KR102324968B1 - System and method for diagnosing the connectivity of fuses, bms including a system for diagnosing the connectivity of fuses - Google Patents

Abstract

In the present invention, in checking and diagnosing the connectivity of each fuse provided for each of a plurality of battery modules connected in parallel, the connectivity of the fuses is checked and diagnosed based on the voltage change rate of all fuses without additional circuit configuration for measuring the voltage of each individual fuse. To a battery management system including a fuse connectivity diagnostic system and diagnostic method, and a fuse connectivity diagnostic system.

Description

SYSTEM AND METHOD FOR DIAGNOSING THE CONNECTIVITY OF FUSES, BMS INCLUDING A SYSTEM FOR DIAGNOSING THE CONNECTIVITY OF FUSES

The present invention relates to a battery management system including a fuse connectivity diagnosis system and diagnostic method, and a fuse connectivity diagnosis system, and more particularly, in checking and diagnosing the connectivity of each fuse provided for a plurality of battery modules connected in parallel. , in a battery management system including a fuse connectivity diagnostic system and a fuse connectivity diagnosis system and diagnostic method that enables checking and diagnosing the connectivity of fuses based on the voltage change rate of the entire fuse without additional circuit configuration for measuring the voltage of each individual fuse. it's about

In general, in a driving device driven by using electric energy of a battery, such as an electric vehicle, in order to safely use the battery, it is necessary to check the connectivity of the fuse connected to the battery. In order to confirm this, a separate circuit configuration was required to individually measure the voltage of each fuse stage.

In this regard, since a voltage measuring means for measuring the voltage must be provided for each fuse stage, there is a problem in that the cost increases and the circuit configuration becomes complicated.

Korean Patent No. 10-1815876

The present invention has been derived to solve the above-described problems, and the connectivity of each fuse provided for each of a plurality of battery modules connected in parallel is checked and An object of the present invention is to provide a battery management system including a fuse connectivity diagnosis system and a diagnostic method that enables diagnosis, and a fuse connectivity diagnosis system.

A fuse connectivity diagnosis system according to an embodiment of the present invention includes a measuring unit measuring a voltage value and a current value of a fuse provided for each of a plurality of batteries connected in parallel, and calculating a voltage value change amount compared to the measured current value change amount of the fuse. and a connection state determination unit configured to determine whether the connection state of the fuse is normal according to whether the change amount of the voltage value exceeds a preset threshold value.

In an embodiment, the measuring unit is provided between a fuse provided for each of the plurality of batteries and the connection state determining unit, and may include a current sensor and a voltage sensor.

In an embodiment, the connection state determining unit may correspond to a microcontroller unit (MCU).

In an embodiment, the connection state determination unit calculates a voltage change amount compared to the current value change amount of the fuse measured for a specific time, and then the voltage value change amount compared to the current value change amount is 50 compared to the total voltage of a plurality of batteries connected in parallel %, it may be determined that the connection state of the fuse is in an abnormal state.

A method for diagnosing fuse connectivity according to another embodiment of the present invention includes, through a measuring unit, measuring a voltage value and a current value of a current conducting a fuse provided for each of a plurality of batteries connected in parallel, and in the connection state determining unit, the measured The method may include calculating a voltage change amount compared to a current value change amount of the fuse, and determining whether the connection state of the fuse is normal according to whether the voltage value change amount exceeds a preset threshold value.

In an embodiment, measuring the voltage value and the current value of the current passing through the fuse may include using a current sensor and a voltage sensor provided between the fuse provided for each of the plurality of batteries and the connection state determining unit. It may include measuring the voltage value and the current value, respectively.

In an embodiment, the determining whether the connection state of the fuse is normal may include calculating an amount of change in the voltage value compared to the amount of change in the current value of the fuse measured for a specific time through the connection state determination unit and the connection state determination unit The method may include determining that the connection state of the fuse is in an abnormal state when the amount of change in voltage relative to the amount of change in the current value exceeds 50% of the total voltage of a plurality of batteries connected in parallel.

A battery management system according to another embodiment of the present invention includes a measuring unit that measures a voltage value and a current value of a current conducting a fuse provided for each of a plurality of batteries connected in parallel, and a voltage value compared to the measured current value change amount of the fuse. and a fuse connectivity diagnosis system including a connection state determination unit that calculates a change amount and determines whether the connection state of the fuse is normal according to whether the change amount of the voltage value exceeds a preset threshold value.

According to an aspect of the present invention, since the connectivity of the fuses can be checked and diagnosed based on the voltage change rate of the entire fuse without additional circuit configuration for measuring the voltage of each individual fuse, a separate method for measuring the voltage for each fuse stage can be performed. As the voltage measuring means is not provided, the design cost can be reduced, and the circuit configuration is simplified.

1 is a diagram schematically illustrating a configuration of a fuse connectivity diagnosis system 100 according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a correlation between current variation and voltage variation when a plurality of fuses are normally connected and when the connection state is abnormal.
FIG. 3 is a diagram sequentially illustrating a method for diagnosing fuse connectivity through the fuse connectivity diagnosis system 100 shown in FIG. 1 .

Hereinafter, preferred examples are presented to help the understanding of the present invention. However, the following examples are only provided for easier understanding of the present invention, and the content of the present invention is not limited by the examples.

1 is a diagram schematically illustrating a configuration of a fuse connectivity diagnosis system 100 according to an embodiment of the present invention.

Referring to FIG. 1 , the fuse connectivity diagnosis system 100 according to an embodiment of the present invention may largely include a measuring unit 110 and a connection state determining unit 120 .

First, the measurement unit 110 serves to measure a voltage value and a current value of a current conducting a fuse 2 provided for each of a plurality of batteries 1 connected in parallel.

The measurement unit 110 is provided between the fuse 2 connected in parallel with each other and the connection state determination unit 120 to be described later, and may include a current sensor for measuring a current value and a voltage sensor for measuring a voltage value. have. At this time, the current value and the voltage value respectively measured by the current sensor and the voltage sensor are transmitted to the connection state determination unit 120 .

After receiving the total voltage value and current value of the fuse 2 transmitted through the measurement unit 110 , the connection state determination unit 120 determines the amount of change in the voltage value compared to the amount of change in the current value of the fuse 2 in a plurality of batteries ( 1) When a predetermined value (eg, 50%) of the total voltage is exceeded, it is determined that the current connection state of the fuse 2 is abnormal. This will be described in more detail with reference to FIG. 2 .

Meanwhile, the connection state determination unit 120 may correspond to a kind of microcontroller unit (MCU).

FIG. 2 is a diagram illustrating a correlation between current variation and voltage variation when a plurality of fuses are normally connected and when the connection state is abnormal.

First, referring to FIG. 2( a ), FIG. 2( a ) is a graph for showing the difference in the amount of change in voltage versus the amount of change in current, and 'a' is a bar indicating the amount of change in voltage for a state in which, for example, one of two fuses is disconnected. , and 'b' is a bar indicating the amount of voltage change when both fuses are normally connected.

As the current value increases to 10A (ampere), 20A, or 30A, both the 'a' bar and the 'b' bar increase, and it can be seen that the size of the 'a' bar significantly increases.

Looking at this through Fig. 2(b), Fig. 2(b) is a graph showing the amount of change in the 'a' bar and the 'b' bar according to the passage of time, and the graph for the current 'a' bar shows the It is close to 100%, and it can be seen that the graph for the 'b' bar is close to 50% of the total voltage of the battery.

That is, since the 'b' bar to which all the fuses are normally connected does not exceed 50% of the total voltage of the current battery, in the connection state determination unit 120 of FIG. , and the connectivity of the fuse corresponding to the 'a' bar may be determined as having an abnormal connectivity.

Accordingly, when the voltage value change relative to the current value change amount over time exceeds a predetermined reference value (eg, 50% of the total voltage of the battery) as a result, it is determined that the current fuse connectivity is abnormal.

Next, a series of processes for diagnosing fuse connectivity through the fuse connectivity diagnosis system 100 will be sequentially described with reference to FIG. 3 .

FIG. 3 is a diagram illustrating a method for diagnosing fuse connectivity through the fuse connectivity diagnosis system 100 shown in FIG. 1 in a sequential order.

Referring to FIG. 3 , first, the measurement unit measures current values and voltage values that conduct fuses for a plurality of batteries connected in parallel ( S301 ).

Next, the voltage value change amount is compared with the current value change amount of the fuse measured by the connection state determination unit (S302), and when the voltage value change amount exceeds a predetermined reference value (eg, 50% of the total voltage of the battery), It is determined that the connectivity is abnormal (S303). If the amount of voltage change does not exceed a certain reference value, it is determined that the current fuse has normal connectivity.

Meanwhile, in an embodiment, the fuse connectivity diagnosis system 100 may be a component included in a battery management system (BMS).

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that it can be done.

1: Battery 2: Fuse
100: fuse connectivity diagnostic system
110: measurement unit
120: connection state determination unit
130: error occurrence determination unit

Claims (8)

a measuring unit connected to a fuse provided for each of a plurality of batteries connected in parallel to measure a total voltage value and a current value of the fuse; and
Calculating the measured voltage value change relative to the current value change amount of the fuse, and comparing the total voltage of the plurality of batteries connected in parallel to whether the voltage value change amount compared to the current value change amount of the fuse exceeds a preset threshold value a connection state determination unit that determines whether the connection state of the fuse is normal according to the
The connection state determination unit,
receiving the total voltage value and current value from the measuring unit and calculating the voltage value change amount compared to the current value change amount of the fuse measured for a certain time,
When the amount of change in voltage relative to the amount of change in the current value is equal to or less than the preset threshold value compared to the total voltage of the plurality of batteries connected in parallel, it is determined that the connection state of the fuse is in a normal state,
The fuse connectivity diagnosis system, characterized in that it is determined that the connection state of the fuse is in an abnormal state when the voltage value change relative to the current value change amount exceeds the preset threshold value compared to the total voltage of the plurality of batteries connected in parallel. .
According to claim 1,
The measurement unit,
The fuse connectivity diagnosis system, which is provided between a fuse provided for each of the plurality of batteries and the connection state determination unit, and includes a current sensor and a voltage sensor.
According to claim 1,
The connection state determination unit,
A fuse connectivity diagnostic system, characterized in that it is a microcontroller unit (MCU).
According to claim 1,
The connection state determination unit,
The fuse connectivity diagnosis system, characterized in that it is determined that the connection state of the fuse is in an abnormal state when the amount of change in voltage relative to the change in current value exceeds 50% of the total voltage of a plurality of batteries connected in parallel.
Measuring a total voltage value and a current value of a current that conducts a fuse provided for each of a plurality of batteries connected in parallel through a measuring unit; and
The connection state determination unit calculates a voltage value change amount compared to the measured current value change amount of the fuse, and compares the total voltage of the plurality of batteries connected in parallel to a preset threshold Determining whether the connection state of the fuse is normal according to whether the value is exceeded;
The step of determining whether the connection state of the fuse is normal,
Calculating a voltage value change amount compared to a current value change amount of the fuse based on a voltage value and a current value measured for a predetermined time:
determining that the connection state of the fuse is in a normal state when the amount of change in voltage relative to the amount of change in the current value is equal to or less than the preset threshold value compared to the total voltage of the plurality of batteries connected in parallel; and
and determining that the connection state of the fuse is in an abnormal state when the amount of change in voltage relative to the amount of change in the current value exceeds the preset threshold value compared to the total voltage of the plurality of batteries connected in parallel; .
6. The method of claim 5,
Measuring the voltage value and the current value of the current conducting the fuse comprises:
Measuring the voltage value and the current value of the current through a current sensor and a voltage sensor provided between the fuse provided for each of the plurality of batteries and the connection state determining unit, respectively; fuse connectivity, comprising: diagnostic method.
6. The method of claim 5,
The step of determining whether the connection state of the fuse is normal,
determining that the connection state of the fuse is abnormal when the amount of change in voltage relative to the change in current value exceeds 50% of the total voltage of a plurality of batteries connected in parallel; diagnostic method.
A measuring unit for measuring the total voltage value and current value of the current passing through the fuse provided for each of the plurality of batteries connected in parallel, and calculating the voltage value change amount compared to the measured current value change amount of the fuse, A fuse connectivity diagnosis system comprising: a connection state determination unit configured to determine whether the connection state of the fuse is normal according to whether the voltage change amount compared to the current value change amount of the fuse exceeds a preset threshold value compared with the total voltage of the battery including,
The connection state determination unit,
receiving the total voltage value and current value from the measuring unit and calculating the voltage value change amount compared to the current value change amount of the fuse measured for a certain time,
When the amount of change in voltage relative to the amount of change in the current value is equal to or less than the preset threshold value compared to the total voltage of the plurality of batteries connected in parallel, it is determined that the connection state of the fuse is in a normal state,
The battery management system, characterized in that it is determined that the connection state of the fuse is in an abnormal state when the amount of change in voltage relative to the change in current value exceeds the preset threshold value compared to the total voltage of the plurality of batteries connected in parallel.

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