KR20180079706A - Output terminal connection status check device - Google Patents

Abstract

The present invention relates to an output terminal connection state checking apparatus. The output terminal connection state checking apparatus according to an embodiment of the present invention, which may be included in a DC-DC converter including a high voltage terminal receiving a direct current of a high voltage, a low voltage terminal converting the high voltage into a low voltage to output the low voltage and a signal terminal comprises: a low voltage positive terminal which is a positive terminal included in the low voltage terminal and is connected to a positive terminal of a low voltage battery connected to the low voltage terminal; a low voltage negative terminal which is a negative terminal included in the low voltage terminal and is connected to a negative terminal of the low voltage battery; a signal negative terminal which is connected to the negative terminal of the low voltage battery and is a negative terminal included in the signal terminal; an output unit which both ends thereof are connected to the low-voltage positive terminal and the low-voltage negative terminal and a voltage value at the both ends varies depending on a connection state between the low-voltage negative terminal and the low-voltage battery; a disconnection protection unit which both ends thereof are connected to the output unit and the signal negative end, respectively, and when a disconnection occurs between the low-voltage negative terminal and the low-voltage battery, the magnitude of a current flowing into the signal negative terminal is maintained to be the same as a case when the disconnection does not occur; a protection control unit which is connected to the output unit, the signal negative terminal, and the disconnection protection unit, and outputs an operation ON signal or an operation OFF signal for controlling the operation of the disconnection protection unit; and a disconnection checking unit which monitors voltage values at both ends of the output unit, outputs a disconnection checking signal to the protection control unit and determines whether or not there is a disconnection between the low-voltage negative terminal and the low-voltage battery based on a change of the voltage values at both ends of the output unit.

Description

[0001] The present invention relates to an output terminal connection status check device,

The present invention relates to an output terminal connection state checking apparatus.

Today, development of eco-friendly automobiles capable of replacing existing internal combustion engine automobiles is being actively pursued due to high oil prices and carbon dioxide regulations. Recently, electric vehicles (EVs), internal combustion engines and electric Hybrid electric vehicle (HEV), which uses a motor as a drive source, has already been commercialized according to an automobile manufacturer, or is in the process of being commercialized.

BACKGROUND ART An electric vehicle or a hybrid vehicle is equipped with a high voltage battery (main battery) as a power source for supplying electric power to an electric motor (traction motor) serving as a driving source, and also includes a charging device for charging the battery, A motor control unit (MCU) including an inverter for driving a motor (hereinafter referred to as " motor ").

A low-voltage battery is also installed to supply the power used for electronic components other than those used for electric motors. The low-voltage battery is charged with a high-voltage battery, in which a DC direct current converter is used.

Korean Patent No. 1394751

SUMMARY OF THE INVENTION An aspect of the present invention is to provide a DC-to-DC converter for outputting a high-voltage input DC to a low-voltage DC.

In a DC to DC converter for outputting other technical high-voltage input DCs to a low-voltage DC to be solved by the present invention, when the connection of the low-voltage output terminals is disconnected, the signal terminals of the DC- Thereby protecting the connection.

The technical objects of the present invention are not limited to the above-mentioned technical problems, and other technical subjects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided an apparatus for checking an output terminal connection state, including: a high voltage terminal receiving a high voltage direct current; a low voltage terminal outputting the input voltage converted to a low voltage; A low-voltage terminal connected to a positive terminal of the low-voltage battery connected to the low-voltage terminal, the low-voltage terminal being a positive terminal included in the low-voltage terminal; A low voltage negative terminal connected to a negative terminal of the low voltage battery, the negative terminal being included in the low voltage terminal; A signal terminal connected to a negative terminal of the low voltage battery, the signal terminal being a negative terminal included in the signal terminal; An output unit connected to both the low-voltage negative terminal and the low-voltage negative terminal, and having a voltage value at both ends depending on a connection state between the low-voltage negative terminal and the low-voltage battery; Both ends of which are connected to the output unit and the signal negative terminal, and when a disconnection occurs between the low-voltage negative terminal and the low-voltage battery, the magnitude of the current flowing into the signal negative terminal is set to be the same as when the disconnection does not occur A wire protecting portion for holding the wire; A protection control unit connected to the output unit, the signal negative terminal, and the disconnection protection unit to output an operation ON signal or an operation OFF signal for controlling the operation of the disconnection protection unit; And a controller for monitoring a voltage value at both ends of the output unit and outputting a disconnection confirmation signal to the protection control unit and judging whether or not the low voltage negative terminal and the low voltage battery are disconnected based on the variation of the voltage value at both ends of the output unit. And a disconnection confirmation unit.

According to the present invention as described above, it is possible to confirm whether or not the connection of the output sound terminal is disconnected in the operation of the DC / DC converter, so that malfunction due to disconnection can be prevented in advance.

Further, when the output negative terminal is disconnected during the operation of the DC-DC converter, the signal line connected to the signal terminal of the DC-DC converter due to the disconnection can be prevented from being damaged.

1 is a diagram showing a state in which an output terminal of a conventional DC / DC converter is disconnected.
2 is a graph showing a change in current flowing through a signal terminal when the output terminal of the conventional DC / DC converter is disconnected.
3 is a block diagram illustrating a direct current (DC) converter having an output terminal connection status verifying apparatus according to an embodiment of the present invention.
4 is an exemplary circuit diagram illustrating a direct current (DC) converter having an output terminal connection status verifying apparatus according to an embodiment of the present invention.
FIG. 5 is a graph illustrating a change in current flowing through a signal terminal when the output terminal of the DC direct current converter equipped with the output terminal connection state checking device is disconnected, according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless explicitly defined otherwise.

FIG. 1 is a graph showing a state where an output terminal of a conventional DC direct current converter is disconnected, and FIG. 2 is a graph showing a change in current flowing in a signal terminal when an output terminal of the conventional DC direct current converter is disconnected.

Referring to FIGS. 1 and 2, the conventional direct current (DC) converter 100 is not provided with a separate connection state checking device or a single line protecting device. Since the signal terminals (Sig +, Sig-) in the normal state have much less current than the output terminals (LV +, LV-), the wires connected to the signal terminals (Sig +, Sig-) are connected to the output terminals A very thin wire is used rather than a wire connected to the battery.

When a disconnection occurs in the lead 110 between the output terminals LV + and LV- and the battery, the current of the low-voltage battery flows in the lead connected to the negative terminal Sig- of the signal terminal. As shown in FIG. 2, since the current flowing in the signal terminal sharply increases, the lead may be damaged.

3 is a block diagram illustrating a direct current (DC) converter having an output terminal connection status verifying apparatus according to an embodiment of the present invention.

Referring to FIG. 3, a DC-DC converter 200 including an output terminal connection state checking device 300 according to an embodiment of the present invention will be described in detail.

The output terminal connection state checking apparatus 300 may include an output unit 310, a line protection unit 320, a protection control unit 330, and a disconnection confirmation unit 340 according to an embodiment of the present invention. The DC / DC converter 200 includes high voltage terminals HV + and HV- for receiving a high voltage direct current, low voltage terminals LV + and LV- for converting the input current into a low voltage and outputting the signal terminals Sig + and Sig- . ≪ / RTI >

The low voltage positive terminal (LV +) is a positive terminal included in the low voltage terminals (LV +, LV-) and is connected to the positive terminal of the low voltage battery connected to the low voltage terminals (LV +, LV-). The low voltage positive terminal (LV-) is a negative terminal included in the low voltage terminals (LV +, LV-) and is connected to the negative terminal of the low voltage battery connected to the low voltage terminals (LV +, LV-).

The signal positive terminal Sig + is a positive terminal included in the signal terminals Sig +, Sig-, and is connected to the positive terminal of the low-voltage battery. The signal terminal (Sing-) is a negative terminal included in the signal terminal (Sig +, Sig-) and is connected to the negative terminal of the low-voltage battery.

The output unit 310 is connected at both ends to the low voltage positive terminal LV + and the low voltage negative terminal LV-, and the voltage value at both terminals is changed according to the connection state between the low voltage negative terminal LV- and the low voltage battery .

When the connection between the low-voltage negative terminal and the low-voltage battery is normal, the output unit 310 outputs a negative voltage between the low-voltage negative terminal and the low-voltage battery, Voltage battery, and when the disconnection confirmation signal is not output, the both-end voltage of the output unit is kept equal to the both-end voltage of the low-voltage battery by the disconnection protection unit, and when the disconnection occurs and the disconnection confirmation signal is output, The power charged in the output capacitor is consumed by the resistor, so that the voltage across the output portion can be reduced.

The disconnection protection unit 320 is connected between the output unit 310 and the signal negative terminal Sig- and is connected to the signal negative terminal Sig- when there is a disconnection between the low voltage negative terminal LV- and the low- Can be kept the same as when the disconnection does not occur.

When the operation-on signal is input from the protection control unit 330, the disconnection-protection unit 320 turns on and becomes a short circuit. When the operation-off signal is input from the protection control unit 330, turn-off state to be an open circuit.

The protection control unit 330 is connected to the output unit 310, the signal negative terminal Sig- and the disconnection protection unit 320 and receives an operation-on signal or an operation-off signal for controlling the operation of the disconnection protection unit 320 Can be output.

The disconnection confirmation unit 340 monitors the voltage value at both ends of the output unit 310 and outputs a disconnection confirmation signal to the protection control unit 330 and outputs the disconnection confirmation signal based on the voltage value at both ends of the output unit 310 It is possible to determine whether or not there is a disconnection between the low voltage negative terminal LV- and the low voltage battery.

If the disconnection confirmation unit 340 does not output the disconnection confirmation signal to the protection control unit 330, the protection control unit 330 outputs the operation ON signal to the disconnection protection unit 320. [

When the disconnection confirmation unit 340 outputs the disconnection confirmation signal to the protection control unit 330, the protection control unit 330 outputs the operation off signal to the disconnection protection unit 320. [ When the operation-off signal is input, the disconnection protecting unit 320 operates as an open circuit. When the disconnection protection unit 320 operates as an open circuit, the voltage across the output unit 310 decreases.

If the disconnection verifying unit 340 confirms that the voltage across the output unit 310 decreases according to the output of the disconnection confirmation signal, it can be determined that a disconnection has occurred between the low voltage negative terminal LV- and the low- have.

4 is an exemplary circuit diagram illustrating a direct current (DC) converter having an output terminal connection status verifying apparatus according to an embodiment of the present invention.

4, an actual circuit configuration of an output terminal connection state checking apparatus 300 according to an embodiment of the present invention will be described and its operation will be described.

The output unit 310 includes an output capacitor Co connected at both ends to the low voltage positive terminal LV + and the low voltage negative terminal LV- and an output resistor R2 connected in parallel at both ends of the output capacitor Co .

The disconnection protection unit 320 may include a protection diode D1 and a first switch Q1. One end of the protection diode D1 is connected to the low voltage negative terminal LV- and the other end thereof is connected to the switch input terminal of the first switch Q1. The first switch Q1 has a switch input terminal connected in series to the protection diode D1, a switch output terminal connected to the signal negative terminal Sig-, and a protection control section 330 connected to the switching terminal. The protection diode D1 is a diode in which the direction of the first switch Q1 in the output portion 310 is a positive direction.

For example, when the first switch Q1 is a metal oxide silicon field effect transistor (MOSFET), the switch input terminal is the drain terminal of the MOSFET, the switch output terminal is the source terminal of the MOSFET, The switching terminal may be the gate terminal of the MOSFET.

The protection control unit 330 may include a control resistor R1, a control capacitor C1, and a second switch Q2. One end of the control resistor R1 is connected to the low voltage positive terminal LV +, and the other end thereof is serially connected to the control capacitor C1. One end of the control capacitor C1 is connected in series with the control resistor R1, and the other end of the control capacitor C1 is connected to the signal negative terminal Sig-. The one end of the control capacitor C1 is also connected to the short-circuit protection unit 320. [ The input terminal of the second switch Q2 is connected to the contact of the control resistor R1 and the control capacitor C1, and the switch output terminal is connected to the signal terminal Sig-. The second switch Q2 is turned on only when a disconnection confirmation signal is input to the switching terminal.

For example, when the second switch Q2 is a metal oxide silicon field effect transistor (MOSFET), the switch input terminal is a drain terminal of the MOSFET, the switch output terminal is a source terminal of the MOSFET, The switching terminal may be the gate terminal of the MOSFET.

The disconnection confirming unit 340 may be a microprocessor (uP) or a micom for outputting the disconnection confirmation signal to the control switch, but the present invention is not limited thereto.

The first switch Q1 may be a metal oxide silicon field effect transistor (MOSFET). The operation-on signal may be a signal of the operating voltage of the MOSFET applied to the gate terminal of the MOSFET. The operation-off signal may be a signal of a voltage lower than an operating voltage of the MOSFET applied to the gate terminal of the MOFSET.

The second switch Q2 may be a metal oxide silicon field effect transistor (MOSFET). The disconnection confirmation signal may be a signal of the operating voltage of the MOSFET applied to the gate terminal of the MOSFET.

When the connection between the low voltage negative terminal (LV-) and the low voltage battery (LV Battery) is normal, the output capacitor (Co) has the voltage across the output capacitor (Co) equal to the voltage across the low voltage battery (LV Battery).

When a disconnection occurs between the low-voltage negative terminal (LV-) and the low-voltage battery (LV Battery), the control capacitor (C1) is charged. The operation voltage is applied to the gate of the first switch Q1 by charging the control capacitor C1 and the first switch Q1 is turned on. When the first switch Q1 is turned on, one end connected to the low voltage negative terminal LV- of the output capacitor Co and the signal negative terminal Sig- are in a state equivalent to the short-circuited state, The voltage may be equal to the voltage across the low-voltage battery (LV Battery). As described above, even if disconnection occurs by the protection control unit 330 and the disconnection confirmation unit 340 according to the embodiment of the present invention, the voltage across the output capacitor Co becomes equal to the voltage across the low-voltage battery LV Battery).

In addition, by preventing the current from flowing from the signal negative terminal to the output capacitor Co by the protection diode D1, the lead connected to the signal negative terminal Sig- can be prevented from being damaged. When the disconnection occurs, charging of the control switch C1 takes time, so that the first switch Q1 is in the turned-off state and is in a state equivalent to the short-circuited state. In this case, the protection diode D1 prevents the large current flowing to the low voltage negative terminal LV- from flowing to the output capacitor Co through the signal negative terminal Sig-. Therefore, since the protection diode D1 prevents the large current from flowing to the signal negative terminal Sig-, it is possible to prevent the conductor connected to the signal negative terminal Sig- from being destroyed.

When a disconnection occurs between the low voltage negative terminal LV- and the low voltage battery LV Battery, when the second switch Q2 is turned on by the disconnection confirmation signal of the disconnection verifying unit 340, the control capacitor C1 Is discharged. The first switch Q1 is turned off by the discharge of the control capacitor C1 and the electric power charged in the output capacitor Co by the turn-off of the first switch Q1 is discharged by the output resistor R2 The voltage across the output capacitor Co is reduced. When the both-end voltage of the output capacitor Co decreases due to the output of the disconnection confirmation signal, the disconnection confirmation unit 340 determines that a disconnection occurs between the low-voltage negative terminal LV- and the low-voltage battery LV Battery .

When the disconnection confirmation unit 340 outputs the disconnection confirmation signal in the case where the disconnection between the low voltage negative terminal LV- and the low voltage battery LV Battery is normally established without generating disconnection, The voltage across the output capacitor Co is equal to the voltage across the low-voltage battery LV Battery even if the first switch Q1 is turned off. Therefore, the disconnection verifying unit 340 can determine that the disconnection does not occur because the voltage across the output capacitor Co does not change.

FIG. 5 is a graph illustrating a change in current flowing through a signal terminal when the output terminal of the DC direct current converter equipped with the output terminal connection state checking device is disconnected, according to an embodiment of the present invention.

Referring to FIG. When a break occurs between the low voltage negative terminal LV- and the low voltage battery LV Battery, current can be prevented from flowing from the signal negative terminal to the output capacitor Co by the protection diode D1. As shown in the graph of FIG. 5, even if disconnection occurs at time t2, the current flowing to the low voltage negative terminal (LV-) does not change. Therefore, even if disconnection occurs, the lead wire connected to the signal negative terminal Sig- by the protection diode D1 can be prevented from being damaged.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

100, 200 DC direct current converters
300 output terminal connection status check device
310 output section
320 disconnection protection unit
330 protection control unit
340 Disconnection check part

Claims (11)

A DC-DC converter including a high voltage terminal receiving a high-voltage direct current, a low-voltage terminal converting the high voltage into a low voltage and outputting the signal,
A low-voltage terminal connected to a positive terminal of the low-voltage battery connected to the low-voltage terminal, the low-voltage terminal being a positive terminal included in the low-voltage terminal;
A low voltage negative terminal connected to a negative terminal of the low voltage battery, the negative terminal being included in the low voltage terminal;
A signal terminal connected to a negative terminal of the low voltage battery, the signal terminal being a negative terminal included in the signal terminal;
An output unit connected to both the low-voltage negative terminal and the low-voltage negative terminal, and having a voltage value at both ends depending on a connection state between the low-voltage negative terminal and the low-voltage battery;
Both ends of which are connected to the output unit and the signal negative terminal, and when a disconnection occurs between the low-voltage negative terminal and the low-voltage battery, the magnitude of the current flowing into the signal negative terminal is set to be the same as when the disconnection does not occur A wire protecting portion for holding the wire;
A protection control unit connected to the output unit, the signal negative terminal, and the disconnection protection unit to output an operation ON signal or an operation OFF signal for controlling the operation of the disconnection protection unit; And
Monitors the voltage value at both ends of the output unit, outputs a disconnection confirmation signal to the protection control unit, and determines whether the low voltage negative terminal and the low voltage battery are disconnected based on the variation of the voltage value at both ends of the output unit And a disconnection confirmation unit,
Output terminal connection status check device. The method according to claim 1,
The output unit includes:
An output capacitor having its both ends connected to the low-voltage positive terminal and the low-voltage negative terminal, respectively; And
And an output resistor connected in parallel to both ends of the output capacitor,
Voltage terminal is equal to a voltage across the low-voltage battery when the connection between the low-voltage negative terminal and the low-voltage battery is normal,
Voltage between the low-voltage negative terminal and the low-voltage battery, and if the disconnection confirmation signal is not output, the voltage across the output unit is kept equal to the voltage across the low-voltage battery,
Wherein when the disconnection occurs and the disconnection confirmation signal is output, power output to the output capacitor is consumed by the output resistance,
Output terminal connection status check device. The method according to claim 1,
The output unit includes:
An output capacitor having its both ends connected to the low-voltage positive terminal and the low-voltage negative terminal, respectively; And
And an output resistor connected in parallel to both ends of the output capacitor,
Voltage terminal is equal to a voltage across the low-voltage battery when the connection between the low-voltage negative terminal and the low-voltage battery is normal,
Voltage between the low-voltage negative terminal and the low-voltage battery, and if the disconnection confirmation signal is not output, the voltage across the output unit is kept equal to the voltage across the low-voltage battery,
Wherein when the disconnection occurs and the disconnection confirmation signal is output, power output to the output capacitor is consumed by the output resistance,
Output terminal connection status check device. The method according to claim 1,
The single-
A protection diode whose one end is connected to the low voltage negative terminal; And
A first switch connected at one end to the protection diode in series, the other end of the switch being connected to a signal terminal; , ≪ / RTI &
The protection diode includes:
Wherein the first switch direction in the output section is a forward direction,
Wherein the first switch comprises:
When the operation-on signal is input from the protection control unit, the switch turns to a turn-on state and becomes a short circuit. When the operation-off signal is input from the protection control unit, the turn- ,
Output terminal connection status check device. 5. The method of claim 4,
Wherein the first switch comprises:
MOSFET (Metal Oxide Silicon Field Effect Transistor)
The operation-
A signal of the operating voltage of the MOSFET applied to the gate terminal of the MOSFET,
The operation-
Which is a voltage lower than the operating voltage of the MOSFET applied to the gate terminal of the MOSFET,
Output terminal connection status check device. The method according to claim 1,
The protection control unit,
A control resistor whose one end is connected to the low voltage negative terminal;
A control capacitor, one end of which is connected in series with the control resistor, and the other end thereof is connected to the signal negative terminal; And
A second switch that is turned on only when the disconnection confirmation signal is input; , ≪ / RTI &
Wherein the one end of the control capacitor is connected to the one-
Wherein the control capacitor comprises:
And the second switch is charged when the second switch is turned off to output the operation-on signal, and when the second switch is turned on,
Output terminal connection status check device. The method according to claim 6,
The single-
And outputting the disconnection confirmation signal to the control switch,
Output terminal connection status check device. The method according to claim 6,
Wherein the second switch comprises:
MOSFET (Metal Oxide Silicon Field Effect Transistor)
The disconnection confirmation signal,
Which is a signal of the operating voltage of the MOSFET applied to the gate terminal of the MOSFET,
Output terminal connection status check device. A DC-DC converter including a high voltage terminal receiving a high voltage direct current, a low voltage terminal converting the input current into a low voltage and outputting the signal,
A low-voltage terminal connected to a positive terminal of the low-voltage battery connected to the low-voltage terminal, the low-voltage terminal being a positive terminal included in the low-voltage terminal;
A low voltage negative terminal connected to a negative terminal of the low voltage battery, the negative terminal being included in the low voltage terminal;
A signal terminal connected to a negative terminal of the low voltage battery, the signal terminal being a negative terminal included in the signal terminal;
An output capacitor connected in parallel to the low-voltage positive terminal and the low-voltage negative terminal;
An output resistor connected in parallel across the output capacitor;
A protection diode to which the P-type terminal is connected to the low-voltage negative terminal;
A first switch whose both ends are connected to the N-type terminal of the protection diode and the signal negative terminal, respectively;
A control resistor having its both ends connected to the low voltage negative terminal and the gate terminal of the first switch;
A control capacitor whose both ends are connected to the gate terminal of the first switch and the signal negative terminal, respectively;
A second switch whose both ends except for the gate are connected in parallel to the control capacitor; And
Wherein the first switch is connected to the gate of the second switch and the disconnection confirmation signal is output to the gate of the second switch to monitor the voltage fluctuation of the output capacitor while the second switch is turned on, And a disconnection confirmation unit for deciding whether or not the disconnection of the cable is disconnected.
Output terminal connection status check device. 10. The method of claim 9,
Wherein the output capacitor comprises:
When the connection between the low-voltage negative terminal and the low-voltage battery is normal, the voltage across the output capacitor is equal to the voltage across the low-voltage battery,
Wherein when a break occurs between the low-voltage negative terminal and the low-voltage battery, the control capacitor is charged, an operation voltage is applied to the gate of the first switch by charging the control capacitor to turn on the first switch, Wherein when the first switch is turned on, one end of the output capacitor connected to the low-voltage negative terminal and the signal negative terminal are short-circuited, and a voltage across the output capacitor is maintained equal to a voltage across the low-
Output terminal connection status check device. 11. The method of claim 10,
When the second switch is turned on,
Wherein when a break occurs between the low-voltage negative terminal and the low-voltage battery, the control capacitor is discharged, and the first switch is turned off by discharging the control capacitor, and when the first switch is turned off, The voltage across the output capacitor is reduced by discharging by the output resistor,
The single-
Voltage battery and the low-voltage battery when the voltage across the output capacitor decreases due to the output of the disconnection confirmation signal,
Output terminal connection status check device.

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