KR20100062702A - Device for protecting battery switch and method thereof - Google Patents

Abstract

PURPOSE: A battery switch protection device and a method thereof are provided to prevent the electric shock of a driver by preventing damage to a battery switch. CONSTITUTION: A battery switch protection device comprises an inverter(120), a battery(130), a battery switch part, an overvoltage prevention part(170) and a controller(160). The inverter converts electric energy into mechanical energy. The battery gives high voltage to the inverter. The battery switch part transfers the high voltage of the battery to the inverter. The overvoltage prevention part prevents the overvoltage given in the battery switch part.

Description

Device for protecting battery switch and method

The present invention relates to a battery switch protection device and a method thereof, and more particularly, to a battery switch protection device and method that can prevent the overvoltage applied to the battery switch when the battery switch is turned off quickly.

Hybrids, fuel cell vehicles, plug-in hybrids or electric vehicles are driven using energy from high voltage batteries. That is, the inverter converts the electrical energy of the high voltage battery into mechanical energy and transmits mechanical energy to the wheels of the vehicle, thereby moving the wheels and moving the vehicle.

In this case, a battery switch is provided between the high voltage battery and the in-vehicle components such as an inverter to control the application of the voltage of the high voltage battery to the in-vehicle components such as the inverter through the battery switch.

Such a battery switch is turned off as soon as possible to protect the vehicle's system and the driver in the event of a component failure or system failure of the vehicle, separating the high voltage battery from the other components.

Therefore, it is preferable to turn off the battery switch unconditionally regardless of the amount of current flowing through the battery switch in case of a component failure or system failure of the vehicle.

However, when the battery switch is turned off during high current conduction, overvoltage is induced at the switch contact due to the surrounding inductance. In this case, when the battery switch uses a mechanical contact, contact fusion occurs, and when the battery switch is a semiconductor device, there is a problem in that parts are damaged by overvoltage.

Due to the fusion or damage of the battery switch, the high voltage battery may not be separated from the system, which may cause a second accident, and cause a driver's electric shock.

In order to solve the above problems, multiple battery switch units may be installed in series, but the cost of the battery switch units may be high and bulky, which may deteriorate a vehicle mass production competitiveness.

SUMMARY OF THE INVENTION An object of the present invention is to provide a battery switch protection device and method for preventing damage to a battery switch that performs electrical connection and disconnection of a high voltage battery and a high voltage component.

Battery switch protection device according to the present invention for achieving the above object is an inverter for converting electrical energy into mechanical energy, a battery for applying a high voltage to the inverter, and a battery switch for transmitting the high voltage of the battery to the inverter And an overvoltage prevention unit for preventing an overvoltage applied to the battery switch unit, and a controller for controlling the overvoltage protection unit to turn off after a predetermined time after the battery switch unit is turned off when the battery switch unit off request is generated.

The overvoltage protection unit may be turned on before the battery switch unit is turned on under the control of the controller, and is turned off after a predetermined time when the battery switch unit is turned off, and when the overvoltage protection switch unit is turned on. And an overvoltage protection resistor configured to charge an initial voltage applied from a battery and limit an overvoltage applied to the battery switch unit when the battery switch unit is turned off.

In addition, the overvoltage protection unit is turned on after the battery switch unit is turned on, the overvoltage protection switch unit is turned off after a predetermined time when the battery switch unit is off, and when the overvoltage protection switch unit is turned on to charge the voltage applied from the battery And an overvoltage preventing charger configured to limit an overvoltage applied to the battery switch unit.

The overvoltage preventing charging unit may include a snubber circuit.

The apparatus may further include an initial charging unit configured to charge an initial voltage applied from the battery before the battery switch unit is turned on.

The initial charging unit may further include an initial charging resistor that initially charges the voltage applied from the battery, and a voltage that is turned on before the battery switch unit is turned on to apply a voltage applied from the battery to the initial charging resistor. It characterized in that it comprises an initial charge switch unit which is turned off when the charge is completed.

In addition, the battery switch protection method according to the present invention, the step of turning on the battery switch unit for applying the voltage of the battery to the inverter, the on-voltage protection switch for limiting the overvoltage applied to the battery switch unit, and the battery switch Turning off the battery switch unit when a negative off request occurs; and turning off the overvoltage protection switch after a predetermined time elapses after the battery switch unit is turned off.

The method may further include charging the initial voltage of the battery by turning on the initial charge switch unit before turning on the battery switch unit, and turning off the initial charge switch unit when the charging is completed.

In addition, the battery switch protection method according to the present invention, the process of charging the initial voltage of the battery by turning on the over-voltage protection switch, and the process of turning on the battery switch unit for applying the voltage of the battery to the inverter when the initial voltage is completed; And turning off the battery switch unit when a request for turning off the battery switch unit occurs and turning off the overvoltage protection switch unit after a predetermined time elapses after the battery switch unit is turned off.

As described above, the present invention has an effect of preventing damage to the battery switch performing electrical connection and disconnection of the high voltage battery and the high voltage component.

Hereinafter, a battery switch protection device according to the present invention will be described in detail with reference to FIGS. 1 to 4.

1 is a block diagram of a battery switch protection device according to an embodiment of the present invention.

Battery switch protection device according to an embodiment of the present invention is a motor 110, inverter 120, inductor L1, battery 130, battery switch 140, initial voltage charging unit 150, the control unit 160 and overvoltage The prevention part 170 is provided.

The motor 110 is controlled by the inverter 120, and the inverter 120 converts the electrical voltage applied from the battery 130 into a mechanical voltage. The inverter 120 includes a current source 121 and a capacitor C2 connected in parallel.

The inductor L1 prevents a sudden increase in current when the battery switch unit 140 is turned on by limiting the current rate of increase with time.

The battery 130 supplies a high voltage to the inverter 120 through the battery switch unit 140.

The battery switch unit 140 is connected between the battery 130 and the inverter 120 to apply the battery 140 voltage to the inverter 120 under the control of the controller 160. To this end, the battery switch unit 140 includes a switch element SW1.

The initial voltage charger 150 is connected in parallel with the battery switch 140 to charge the voltage of the battery 130 that is initially applied before the battery switch 140 is turned on. That is, when the battery switch unit 140 is immediately turned on at the initial voltage charging unit 150, an overcurrent may flow in the battery switch unit 140 due to a difference in voltage level between the battery 130 and the inverter 120. By charging the voltage applied from the battery 130 before the switch unit 140 is turned on, an overcurrent is prevented from flowing in the battery switch unit 140.

To this end, the initial voltage charging unit 150 includes an initial charging resistor R1 and an initial charging switch unit 151 connected in series. The initial charging resistor R1 is connected in series with the initial charging switch 151 to charge the voltage applied from the battery 130 when the initial charging switch 151 is turned on. The initial charge switch unit 151 is turned on before the battery switch unit 140 is turned on under the control of the controller 160, and is turned off when charging is completed. At this time, the initial charging switch unit 151 is provided with a switch element SW2.

The controller 160 controls on / off of the battery switch 140, the initial charging switch 151, and the overvoltage protection switch 171 by using vehicle information (component failure, system failure, etc.).

The overvoltage protection unit 170 prevents overvoltage from being applied to the battery switch unit 140. To this end, the overvoltage protection unit 170 is connected in parallel with the battery switch unit 140 and the initial voltage charging unit 150, and includes an overvoltage protection switch unit 171 and an overvoltage protection charging unit 172.

The overvoltage protection switch unit 171 is turned on together when the battery switch unit 140 is turned on under the control of the controller 160, and is turned off after a predetermined time when the battery switch unit 140 is turned off, and includes the switch element SW3.

The overvoltage protection charger 172 charges a voltage applied from the battery 130 while the overvoltage protection switch 171 is turned on. To this end, the overvoltage protection charging unit 172 is provided with a resistor R2 and a capacitor C2 connected in series, it is implemented as a snubber circuit for limiting the sudden voltage rise across both ends. In this case, the overvoltage preventing charging unit 172 may include only the resistor R2.

Hereinafter, a battery switch protection method according to an embodiment of the present invention will be described in detail with reference to FIG. 2.

First, the controller 160 turns on the initial charge switch unit 151 to start charging the initial voltage (S101). After that, when the initial voltage charging is completed (S102), the controller 160 turns off the initial charge switch unit 151 (S103).

Subsequently, the controller 160 turns on the battery switch unit 140 (S104) and turns on the overvoltage protection switch unit 171 (S105).

 Thereafter, the controller 160 checks whether a case in which the battery switch unit 140 needs to be turned off due to a component failure, a system failure, etc. occurs (S106), and turns off the battery switch unit 140 in the battery switch unit. 140 is turned off (S107), and after a predetermined time has elapsed (S108), the overvoltage protection switch unit 171 is turned off (S109).

As such, the battery switch protection device according to the embodiment of the present invention includes a separate overvoltage protection unit 170, and when the battery switch unit 140 is turned on, the overvoltage protection switch unit 171 is turned on together and the battery switch unit ( When the 140 is turned off, the overvoltage protection switch 171 may be turned off after a predetermined time, thereby reducing the overvoltage applied to the contact of the battery switch 140 when the battery switch 140 is turned off.

3 is a block diagram of a battery switch protection device according to another embodiment of the present invention.

The battery switch protection device according to another embodiment of the present invention includes a motor 210, an inverter 220, an inductor L2, a battery 230, a battery switch unit 240, an overvoltage protection unit 250 and a control unit 260. Include.

The motor 210, the inverter 220, the inductor L2, the battery 230, and the battery switch unit 240 may include the motor 110, the inverter 120, the inductor L1, the battery 130, and the battery switch unit (FIG. 1) of FIG. 1. 140 and the configuration and function are the same, so a detailed description thereof will be omitted.

The overvoltage protection unit 250 is connected in parallel with the battery switch unit 240 and includes an overvoltage protection resistor R3 and an overvoltage protection switch unit 251. To this end, the overvoltage protection unit 250 includes an overvoltage protection resistor R3 and an overvoltage protection switch unit 251 connected in series.

The overvoltage protection resistor R3 charges the initial voltage applied from the battery 230 and the overvoltage applied from the battery 230 when the battery switch 240 is turned off.

The overvoltage protection switch unit 251 is turned on before the battery switch unit 240 is turned on under the control of the controller 260, and transmits an initial voltage applied from the battery 230 to the overvoltage protection resistor R3. In addition, the overvoltage protection switch unit 251 maintains an on state when the battery switch unit 240 is turned on and is turned off after a predetermined time when the battery switch unit 240 is turned off. To this end, the overvoltage protection switch unit 251 is provided with a switch element SW5.

The controller 260 controls on / off of the battery switch unit 240 and the overvoltage protection switch unit 251 using vehicle information (component failure, system failure, etc.).

Hereinafter, a battery switch protection method according to another exemplary embodiment of the present invention will be described in detail with reference to FIG. 4.

First, when the control unit 260 turns on the overvoltage protection switch unit 251, the charge is charged in the overvoltage protection resistor R3 (S201).

After the initial voltage charging is completed (S202), the controller 260 turns on the battery switch 240 (S203).

Thereafter, the controller 260 checks whether a case in which the battery switch unit 240 needs to be turned off due to a component failure, a system failure, etc. occurs (S204), and when the battery switch unit 240 needs to be turned off, the battery switch unit 240 is turned off (S205).

Subsequently, the controller 260 checks whether a predetermined time has elapsed since the battery switch unit 240 is turned off (S206), and turns off the overvoltage protection switch unit 251 when the predetermined time has elapsed (S207).

As such, the battery switch protection device according to another exemplary embodiment of the present invention includes an overvoltage protection unit 250, and after the overvoltage protection unit 250 performs initial charging, the battery switch protection device is turned on without turning off the overvoltage protection switch unit 251. While maintaining the state, when the battery switch unit 240 is turned off, the overvoltage protection switch unit 251 is turned off, thereby minimizing the overvoltage generated at the switch contact of the battery switch unit 240 when the battery switch unit 240 is turned off. have.

1 is a block diagram of a battery switch protection device according to an embodiment of the present invention.

2 is a flow chart illustrating a battery switch protection method according to an embodiment of the present invention.

3 is a block diagram of a battery switch protection device according to another embodiment of the present invention.

Figure 4 is a flow chart showing a battery switch protection method according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110, 210: motor 120, 220: inverter

130, 230: battery 140, 240: battery switch unit

150: initial charging unit 160, 260: control unit

170, 250: overvoltage protection unit 251, 171: overvoltage protection switching unit

252: overvoltage protection charging unit 151: initial charging switch unit

Claims (9)

An inverter for converting electrical energy into mechanical energy; A battery for applying a high voltage to the inverter; A battery switch unit transferring a high voltage of the battery to the inverter; An overvoltage prevention unit for preventing an overvoltage applied to the battery switch unit; And A controller configured to control an overvoltage protection unit to be turned off after a predetermined time after the battery switch unit is turned off when the battery switch unit off request is generated; Battery switch protection device comprising a. The method according to claim 1, The overvoltage prevention unit, An overvoltage protection switch unit that is turned on before the battery switch unit is turned on under the control of the controller, and is turned off after a predetermined time when the battery switch unit is turned off; And An overvoltage protection resistor configured to charge an initial voltage applied from the battery when the overvoltage protection switch is on, and limit an overvoltage applied to the battery switch unit when the battery switch is off; Battery switch protection device comprising a. The method according to claim 1, The overvoltage prevention unit, An overvoltage protection switch unit that is turned on after the battery switch unit is turned on and is turned off after a predetermined time when the battery switch unit is turned off; And When the overvoltage protection switch is turned on, the overvoltage protection charger for charging the voltage applied from the battery to limit the overvoltage applied to the battery switch Battery switch protection device comprising a. The method according to claim 3, The overvoltage prevention charging unit, Battery switch protection device comprising a snubber circuit. The method according to claim 3, And an initial charging unit configured to charge an initial voltage applied from the battery before the battery switch unit is turned on. The method according to claim 4, The initial charging unit, An initial charging resistor for initially charging a voltage applied from the battery; And An initial charge switch unit that is turned on before the battery switch unit is turned on, applies a voltage applied from the battery to the initial charge resistor, and turns off when the initial charge resistor is completely charged. Battery switch protection device comprising a. Turning on the overvoltage protection switch for limiting the overvoltage applied to the battery switch unit after turning on the battery switch unit applying the voltage of the battery to the inverter; Turning off the battery switch unit when a request for turning off the battery switch unit occurs; And Turning off the overvoltage protection switch after a predetermined time elapses after the battery switch unit is turned off. Battery switch protection method comprising a. The method according to claim 8, Before turning on the battery switch unit, Charging an initial voltage of the battery by turning on an initial charge switch unit; And Turning off the initial charging switch unit when the charging is completed Battery switch protection method further comprising. Charging the initial voltage of the battery by turning on the overvoltage protection switch; Turning on a battery switch unit for applying a voltage of a battery to an inverter when the initial voltage is charged; Turning off the battery switch unit when a request for turning off the battery switch unit occurs; And Turning off the overvoltage protection switch after a predetermined time elapses after the battery switch is turned off. Battery switch protection method comprising a.

Images