KR102573100B1 - Device for checking high voltage battery status in sleep mode of electric vehicle - Google Patents

Abstract

Sleep mode of an electric vehicle that prevents the risk of explosion and fire in advance by periodically checking for abnormalities in the battery through wake-up even when the battery management system is switched to sleep mode after the engine is stopped and alerts the user in case of an abnormality relates to a high-voltage battery status checking device, when a battery management system (BMS) mounted on a battery pack receives an ignition-off signal from a vehicle control unit, converts to a sleep mode, and sets a preset number of wake-up cycles and settings in the sleep mode It wakes up periodically based on the time to check the battery status, and when a battery problem occurs as a result of the battery status check, a warning alarm signal is generated to warn the driver, enabling the battery status to be checked even in sleep mode, and a warning alarm in case of an abnormality This will prevent accidents such as explosions or fires in advance.

Description

Device for checking high voltage battery status in sleep mode of electric vehicle {Device for checking high voltage battery status in sleep mode of electric vehicle}

The present invention relates to a device for checking the state of a high-voltage battery in a sleep mode of an electric vehicle. In particular, it checks whether a battery is abnormal through periodic wake-up even when the battery management system is switched to the sleep mode after the ignition is stopped, and in case of an abnormality, the user It relates to a high-voltage battery status check device in the sleep mode of an electric vehicle to prevent explosion and fire hazards in advance by warning the

An electric vehicle is a vehicle that uses a battery and an electric motor. These electric vehicles move by rotating an electric motor with energy stored in a battery, and the electric vehicle charges the battery from an internal or external power source.

These electric vehicles are equipped with a DC/DC converter (LDC) that converts high voltage to low voltage and supplies low voltage power to an electric unit using 13.5V, and converts external 220V AC power into 400V direct current to charge the electric vehicle. A high-voltage battery pack equipped with an on-board charger (OBC) and a battery management system (BMS) that manages a high-voltage battery and the state of the high-voltage battery is provided.

In the electric vehicle having the above structure, there is a problem in that a fire may occur during charging/discharging when an internal circuit is damaged due to an impact to the high voltage battery pack or a short circuit is caused by a wire being cut. In addition, an accident in which a battery ignites during parking and causes a fire has also occurred.

These accidents can be prevented by detecting voltage, current, temperature change, etc. in the wake up mode in which the battery management system operates normally, and alerting the vehicle driver of abnormalities before an accident occurs. do.

On the other hand, in a state in which the battery management system enters a sleep mode, it is impossible to check whether the battery is abnormal, and if an ignition or explosion accident occurs in this state, it is not known what caused the fire.

Accordingly, there is a need for an improvement measure capable of checking the state of a battery even in a state in which a battery management system maintains a sleep mode in an electric vehicle.

Meanwhile, conventionally proposed technologies related to high voltage batteries of electric vehicles are disclosed in <Patent Document 1> and <Patent Document 2>.

The prior art disclosed in <Patent Document 1> controls electric vehicle charging by detecting a connection signal and a charging control signal in a sleep state, converting from a sleep state to a wake-up state according to the connection signal, and driving by the wake-up signal. It is characterized in that it has a main microcontroller that does.

However, this <Patent Document 1> can be switched to a wake-up state according to a connection signal in a sleep state, but this is not for checking the state of the battery in the sleep state, but wakes up and charges when a connection signal is input for charging However, it has a disadvantage that it is impossible to check the state of the battery in the sleep state.

In addition, <Patent Document 2> diagnoses the pre-charging function of the battery installed in the vehicle and provides the diagnosis result to the user, thereby allowing the user to check whether the pre-charging function of the battery is abnormal, and at the same time, abnormality of the pre-charging function By blocking the reserved charging operation of the battery in case of occurrence, it is possible to prevent unexpected electricity charges and personal injury.

Such <Patent Document 2> also provides a function for diagnosing reserved charging, but has a disadvantage in that it is impossible to check the state of the battery in a sleep state.

Republic of Korea Patent Publication No. 10-2018-0019446 (published on February 26, 2018) (electric vehicle charging control device and method) Korean Patent Publication No. 10-2020-0104709 (published on September 4, 2020) (apparatus and method for diagnosing scheduled charging function of battery)

Therefore, the present invention has been proposed to solve various problems occurring in the prior art and the battery accident that occurs in the sleep mode of the general electric vehicle as described above, and periodically even in the state where the battery management system is switched to the sleep mode An object of the present invention is to provide a high-voltage battery status checking device in the sleep mode of an electric vehicle that checks the battery through wake-up and warns the user in case of an abnormality to prevent the risk of explosion and fire in advance.

In order to achieve the above object, the "high voltage battery status checking device in the sleep mode of an electric vehicle" according to the present invention,

a vehicle control unit (VCU) providing an ignition off signal when the vehicle is turned off;

When an ignition off signal is received from the vehicle control unit, the vehicle enters a sleep mode, wakes up periodically based on a preset number of wake-up cycles and a preset time in the sleep mode, checks the battery state, and checks the battery state, resulting in an error in the battery. It is characterized in that it includes a battery management system that generates a warning alarm signal to warn the driver when it occurs.

In the above battery management system,

When an ignition-off signal is transmitted from the vehicle control unit, it switches to the sleep mode, and automatically switches to the wake-up mode when it is time to wake up based on the preset number of wake-up cycles and the preset time in the sleep mode. Using a sensor to check the state of the battery, if the battery state check is normal, switch to the sleep mode, and if the battery state check is abnormal, switch to the warning alarm mode to generate a warning alarm signal to warn the driver to be characterized

In order to achieve the above object, "method for checking high voltage battery state in sleep mode of electric vehicle" according to the present invention,

(a) converting to a sleep mode when an ignition off signal is transmitted from a vehicle control unit in a battery management system;

(b) In the sleep mode, the number of wakeup cycles is compared with the target number, and if the number of wakeup cycles is less than the target number, the sleep mode time is compared with the first set time, and the sleep mode time is less than the first set time. automatically switching to wake-up mode when it is large;

(c) In the sleep mode, the number of wakeup cycles is compared with the target number, and if the number of wakeup cycles is equal to or greater than the target number, the sleep mode time is compared with the second set time, and the sleep mode time is less than the second set time. automatically switching to wake-up mode when it is large;

(d) checking a battery state using a sensor in the wake-up mode;

(e) As a result of checking the battery state in step (d), if the battery is in a normal state, it switches to the sleep mode, and if it is in an abnormal state as a result of checking the battery state, it switches to a warning alarm mode to generate a warning alarm signal to warn the driver It is characterized by including steps.

In the above, the first set time and the second set time are different, and the second set time is set longer than the first set time.

According to the present invention, even in the state where the battery management system is switched to sleep mode after the engine is stopped, it periodically wakes up to check if there is an abnormality in the battery, and warns the user in case of an abnormality, thereby preventing explosions and fires that may occur in sleep mode. It has the effect of promoting safety by preventing danger in advance.

1 is a block diagram of a high voltage battery status checking device in a sleep mode of an electric vehicle according to the present invention;
2 is a flowchart showing a method for checking the state of a high voltage battery in a sleep mode of an electric vehicle according to the present invention.

Hereinafter, a device for checking a high voltage battery condition in a sleep mode of an electric vehicle according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in the present invention described below should not be construed as being limited to a conventional or dictionary meaning, and the inventor may appropriately define the concept of the term in order to explain his/her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical spirit of the present invention based on the principle that it can be.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents and equivalents that can replace them at the time of the present application It should be understood that variations may exist.

1 is a block diagram of a high voltage battery status check device in a sleep mode of an electric vehicle according to a preferred embodiment of the present invention, and includes a vehicle control unit (VCU) 10 and a battery pack 20.

The vehicle control unit 10 controls the entire operation of the vehicle and serves to provide an ignition off signal to the battery pack 20 when the vehicle is turned off.

The battery pack 20 includes a high voltage battery, a sensor unit 22 that checks the state of the high voltage battery, and a battery management system (BMS) 21 that manages the high voltage battery with a state value of the sensor unit 22.

When the start-off signal is received from the vehicle control unit 10, the battery management system 21 switches to a sleep mode, and in the sleep mode, periodically based on a preset number of wake-up cycles and a preset time. It wakes up and checks the battery status, and generates a warning alarm signal when a battery problem occurs as a result of the battery status check to warn the driver.

The battery management system 21 switches to a sleep mode when an ignition-off signal is transmitted from the vehicle control unit 10, and automatically wakes up based on a preset number of wake-up cycles and a preset time in the sleep mode. Switch to wake-up mode, and in wake-up mode, use a sensor to check the state of the battery, and if the battery state is normal, switch to the sleep mode, and if the battery state is abnormal, switch to the warning alarm mode A warning alarm signal is generated to warn the driver.

The operation of the high voltage battery condition check device in the sleep mode of an electric vehicle according to a preferred embodiment of the present invention configured as described above will be described in detail.

First, while controlling the overall operation of the vehicle, the vehicle control unit 10 provides a vehicle ignition off signal to the battery pack 20 when the vehicle is turned off.

When an ignition off signal is received from the vehicle control unit 10, the battery management system 21 of the battery pack 20 switches to a sleep mode.

The battery management system 21 wakes up periodically based on the number of wake-up cycles and the set time in the sleep mode, checks the battery state, and generates a warning alarm signal when a battery abnormality occurs as a result of checking the battery state. to warn the driver.

For example, the battery management system 21 compares the number of wake-up cycles in the sleep mode with a target number, and if the number of wake-up cycles is less than the target number, the battery management system 21 switches to the last sleep mode. The sleep mode time from the point in time to the present is compared with a preset first set time, and if the sleep mode time is greater than the first set time, a wake-up mode is automatically switched. Here, the first preset time is a time set to determine the wakeup cycle when the number of wakeup cycles is less than the target number. If the wake-up cycle is too long, it may be difficult to effectively check the battery state. If the wake-up cycle is too short, battery waste occurs due to frequent wake-ups, so it is desirable to properly set the wake-up cycle.

Also, if the number of wakeup cycles is equal to or greater than the target number by comparing the number of wakeup cycles with the target number in the sleep mode, the sleep mode time is compared with the second preset time, and the sleep mode duration is greater than the second preset time. Automatically switches to wake-up mode. Here, the second preset time is a time set to determine the wakeup cycle when the number of wakeup cycles is greater than the target number. If the wake-up cycle is too long, it may be difficult to effectively check the battery state. If the wake-up cycle is too short, battery waste occurs due to frequent wake-ups, so it is desirable to properly set the wake-up cycle.

Here, the first set time and the second set time are set differently, and preferably, the second set time may be set longer than the first set time.

When the battery management system 21 switches to the wakeup mode, the battery state (voltage, current, temperature change, etc.) is checked using the sensor unit 22 .

As a result of this check, if the battery is in a normal state, the mode is switched to the sleep mode. On the other hand, if the battery is in an abnormal state as a result of the check of the battery state, it is switched to a warning alarm mode to generate a warning alarm signal to warn the driver.

Accordingly, after the vehicle is turned off, the battery management system periodically wakes up even in the slim mode to check the state of the battery, thereby preventing ignition or explosion from occurring due to an abnormal state of the battery in the sleep mode.

2 is a flow chart showing a "method for checking the state of a high voltage battery in a sleep mode of an electric vehicle" according to the present invention. (a) When an ignition off signal is transmitted from the vehicle control unit 10 in the battery management system 21, the sleep mode (S11), (b) comparing the number of wake-up cycles in the sleep mode with a target number, and if the number of wake-up cycles is less than the target number, comparing the sleep mode time with a first set time, Automatically switching to the wakeup mode when the mode time is greater than the first set time (S12 - S13, S15), (c) comparing the number of wakeup cycles with the target number in the sleep mode, so that the number of wakeup cycles is If the number of times is greater than the target number, comparing the sleep mode time with a second set time, and automatically switching to a wake-up mode when the sleep mode time is greater than the second set time (S12, S14-S15), (d) the wake-up Checking the state of the battery using a sensor in mode (S16), (e) If the battery is in a normal state as a result of checking the battery state in step (d), switching to the sleep mode, and an abnormal state as a result of checking the battery state and converting to the rear warning alarm mode to generate a warning alarm signal to warn the driver (S17 to S18).

A detailed description of a method for checking the state of a high voltage battery in a sleep mode of an electric vehicle according to a preferred embodiment of the present invention configured as described above is as follows.

First, while controlling the overall operation of the vehicle, the vehicle control unit 10 provides a vehicle ignition off signal to the battery pack 20 when the vehicle is turned off.

When an ignition off signal is received from the vehicle control unit 10 in step S11, the battery management system 21 of the battery pack 20 converts to a sleep mode.

The battery management system 21 wakes up periodically based on the number of wake-up cycles and the set time in the sleep mode, checks the battery state, and generates a warning alarm signal when a battery abnormality occurs as a result of checking the battery state. to warn the driver.

For example, as in step S12, the battery management system 21 compares the number of wake-up cycles in the sleep mode with a target number, and if the number of wake-up cycles is less than the target number, step Go to S13 and compare the sleep mode time from the time of the last sleep mode conversion to the present with the first preset time, and automatically wake-up mode if the sleep mode time is greater than the first preset time. ) (S15). Here, the first preset time is a time set to determine the wakeup cycle when the number of wakeup cycles is less than the target number. If the wake-up cycle is too long, it may be difficult to effectively check the battery state. If the wake-up cycle is too short, battery waste occurs due to frequent wake-ups, so it is desirable to properly set the wake-up cycle.

In addition, the number of wakeup cycles in the sleep mode is compared with the target number, and if the number of wakeup cycles is equal to or greater than the target number, the process moves to step S14 and the sleep mode time is compared with the second set time to determine the sleep mode time. 2 If it is longer than the set time, it automatically switches to wake-up mode. Here, the second preset time is a time set to determine the wakeup cycle when the number of wakeup cycles is greater than the target number. If the wake-up cycle is too long, it may be difficult to effectively check the battery state. If the wake-up cycle is too short, battery waste occurs due to frequent wake-ups, so it is desirable to properly set the wake-up cycle.

Here, the first set time and the second set time are set differently, and preferably, the second set time may be set longer than the first set time.

When the battery management system 21 switches to the wakeup mode, it checks the state of the battery (voltage, current, temperature change, etc.) using the sensor unit 22 as in step S16.

As a result of this check, if the battery is in a normal state as in step S17, the switch is made to the sleep mode. On the other hand, if the battery is in an abnormal state as a result of the check of the battery state, it moves to step S18 and switches to a warning alarm mode to warn alarm mode. A signal is generated to alert the driver.

Accordingly, after the vehicle is turned off, the battery management system periodically wakes up even in the slim mode to check the state of the battery, thereby preventing ignition or explosion from occurring due to an abnormal state of the battery in the sleep mode.

Although the invention made by the present inventors has been specifically described according to the above embodiments, the present invention is not limited to the above embodiments, and it is common knowledge in the art that various changes can be made without departing from the gist of the present invention. It is self-evident to those who have

10: vehicle control unit (VCU) 20: battery pack
21: battery management system 22: sensor unit

Claims (2)

A device for checking the state of a high voltage battery in a sleep mode of an electric vehicle,
a vehicle control unit (VCU) providing a start-off signal when the start-off of the vehicle is turned off; and
When the start off signal is received from the vehicle control unit to the battery pack, the high voltage battery is managed with a state value of a sensor unit that switches to a sleep mode and checks the state of the high voltage battery, and the preset number of wakeup cycles in the sleep mode is less than the target number. If the number of wake-up cycles is greater than the target number, the sleep mode time and the second set time are compared. So, if the sleep mode time is longer than the second set time, it is periodically switched to the automatic wake-up mode to check the battery status, and as a result of checking the battery status with a sensor in the wake-up mode, if the battery is in a normal state, it is switched to the sleep mode, and the battery A high voltage battery status checking device in a sleep mode of an electric vehicle, comprising: a battery management system that generates a warning alarm signal by switching to a warning alarm mode to warn a driver when the is in an abnormal state. delete