하여 잔존용량 오차(

)를 산출하는 제4단계(S111)와; 상기 산출한 잔존용량 오차가 미리 설정된 오차범위와 비교하는 제5단계(S113)와; 상기 산출한 잔존용량 오차가 상기 오차범위 이상일 경우 상기 순시전압 잔존용량을 이용하여 순시적으로 산출한 AH 잔존용량의 누적 오차를 보정하여 울트라 커패시터의 잔존용량을 결정하는 제6단계(S115)로 이루어진다.As shown in the figure, the AH capacitance (AH counting method) is detected after detecting the input and output currents of the ultracapacitor.

A first step (S101 to S103) for instantaneously calculating (); Magnitude of the input and output currents (

A second step (S105 to S107) of checking whether or not) is equal to or less than a preset value, and checking whether the magnitude of the current lasts for a predetermined time when the magnitude of the current is equal to or less than the preset value; When the magnitude of the current is maintained for a predetermined time, the instantaneous voltage remaining capacity due to the voltage of the ultra capacitor (

Calculating a third step (S109); The AH remaining capacity calculated at the instant (

) And the instantaneous voltage residual capacity to calculate the residual capacity error (

Calculating a fourth step (S111); A fifth step (S113) of comparing the calculated remaining capacity error with a preset error range; If the calculated residual capacity error is greater than or equal to the error range, a sixth step S115 is performed to determine the remaining capacity of the ultracapacitor by correcting the cumulative error of the AH residual capacity calculated instantaneously using the instantaneous voltage residual capacity. .

The method for calculating the remaining capacity of the ultracapacitor according to the present invention as described above is based on using the AH counting method, which is one of methods for calculating the existing remaining capacity.

The present invention corrects the residual capacitance (SOC) value through voltage detection of an ultracapacitor in order to prevent accumulation of errors, which is a disadvantage of the AH counting method. As described above, when the ultracapacitor is not stabilized, the instantaneous voltage residual capacity value having a large error is calculated unless the ultracapacitor is stabilized. In the present invention, the difference between the voltage and the voltage error of the ultracapacitor in the instantaneous state is stabilized. Only in small situations can the residual capacitance be corrected by ultracapacitor voltage detection.

Voltage error = voltage at the instant-voltage under stabilization

In order to determine how much current is input and output to the ultracapacitor, a small voltage error and a residual capacity error corresponding to the voltage error may be performed by charging and discharging experiments for each current and remaining capacity. For example, in the case of the N company's ultracapacitor module used to verify the usefulness of the present invention, the residual capacitance error range is about ± 3% when a current of 5A or less is maintained. In particular, the longer the current lasting 5A or less, the voltage error decreases, and the residual capacity error decreases by about ± 1%.

)가 5A 이하인지를 확인한다.Accordingly, the input and output currents of the ultracapacitor 20 are detected as in step S101, and the input and output currents are detected in step S105, while calculating the remaining capacity SOC by the AH counting method as in step S103. Size (

Check if) is less than 5A.

As a result of this check, if the magnitude of the input and output currents is not 5 A or less, the AH remaining capacity calculation is instantaneously calculated by the AH counting method. Moving to S107, it is checked whether the situation where the magnitudes of the input and output currents are 5 A or less is maintained for a set time T (for example, 5 seconds or more).

)을 산출하고, 단계 S111에서 상기 산출한 잔존용량 전압오차(

)와 상기 AH 카운팅법에 의해 구해진 순시 AH 잔존용량(

)과 비교하여 잔존용량 오차(

)를 산출한다. 여기서 잔존용량 오차를 산출은 아래의 [수학식1]에 따른다.As a result of the checking, if the situation in which the input and output currents are 5 A or less is not maintained for 5 seconds or more, the process goes to the above-described step S103 and the following steps are performed. If it is maintained abnormally, go to step S109 to determine the instantaneous voltage remaining capacity due to the voltage of the ultracapacitor 20 (

) Is calculated and the remaining capacity voltage error (

) And the instantaneous AH remaining capacity determined by the AH counting method (

Remaining error compared to

) Is calculated. Here, the remaining capacity error is calculated according to Equation 1 below.

)를 잔존용량(SOC) 값으로 설정하고, 순시 AH 잔존용량 산출 값(

)의 누적 오차를 보정 한다.Subsequently, it is checked whether the calculated residual capacity error is equal to or greater than a predetermined error range (± 5%) in step S113. When the calculated residual capacity error is within the predetermined error range, the aforementioned step S103 is performed. Move to and perform the following operations, and if the calculated residual capacity error is equal to or greater than the error range, move to step S115 to determine the instantaneous voltage residual capacity (

) Is set as the remaining capacity (SOC) value, and the instantaneous AH remaining capacity calculation value (

), Correct the cumulative error.

Here, the instantaneous fluctuations in the remaining capacity (SOC) can affect the controller that manages the energy storage device and other control algorithms of the vehicle, which can cause instability. [Equation 2] below represents the cumulative error correction as described above.

) 산출은 지속적으로 진행하여, 보정 상황 하에서도 입/출력 전류에 따른 잔존용량 연산이 가능하도록 한다. 잔존용량 오차(

)의 보정이 끝나게 되면, 다시 입/출력 전류가 정해진 전류 이하(예를 들어, 5A 이하)의 값을 갖는지 감시하고, 정해진 전류 이하가 상기 설정 시간(T) 이상 지속 되면 다시 잔존용량 오차를 구하고, 이를 이용하여 잔존용량 누적 오차를 보정 하게 된다.In addition, even when correction of the residual capacity (SOC) value occurs, the instantaneous AH remaining capacity value by the AH counting method (

) Calculation is continuously performed so that the remaining capacity can be calculated according to the input / output current even under the correction condition. Remaining capacity error (

When the calibration is completed, the input / output current is again monitored to have a value of less than or equal to a predetermined current (for example, 5 A or less). Using this, the residual capacity accumulation error is corrected.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The present invention as described above can be used in the industrial field for storing energy by using the ultracapacitor for storing energy, and in particular, it can be optimally used in the industrial field related to the hybrid energy storage device using the ultracapacitor and the battery in parallel. Can be.

1 is a schematic configuration diagram of a hybrid energy storage device to which the present invention is applied.

Figure 2 is a flow chart showing a method for calculating the remaining capacity of the ultracapacitor according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10... Energy source

20... Ultra capacitors

30... battery

40... Energy management systems

Claims (7)

A method of calculating the remaining capacity of an ultracapacitor in a hybrid energy storage device comprising an ultra capacitor and a battery, and an energy management system for calculating the remaining capacity of the ultracapacitor, After detecting the input and output currents of the ultracapacitor, the AH remaining capacity (

A first step of instantaneously calculating; Magnitude of the input and output currents (

Determining whether the current level is equal to or less than a preset value, and checking whether the current level lasts for a predetermined time when the magnitude of the current is equal to or less than the preset value; When the magnitude of the current is maintained for a predetermined time, the instantaneous voltage remaining capacity due to the voltage of the ultra capacitor (

Calculating a third step; The AH remaining capacity calculated at the instant (

) And the instantaneous voltage remaining capacity

Calculating a fourth step; A fifth step of comparing the calculated remaining capacity error with a preset error range; And a sixth step of determining the remaining capacity of the ultracapacitor by correcting the cumulative error of the AH remaining capacity which is instantaneously calculated by using the instantaneous voltage remaining capacity when the calculated remaining capacity error is greater than or equal to the error range. Residual capacity calculation method of the ultracapacitor, characterized in that. The method of claim 1, wherein the set value is 5A. The method of claim 1, wherein the set time is 5 seconds or more. The method of claim 1, wherein the error range is within ± 5%. The method of claim 1, wherein the fourth step, Instantaneously calculated AH remaining capacity (

In the instantaneous voltage remaining capacity (

) Is subtracted and the result is

Residual capacity calculation method of the ultracapacitor, characterized in that calculated by). The method of claim 1, wherein the sixth step is The cumulative error of the instantaneously calculated residual capacity is continuously corrected by a small amount over a predetermined time (t). The method of claim 1, wherein the remaining capacity of the ultracapacitor is calculated. Instantaneous AH remaining capacity by the AH counting method even under the correction of remaining capacity (

And calculating the remaining capacity in accordance with the input / output current even when the remaining capacity is corrected.

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