KR20200071615A - Apparatus for detecting open of load - Google Patents

Abstract

According to the present invention, provided is a load opening detection device capable of accurately detecting a state of a load which comprises: a resistance measuring unit measuring a load resistance value of the load; and a processor receiving the load resistance value, checking a load resistance value section including the load resistance value, and determining a state of the load based on the check result.

Description

Apparatus for detecting open of load

The present invention relates to a load open sensing device, and more particularly, to a load open sensing device capable of diagnosing a load condition.

In recent years, as demand for portable electronic products such as laptops, video cameras, and portable telephones has rapidly increased, and development of electric vehicles, energy storage batteries, robots, and satellites has started in earnest, high-performance secondary batteries capable of repeated charging and discharging Research is actively underway.

Currently commercialized secondary batteries include nickel-cadmium batteries, nickel-metal hydride batteries, nickel-zinc batteries, and lithium secondary batteries. Among these, lithium secondary batteries are free of charge and discharge because they have little memory effect compared to nickel-based secondary batteries, The self-discharge rate is very low, and it is spotlighted for its high energy density.

Batteries are used in a variety of fields, such as electric-powered vehicles or smart grid systems, in recent years, a field in which the battery is frequently used requires a large capacity. In order to increase the capacity of the battery pack, there may be a method of increasing the capacity of the secondary battery, that is, the battery cell itself, but in this case, the effect of increasing the capacity is not great, there is a physical limitation in expanding the size of the secondary battery, and the management is inconvenient. Have Therefore, a battery pack in which a plurality of battery modules are connected in series and in parallel is widely used.

A typical lithium ion battery cell is composed of a porous positive electrode current collector, a negative electrode current collector, and an electrode assembly made of an overlapping form of a separator, and a cell exterior material containing the electrode assembly and the electrolyte. These battery cells may be divided into can type battery cells or pouch type battery cells according to the shape of the cell exterior material.

On the other hand, the safety issue of the battery is the biggest social issue in recent years. In the case of a laptop or a mobile phone, the population is rapidly increasing, and battery explosion is not only causing damage to portable electronic products, but can also lead to fire, so securing battery safety is urgent.

In particular, the load open detection device detects a state of a load connected to a battery and prevents an abnormal state such as over-discharge or over-current from occurring when the load and the battery are connected, and according to the detection result, Control the connection.

At this time, the load open sensing device senses the state of the load according to the load resistance value of the load. In the conventional load open sensing device, if the load resistance value is greater than or equal to a specific resistance value, it is determined that the circuit in the load has opened, thereby There is a problem that can not accurately detect the state of the.

Specifically, the conventional load-opening sensing device has a problem of incorrectly detecting that the circuit in the load has occurred even when the load resistance value temporarily rises and then returns to the normal resistance value.

The present invention has been devised to solve the above problems, and checks which load resistance value section includes a load resistance value of a load electrically connected to an input/output terminal of the battery, and determines the state of the load based on the confirmation result. An object of the present invention is to provide a load-opening sensing device for judging.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by examples of the present invention. In addition, it will be readily appreciated that the objects and advantages of the present invention can be realized by means and combinations thereof.

Various embodiments of the present invention for achieving the above object are as follows.

The load-opening detecting device according to the present invention can detect the state of a load electrically connected to the input/output terminal of the battery.

Load open detection device according to the present invention comprises a resistance measurement unit for measuring the load resistance value of the load; And a processor that receives the load resistance value, checks a load resistance value section including the load resistance value, and determines the state of the load based on the check result.

Preferably, the processor includes a first load resistance value interval in which the load resistance value is equal to or less than a first load resistance value, a second load resistance value interval exceeding a first load resistance value and less than a second load resistance value, and a second load resistance value Among the above-described third load resistance value intervals, it can be confirmed which load resistance value interval is included.

Preferably, when the load resistance value is included in the first load resistance value period, the processor may determine that no opening has occurred in the circuit included in the load.

Preferably, when the load resistance value is included in the third load resistance value period, the processor may determine that an open has occurred in the circuit included in the load.

Preferably, when the load resistance value is included in the second load resistance value period, the processor may not determine the state of the load during the waiting time.

Preferably, when the waiting time elapses, the load resistance value section including the load resistance value may be re-checked and the load status may be determined based on the re-checking result.

Preferably, when the load resistance value is included in the second load resistance value period as a result of the re-check, the processor may determine that an open has occurred in the circuit included in the load.

Preferably, when the load resistance value is included in the second load resistance value period, the processor may determine that the longer the load resistance value, the shorter the waiting time.

The battery management apparatus according to the present invention may include the load opening detection apparatus.

The battery pack according to the present invention may include the load opening detection device.

According to at least one of the embodiments of the present invention, when the load resistance value temporarily rises and then returns, it is possible to accurately detect the state of the load by preventing a false determination that the circuit included in the load has been opened. .

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

The following drawings attached to this specification are intended to illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the invention described below, and thus the present invention is described in such drawings. It should not be interpreted as being limited to.
1 is a view exemplarily showing a configuration of a battery pack including a load open sensing device according to an embodiment of the present invention.
2 is a view showing a load resistance value section referred to the operation of the load open sensing device according to an embodiment of the present invention.
3 is a diagram illustrating a waiting time referred to the operation of the load open sensing device according to an embodiment of the present invention.
4 is a view showing a load resistance value interval referred to the operation of the load opening detection device according to another embodiment of the present invention.
5 is a diagram illustrating a waiting time referred to the operation of the load opening detection device according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be interpreted as being limited to ordinary or dictionary meanings, and the inventor appropriately explains the concept of terms in order to explain his or her invention in the best way. Based on the principle that it can be defined, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the configuration shown in the embodiments and drawings described in this specification is only one of the most preferred embodiments of the present invention and does not represent all of the technical spirit of the present invention, and thus can replace them at the time of application. It should be understood that there may be equivalents and variations.

In addition, in the description of the present invention, when it is determined that detailed descriptions of related well-known structures or functions may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

Terms including ordinal numbers such as first and second are used for the purpose of distinguishing any one of various components from the rest, and are not used to limit components by such terms.

Throughout the specification, when a part “includes” a certain component, this means that other components may be further included, rather than excluding other components, unless otherwise specified. In addition, terms such as <control unit> described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software, or a combination of hardware and software.

In addition, throughout the specification, when a part is "connected" to another part, it is not only "directly connected", but also "indirectly connected" with another element in between. Includes.

1 is a view exemplarily showing a configuration of a battery pack P including a load open sensing device 100 according to an embodiment of the present invention. 2 is a view showing a load resistance value section referred to the operation of the load opening detection device 100 according to an embodiment of the present invention.

1 and 2, the battery pack P may include input/output terminals (+, -), a contactor 10, a battery 20, and a load open detection device 100.

Of the input/output terminals (+, -), the positive terminal (+) is electrically connected to the highest potential node of the battery 20. The negative terminal (-) among the input/output terminals (+, -) is electrically connected to the lowest potential node of the battery 20.

In addition, the input and output terminals (+, -) are electrically connected to the load (L) to output the power of the battery 20 to the load (L).

The contactor 10 is installed in the charge/discharge path 1 of the battery 20, and an operation state is changed according to a control signal of the processor 120 to be described later, so that the charge/discharge path 1 can be energized or blocked. have.

When the contactor 10 is controlled to be turned on, the battery 20 may be in a charging state receiving power or a discharging state in which power is supplied to the load L.

Conversely, when the contactor 10 is controlled to be turned off, the battery 20 may be charged and discharged.

The battery 20 includes at least one unit cell. The unit cell is not particularly limited as long as it is rechargeable, such as a lithium ion cell.

The load-opening sensing device 100 may include a resistance measurement unit 110, a processor 120, and a notification unit 130.

The resistance measurement unit 110 may measure the load resistance value of the load L electrically connected to the input/output terminals (+, -) of the battery 20.

Specifically, the resistance measurement unit 110 measures the current value of the charge/discharge current flowing in the charge/discharge path 1 of the battery 20, and measures the voltage value of the battery voltage applied to both ends of the battery 20. Can be.

Thereafter, the resistance measurement unit 110 may calculate the load resistance value of the load L using the current value of the charge/discharge current and the voltage value of the battery voltage. At this time, the resistance measurement unit 110 may calculate the load resistance value using the law of Ω.

To this end, the resistance measurement unit 110 may include a current sensor that measures the current value of the charge/discharge current and a voltage sensor that measures the voltage value of the battery voltage.

The resistance measurement unit 110 may output the calculated load resistance value to the processor 120. At this time, the resistance measurement unit 110 may output the voltage representing the calculated load resistance value to the processor 120 to transmit the load resistance value to the processor 120.

The processor 120 may receive the calculated load resistance value from the resistance measurement unit 110, check the load resistance value section including the load resistance value, and determine the state of the load L based on the confirmation result have.

Specifically, the processor 120 may set a plurality of load resistance value sections according to the load resistance value, and check which load resistance value section includes the load resistance value section.

At this time, the processor 120, as shown in Table 1 and 2 below, set the first load resistance value below 0Ω to the first load resistance value section (R1), the first load resistance value exceeds the second load resistance value Less than may be set as the second load resistance value section R2 and more than the second load resistance value may be set as the third load resistance value section R3.

Load resistance value Load resistance value section 0Ω or more and 1st load resistance or less First load resistance value section (R1) Above 1st load resistance value Below 2nd load resistance value Second load resistance value section (R2) The second load resistance value is exceeded Third load resistance value section (R3)

Here, the first load resistance value may be smaller than the second load resistance value. Also, the first load resistance value may be a maximum value of the load resistance value when the circuit included in the load L is normal. For example, the first load resistance value may be 150 Pa. In addition, the second load resistance value may be a minimum value of the load resistance value when the circuit included in the load L is opened. For example, the first load resistance value may be 5000 µs.

The processor 120 checks which load resistance value section is included in the load resistance value section from the load resistance value section input from the resistance measurement unit 110, and the load resistance value is in the first load resistance value section R1. If included, it can be determined that no opening has occurred in the circuit included in the load L.

When the load resistance value is included in the third load resistance value period R3, the processor 120 may determine that the circuit included in the load L has been opened.

Here, the opening occurring in the circuit included in the load (L) may mean that a disconnection occurs in some of the circuits included in the load (L) or the parts are burned out and the electrical connection is broken.

Meanwhile, when the load resistance value is included in the second load resistance value period R2, the processor 120 may not determine the state of the load L during the waiting time.

That is, the processor 120 may not determine the state of the load L during the waiting time from the time when it is determined that the load resistance value is included in the second load resistance value period R2.

When the waiting time has elapsed, the processor 120 may re-confirm the load resistance value section including the load resistance value and determine the state of the load L based on the re-confirmation result.

When the load resistance value is included again in the second load resistance value period R2 as a result of re-checking, the processor 120 may determine that the circuit included in the load L has been opened.

Through this, the processor 120 may prevent the phenomenon of incorrectly determining that the circuit included in the load L is permanently opened due to an increase in the load resistance value due to the intermittent opening of the circuit in the load L. have.

Meanwhile, when it is determined that the circuit included in the load L has been opened, the processor 120 controls the operating state of the contactor 10 to be turned off, so that the load L between the open and the battery 20 is opened. The electrical connection can be cut off.

Through this, the processor 120 may prevent the phenomenon that the overcurrent flows or discharges in the battery 20 due to the load L in which the opening occurs.

3 is a diagram illustrating a waiting time referred to the operation of the load opening detection device 100 according to an embodiment of the present invention.

Referring to FIG. 3 further, when the load resistance value is included in the second load resistance value interval R2, the processor 120 may set a waiting time and not determine the state of the load L during the set waiting time. .

At this time, as shown in FIG. 3, the processor 120 may set the standby time to be shorter as the load resistance value included in the second load resistance value section R2 is larger. Through this, the processor 120 does not determine the state of the load L for a shorter waiting time as the load resistance value is included in the second load resistance value section R2, and the load resistance value is determined after the short waiting time. It can be checked again whether it is included in the load resistance value section.

According to the present invention, the higher the load resistance value, the higher the probability that opening will occur in the load L. Therefore, the larger the load resistance value, the faster the state of the load L can be judged.

Meanwhile, the processor 120 includes hardware, application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs), and microcomputers. It may be implemented to include at least one of a processor (microprocessors), an electrical unit for performing other functions. In addition, a memory device may be built in the processor 120, and a RAM, ROM, register, hard disk, optical recording medium, or magnetic recording medium may be used as the memory device. The memory device may store, update, and/or erase programs including various control logic executed by the processor 120 and/or data generated when the control logic is executed. The processor 120 is operatively coupled to the resistance measurement unit 110 and the notification unit 130. The processor 120 communicates with an external device through a communication channel. The communication channel supports wired or wireless communication. The wired communication may be, for example, a CAN (contoller area network) communication, and the wireless communication may be, for example, ZigBee or Bluetooth communication. If communication between the processor 120 and an external device supports wired/wireless communication, the type of communication protocol is It is not particularly limited.

The notification unit 130 may receive a diagnosis result of the processor 120 and output it to the outside. More specifically, the notification unit 130 may include one or more of a display unit for displaying the above-described diagnosis results using one or more of symbols, numbers, and codes, and a speaker device for outputting sound.

On the other hand, the battery management apparatus according to the present invention may include the load opening detection device described above. Through this, it is possible to determine whether the load L electrically connected to the battery managed by the battery management device is opened.

Hereinafter, the load opening detection device 100 according to another embodiment of the present invention will be described.

4 is a view showing a load resistance value section referred to the operation of the load opening detection device 100 according to another embodiment of the present invention, Figure 5 is a load open detection device 100 according to another embodiment of the present invention ) Is a diagram showing the waiting time referred to the operation.

The load open detection device 100 according to another embodiment only operates according to a load resistance value interval set by the processor 120 and a load resistance value interval including the load resistance value compared to the load open detection device according to an embodiment Can be different.

Accordingly, repeated descriptions will be omitted.

The processor 120 of the load opening detection apparatus 100 according to another embodiment sets a plurality of load resistance value sections according to the load resistance value, and includes load resistance values in any load resistance value section among the set load resistance value sections You can check.

At this time, the processor 120 according to another embodiment, as shown in Tables 2 and 4 below, set the first load resistance value below 0Ω to the first load resistance value section R1, and exceeds the first load resistance value Set the third load resistance value or less as the fourth load resistance value section (R4), set the third load resistance value exceeding the second load resistance value as the fifth load resistance value section (R5), and the second load resistance value The value or more may be set as the third load resistance value section R3.

Load resistance value Load resistance value section 0Ω or more and 1st load resistance or less First load resistance value section (R1) Over 1st load resistance value Below 3rd load resistance value 4th load resistance value section (R4) Over 3rd load resistance value Under 2nd load resistance value 5th load resistance value section (R5) The second load resistance value is exceeded Third load resistance value section (R3)

Here, the first load resistance value may be smaller than the third load resistance value. Further, the first load resistance value may be a maximum value of the load resistance value when the circuit included in the load L is normal. For example, the first load resistance value may be 150 Pa. In addition, the third load resistance value may be the maximum value of the load resistance value when opening is intermittently generated in the circuit included in the load L. For example, the third load resistance value may be 1000 Pa.

The third load resistance value may be smaller than the second load resistance value. In addition, the second load resistance value may be the minimum value of the load resistance value when an open permanently occurs in the circuit included in the load L. For example, the first load resistance value may be 5000 µs.

As a result of determining which load resistance value section is included in the load resistance value section of the load resistance value input from the resistance measurement unit 110, the processor 120 according to another embodiment shows that the load resistance value is the first load resistance value. When included in the section R1, it can be determined that no opening has occurred in the circuit included in the load L.

When the load resistance value is included in the third load resistance value period R3, the processor 120 according to another embodiment may determine that the circuit included in the load L has been opened.

Here, the opening occurring in the circuit included in the load (L) may mean that a disconnection occurs in some of the circuits included in the load (L) or the parts are burned out and the electrical connection is broken.

On the other hand, the processor 120 according to another embodiment, the result of the check, if the load resistance value is included in the fourth load resistance value section (R4) or the fifth load resistance value (R5), the load (L) of the waiting time The state may not be judged.

That is, the processor 120 according to another embodiment of the load (L) during the waiting time from the time it is determined that the load resistance value is included in the fourth load resistance value section (R4) or the fifth load resistance value (R5) The state may not be judged.

When the standby time has elapsed, the processor 120 according to another embodiment may re-confirm the load resistance value section including the load resistance value and determine the state of the load L based on the re-confirmation result.

When the load resistance value is included in the fourth load resistance value period R4 as a result of re-checking, the processor 120 according to another embodiment may not determine the state of the load L again during the waiting time.

Meanwhile, when the load resistance value is included in the fifth load resistance value period R5 as a result of re-checking, the processor 120 according to another embodiment may determine that the circuit included in the load L has been opened.

Through this, the processor 120 according to another embodiment may incorrectly determine that the circuit included in the load L is permanently opened due to an increase in the load resistance value due to the intermittent opening of the circuit in the load L. The phenomenon can be prevented.

On the other hand, the processor 120 according to another embodiment, as shown in Figure 5, if the load resistance value is included in the fourth load resistance value section (R4) or the fifth load resistance value (R5), set the standby time And it may not determine the state of the load (L) for a set waiting time.

At this time, the processor 120 according to another embodiment may set the waiting time to a fixed time value when the load resistance value is included in the fourth load resistance value period R4. In contrast, when the load resistance value is included in the fifth load resistance value R5, the processor 120 according to another embodiment may set the standby time to be shorter as the load resistance value is larger. Through this, the processor 120 according to another embodiment may not be mistaken as being permanently opened when the circuit is opened in the load L intermittently. In addition, the processor 120 according to another embodiment may judge the state of the load L within a shorter time as the load resistance value is larger, as the load resistance value is larger and the probability of opening in the load L is higher. have.

The embodiment of the present invention described above is not implemented only through an apparatus and a method, and may be implemented through a program that realizes a function corresponding to the configuration of the embodiment of the present invention or a recording medium in which the program is recorded. The implementation can be easily implemented by those skilled in the art to which the present invention pertains from the description of the above-described embodiments.

Although the present invention has been described above by way of limited examples and drawings, the present invention is not limited by this, and will be described below by the person skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the equal scope of the claims.

In addition, since the present invention described above can be variously substituted, modified, and changed within the scope of the technical spirit of the present invention to those skilled in the art to which the present invention pertains, the above-described embodiments and attachments It is not limited by the drawings, but all or part of each of the embodiments may be selectively combined to be configured so that various modifications can be made.

P: Battery pack
10: contactor
20: battery
100: load open detection device
110: resistance measurement unit
120: processor
130: notification unit
L: load

Claims (10)

In the load open detection device for sensing the state of the load electrically connected to the input and output terminals of the battery,
A resistance measurement unit measuring a load resistance value of the load; And
A processor that receives the load resistance value, checks a load resistance value section including the load resistance value, and determines a state of the load based on the verification result.
Included load detection device.
According to claim 1,
The processor
A first load resistance value interval in which the load resistance value is equal to or less than a first load resistance value, a second load resistance value interval exceeding a first load resistance value and less than a second load resistance value, and a third load resistance value equal to or greater than a second load resistance value Load open detection device to check which load resistance value is included in the section.
According to claim 2,
The processor
When the load resistance value is included in the first load resistance value period, the load opening detection device determines that opening does not occur in the circuit included in the load.
According to claim 2,
The processor
When the load resistance value is included in the third load resistance value period, the load open detection device determines that an opening has occurred in the circuit included in the load.
According to claim 2,
The processor
When the load resistance value is included in the second load resistance value interval, the load open detection device does not determine the state of the load during the waiting time.
The method of claim 5,
The processor
When the waiting time has elapsed, the load resistance detection device re-checks the load resistance value section including the load resistance value, and determines the state of the load based on the re-checking result.
The method of claim 6,
The processor
As a result of the re-confirmation, when the load resistance value is included in the second load resistance value interval, the load open detection device determines that an opening has occurred in the circuit included in the load.
The method of claim 5,
The processor
When the load resistance value is included in the second load resistance value interval, the load open detection device determines that the larger the load resistance value, the shorter the waiting time is set.
The load open detection device according to any one of the preceding claims 1 to 8
Included battery management device.
The load open detection device according to any one of the preceding claims 1 to 8
Battery pack included.

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