KR20200042238A - System and method for diagnosing the connectivity of fuses, bms including a system for diagnosing the connectivity of fuses - Google Patents

Abstract

The present invention relates to a diagnosis system and a diagnosis method of fuse connectivity, and to a battery management system including a diagnosis system of fuse connectivity. When checking and diagnosing the connectivity of each of fuses provided for each of a plurality of battery modules connected in parallel, the diagnosis system of fuse connectivity can check and diagnose the connectivity of fuses based on a voltage change rate of the total fuses without an additional circuit configuration for individual voltage measurement for each of the fuses.

Description

Battery management system including a fuse connection diagnosis system and a diagnostic method, and a fuse connection diagnosis system {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 connection diagnosis system and a diagnostic method and a fuse connection diagnosis system, and more specifically, in checking and diagnosing the connection of each fuse provided for a plurality of battery modules connected in parallel. , Fuse connectivity diagnostic system and diagnostic method that enables you to check and diagnose the fuse connectivity based on the voltage change rate of the entire fuse without additional circuit configuration for individual voltage measurement of each fuse, and a battery management system including a fuse connectivity diagnostic system. It is about.

In general, in a driving device driven by the electric energy of a battery, such as an electric vehicle, in order to safely use the battery, it is necessary to check the connection of the fuse connected to the battery. Conventionally, the connection of the fuse for each battery module connected in parallel In order to check, a circuit configuration for separately measuring the voltage of each fuse stage was required.

This has a problem in that the cost is increased and the circuit configuration is complicated in that a voltage measuring means for voltage measurement must be provided for each fuse stage.

Korean Registered Patent No. 10-1815876

The present invention has been derived to solve the above-mentioned problems, and confirms the connectivity of each fuse provided for each battery module connected in parallel based on the voltage change rate of the entire fuse without additional circuit configuration for measuring the individual voltage of each fuse. The present invention is to provide a battery management system including a fuse connectivity diagnostic system and a diagnostic method to enable diagnosis, and a fuse connectivity diagnostic system.

The fuse connection diagnosis system according to an embodiment of the present invention calculates a voltage value change amount compared to a measured current value change amount of the fuse and a measuring unit measuring a voltage value and a current value for a fuse provided for each battery connected in parallel. And, it may include a connection state determining unit for determining whether the connection state of the fuse is normal according to whether the voltage value change exceeds a predetermined threshold.

In one embodiment, the measurement unit is provided between the 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 one embodiment, the connection state determining unit may correspond to a microcontroller unit (MCU).

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

A method for diagnosing fuse connectivity according to another embodiment of the present invention includes measuring a voltage value and a current value of a current that conducts a fuse provided for each battery connected in parallel through a measuring unit, and is measured by a connection state determination unit. And calculating a change in voltage value compared to a change in current value of the fuse, and determining whether the connection state of the fuse is normal according to whether the change in voltage value exceeds a preset threshold.

In one embodiment, the step of measuring the voltage value and the current value of the current through the fuse is 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 It may include the step of measuring the voltage value and the current value of each.

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

A battery management system according to another embodiment of the present invention includes a measuring unit measuring a voltage value and a current value of a current through a fuse provided for each battery connected in parallel, and a voltage value compared to a measured current value change amount of the fuse It may include a fuse connection diagnostic system including a connection state determination unit for calculating whether the change amount of the voltage value, and whether the connection state of the fuse is normal according to whether the voltage value change amount exceeds a preset threshold.

According to one aspect of the present invention, since it is possible to check and diagnose the connectivity of the fuse based on the rate of change of the voltage of the entire fuse without additional circuit configuration for measuring the individual voltage of each fuse, a separate voltage measurement for each fuse stage The design cost can be reduced by not having a voltage measuring means, and the circuit configuration is simplified.

1 is a view schematically showing the configuration of a fuse connection diagnostic system 100 according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a correlation between a current change amount and a voltage change amount when a plurality of fuses are normally connected and when the connection state is abnormal.
FIG. 3 is a diagram illustrating a method of diagnosing fuse connectivity through the fuse connectivity diagnosis system 100 illustrated in FIG. 1 in a series of order.

Hereinafter, preferred embodiments are provided to help understanding of the present invention. However, the following examples are only provided to more easily understand the present invention, and the contents of the present invention are not limited by the examples.

1 is a view schematically showing the configuration of a fuse connection diagnostic 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 be configured to include a measurement unit 110 and a connection status determination unit 120.

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

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

The connection state determining unit 120 receives the total voltage value and current value of the fuse 2 transmitted through the measurement unit 110, and then changes the voltage value of the fuse 2 to a plurality of batteries ( 1) If a certain value (eg, 50%) of the total voltage is exceeded, it is determined that the connection state of the current 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 a current change amount and a voltage change amount when a plurality of fuses are normally connected and when the connection state is abnormal.

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

As the current value increases to 10A (ampere), 20A, 30A, etc., 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 changes in the 'a' bar and the 'b' bar over time, and the current 'a' bar graph shows the total voltage of the battery. It can be seen that the graph for the 'b' bar is close to 100%, and close to 50% of the total voltage of the battery.

That is, since the 'b' bar in 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. 1, the connectivity of the fuse corresponding to the 'b' bar is normal. It can be determined to have, and the connection of the fuse corresponding to the 'a' bar can be determined to have an abnormal connection.

Therefore, as a result, when the amount of change of the voltage value compared to the amount of change of the current value over time exceeds a certain reference value (for example, 50% of the total voltage of the battery), it is determined that the connection of the current fuse is abnormal.

Next, a series of procedures for diagnosing the connectivity of the fuse through the fuse connectivity diagnosis system 100 will be described in order through FIG. 3.

FIG. 3 is a diagram illustrating a method of diagnosing fuse connectivity through the fuse connectivity diagnosis system 100 illustrated in FIG. 1 in a series of order.

Referring to FIG. 3, first, a current unit and a voltage value that conduct a plurality of fuses for each battery connected in parallel are measured by a measuring unit (S301).

Next, compare the current value change amount of the fuse measured by the connection state determination unit with the voltage value change amount (S302), and when the voltage value change amount exceeds a certain reference value (for example, 50% of the total battery voltage), the current fuse 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 connection is normal.

Meanwhile, in one embodiment, the fuse connectivity diagnosis system 100 may be configured in a battery management system (BMS).

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

1: battery 2: fuse
100: fuse connectivity diagnostic system
110: measuring unit
120: connection status determination unit
130: error occurrence determination unit

Claims (8)

A measuring unit that measures voltage and current values for fuses provided for each battery connected in parallel; And
Includes a connection state determination unit for calculating a voltage value change amount compared to the measured current value change amount of the fuse, and determining whether the connection status of the fuse is normal according to whether the voltage value change amount exceeds a preset threshold value. Fuse connectivity diagnostic system, characterized in that.
According to claim 1,
The measuring unit,
It is provided between the fuse provided for each of the plurality of batteries and the connection state determining unit, characterized in that it comprises a current sensor and a voltage sensor, fuse connectivity diagnostic system.
According to claim 1,
The connection state determination unit,
Fuse connectivity diagnostic system, characterized in that the microcontroller unit (MCU).
According to claim 1,
The connection state determination unit,
After calculating the amount of change in voltage compared to the amount of change in current value of the fuse measured for a specific time, when the amount of change in voltage compared to the amount of change in current exceeds 50% of the total voltage of multiple batteries connected in parallel, connection of the fuses A fuse connection diagnosis system, characterized in that it is determined that the state is abnormal.
Measuring a voltage value and a current value of a current through a fuse provided for each battery connected in parallel through a measuring unit; And
In the connection state determining unit, calculating a voltage value change amount compared to the measured current value change amount of the fuse, and determining whether the fuse connection status is normal according to whether the voltage value change amount exceeds a preset threshold value. It characterized in that it comprises a; fuse connection diagnostic method.
The method of claim 5,
Measuring the voltage value and the current value of the current through the fuse,
And measuring a voltage value and a current value of the current through a current sensor and a voltage sensor provided between the fuses provided for each of the plurality of batteries and the connection state determining unit, respectively, and comprising: Diagnostic method.
The method of claim 5,
Determining whether the connection state of the fuse is normal,
Calculating a change in voltage value compared to a change in current value of the fuse measured for a specific time through the connection state determining unit; And
Including the step of determining that the connection state of the fuse is abnormal when the amount of change of the voltage value compared to the amount of change of the current value exceeds 50% of the total voltage of a plurality of batteries connected in parallel through the connection state determining unit. A method for diagnosing fuse connectivity.
A measurement unit for measuring a voltage value and a current value of a current through a fuse provided for each battery connected in parallel, and a voltage value change amount compared to a measured current value change amount of the fuse, and the voltage value change amount is preset And a fuse connection diagnosis system including a connection status determination unit that determines whether the connection status of the fuse is normal according to whether a threshold value is exceeded.

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