KR101889948B1 - Short detection circuit of multi-terminal - Google Patents

Abstract

The present invention relates to a circuit which detects a short circuit of a multi-terminal for a vehicle. The present invention relates to a circuit for detecting a short circuit of a multi-terminal, the circuit which senses a short circuit, when the short circuit occurs in the USB terminal arranged in the multi-terminal, blocks power, output through a USB terminal, and consequently blocks the impact from the short circuit to an internal circuit, such as an AVN connected to the multi-terminal, of a vehicle. According to the present invention, the circuit for detecting a short circuit of a multi-terminal comprises: a voltage source which supplies voltage; a switch unit which receives input of input voltage through an input terminal from the voltage source, outputs output voltage through an output terminal, and turns on or off of output of the output voltage by voltage input into an enable terminal; a first resistance which is connected in parallel to the output terminal of the switch unit; a second resistance which is connected in series to the voltage source; a first switch which switches power, flowing through the second resistance, of the voltage source by current flowing through the first resistance; a third resistance which is connected to a middle point between the second resistance and the first switch; a fourth resistance which is connected in parallel to the voltage source; a second switch which switches power, flowing through the fourth resistance, of the voltage source by current flowing through the second resistance and the third resistance; and a fifth resistance which has one side, connected to a middle point between the fourth resistance and the second switch, and the other side connected to the enable terminal of the switch unit.

Description

[0001] SHORT DETECTION CIRCUIT OF MULTI-TERMINAL [0002]

[0001] The present invention relates to a circuit for detecting a short circuit of a vehicle multi terminal and detecting a short circuit in the USB terminal of the multi terminal, To a multi-terminal short-circuit detection circuit which cuts off the influence of a short circuit in the vehicle internal circuit.

In general, the AVN of the vehicle is connected to a multi terminal, and the multi terminal is provided with an external input terminal (AUX JACK) for connecting an external multimedia device (portable MP3, CD player) and a USB terminal Respectively.

Thus, the vehicle multi terminal provides the scalability to use an external multimedia device or a USB device through the vehicle's AVN system.

Among these multi terminals, the USB terminal is supplied with a power supply V_USB, which is a power supply provided by the AVN system, and supplies operating power to a USB device mounted on the USB terminal.

This multi-terminal structure is shown in Fig.

Referring to FIG. 1, a multi terminal 10 is connected to an AVN 20 via an internal terminal 12, and a USB terminal 11 is connected to an AVN 20 through an internal terminal 12, V_USB and GND, and connects the USB data lines, D + and D- signal lines.

The USB terminal 11 can be equipped with the USB device 30 on the user side, and therefore, the V_USB power source is always exposed to the risk of short circuit while being exposed to the center fence of the vehicle or the like.

The conventional multi terminal does not have a circuit capable of detecting a short circuit that may occur in the USB terminal 11, so there is a possibility that a failure due to a short circuit may occur in the AVN supplying power to the multi terminal.

In other words, it may cause a system error in AVN that supplies V_USB power due to V_USB short-circuit, which may cause the AVN system to stop or cause an abnormal phenomenon such as rebooting. If such a symptom occurs during driving, .

Korean Patent No. 10-1396177 (Practical New Document Literature 0001) Published Korean Utility Model No. 20-2009-0002068

Accordingly, the present invention provides a method of detecting short-circuit in a USB terminal provided in a multi-terminal and interrupting the power output to the USB terminal to cut off the influence of a short circuit in a vehicle internal circuit such as an AVN connected to a multi- The object of the present invention is to provide a sensing circuit.

The multi-terminal short-circuit detection circuit according to the present invention includes: a voltage source 110 for supplying a voltage; The output terminal 122 receives the input voltage from the voltage source 110 to the input terminal 121 and outputs the output voltage by turning on the output of the output voltage by the voltage input to the enable terminal 123. [ A switch unit 120 for switching on and off the switch; A first resistor R1 connected in parallel to the output terminal 122 of the switch unit 120; A second resistor R2 connected in series to the voltage source 110; A first switch (SW1) for switching a power source of the voltage source (110) flowing through the second resistor (R2) by a current flowing through the first resistor (R1); A third resistor (R3) connected to a midpoint between the second resistor (R2) and the first switch (SW1); A fourth resistor R4 connected in parallel to the voltage source 110; A second switch SW2 for switching the power source of the voltage source 110 flowing through the fourth resistor R4 by a current flowing through the second resistor R2 and the third resistor R3; And a fifth resistor (R5) having one end connected to a midpoint between the fourth resistor (R4) and the second switch (SW2) and the other end connected to the enable terminal (123) of the switch unit (120). .

The switch unit 120 outputs the output voltage to the output terminal 122 when the voltage input to the enable terminal 123 is equal to or higher than a predetermined voltage and inputs the output voltage to the enable terminal 123 The output of the output voltage to the output terminal 122 is cut off.

When the voltage of the voltage source 110 is applied to the enable terminal 123 of the switch unit 120, the output voltage is outputted to the output terminal 122 of the switch unit 120, The first switch SW1 is made conductive by the output voltage outputted to the second switch 122 and the second switch SW2 is cut off by conduction of the first switch SW1.

In the present invention, when a short circuit occurs in the output voltage output from the output terminal 122, the first switch SW1 is shut off due to the short circuit, and the voltage source 110 Is connected to the enable terminal 123 of the switch unit 120 by conduction of the second switch SW2 and the second switch SW2 is electrically connected to the second switch SW2, A voltage lower than the preset voltage is input and the output of the output voltage is cut off at the output terminal 122 of the switch unit 120. [

The multi terminal short detection circuit according to the present invention includes a first light emitting diode (D1) connected to an output terminal of the first switch (SW1) and turned on when the first switch (SW1) is turned on; And a second light emitting diode (D2) connected to an output terminal of the second switch (SW2) and turned on when the second switch (SW2) is turned on; .

According to the present invention, when a short-circuit occurs in a USB terminal of a multi-terminal, the AVN connected to the multi-terminal and the vehicle internal circuit can be protected from short-circuit by automatically detecting the power output to the USB terminal. To allow the user to automatically detect faults and take appropriate action.

FIG. 1 is a schematic diagram of a conventional connection structure between a multi-terminal and an AVN.
FIG. 2 is a schematic configuration diagram of a multi-terminal and an AVN including a multi-terminal short circuit detection circuit according to an embodiment of the present invention.
3 is a circuit diagram of a multi-terminal short-circuit detection circuit according to an embodiment of the present invention.
4 is a flowchart illustrating a steady-state operation of the multi-terminal short-circuit detection circuit according to an exemplary embodiment of the present invention.
5 is a flowchart of a short-circuit operation of the multi-terminal short-circuit detection circuit according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a schematic configuration diagram of a multi-terminal and an AVN including a multi-terminal short circuit detection circuit according to an embodiment of the present invention.

Referring to FIG. 2, a multi terminal 10 according to an embodiment of the present invention includes a multi terminal short circuit interrupting circuit 100 in a multi terminal 10 in the connection configuration diagram of the prior art shown in FIG.

The multi terminal short circuit breaking circuit 100 is provided between the internal terminal 12 and the USB terminal 11 of the multi terminal 10 and receives the V_USB power input through the internal terminal 12 And when the USB terminal 11 is short-circuited to the V_USB power supply, the V_USB power outputted to the USB terminal 11 is cut off.

A detailed circuit configuration of the multi-terminal short-circuit breaking circuit 100 will be described with reference to FIG.

3 is a circuit diagram of a multi-terminal short-circuit detection circuit according to an embodiment of the present invention.

3, the multi-terminal short circuit detection circuit 100 includes a voltage source 110, a switch 120, five resistors R1 to R5, two switches SW1 and SW2, and two light emitting diodes D1 , And D2.

The voltage source 110 supplies a voltage to the multi-terminal short-circuit detection circuit 100 and becomes a V_USB power source supplied to the multi-terminal short-circuit detection circuit 100 through the internal terminal 12 in FIG.

The power source of the voltage source 110 is turned on / off via the switch unit 120 and is output to the USB terminal 11 of the multi terminal 10.

That is, the switch unit 120 receives the voltage of the voltage source 110, which is the V_USB power supplied through the internal terminal 120, through the input terminal 121 and outputs the voltage of the voltage source 110 to the level of the voltage input to the enable terminal 123 And the VOUT voltage output at this time becomes the V_USB power supplied to the USB terminal 11 of the multi terminal 10.

When a voltage equal to or higher than a predetermined voltage is applied to the enable terminal 123 of the switch unit 120, the switch unit 120 outputs the voltage input to the input terminal 121 to the output terminal 122, When a voltage less than a preset voltage is applied to the terminal 123, the switch unit 120 disconnects the output terminal 122 without outputting the voltage.

Therefore, if the voltage value input to the enable terminal 123 is adjusted, the output of the switch unit 120 can be ON / OFF controlled.

A power semiconductor capable of turning on / off the power can be applied to the switch unit 120. For example, components such as IGBTs are preferably applied.

The switch unit 120 should be turned off when a short circuit occurs in VOUT output from the V_USB power supply.

Therefore, if a short circuit occurs to satisfy such a condition, the circuit should be configured so that a voltage less than a predetermined voltage is applied to the enable terminal 123.

To this end, the first switch SW1 and the second switch SW2 are constituted.

The first switch SW1 switches the voltage of the voltage source 110 connected to the second resistor R2 to the output by the current flowing through the first resistor R1.

The first switch SW1 is turned on when a current equal to or greater than a preset current value is input to the first resistor R1 and outputs the voltage of the voltage source 110 connected through the second resistor R2 to the output terminal, When a current less than a predetermined current value is input to the resistor R2, the voltage is turned off to cut off the voltage of the voltage source 110 connected through the second resistor R2.

The second switch SW2 switches the voltage of the voltage source 110 connected to the fourth resistor R4 to the output by the current flowing through the second resistor R2 and the third resistor R3.

That is, the second switch SW2 is turned on when a current equal to or greater than a preset current value is input to the second resistor R2 and the third resistor R3, A voltage of the voltage source 110 connected through the fourth resistor R4 is turned off when a current less than a preset current value flows into the second resistor R3 and the third resistor R3, .

At this time, the third resistor R3 is connected in parallel to the midpoint between the second resistor R2 and the first switch SW1. If the first switch SW1 is turned on, the potential of the midpoint is Becomes equal to the potential of the output terminal of the first switch SW1. Since the first light emitting diode D1 to be described later is connected to the ground at the output terminal of the first switch SW1, when the first switch SW1 is turned on, the potential at the midpoint, that is, Becomes close to the end of the battle.

The current flowing through the second resistor R2 by the voltage source 110 flows through the first switch SW1 instead of the third resistor R3 so that no current flows through the input of the second switch SW2.

That is, in a situation where the first switch SW1 is turned ON and becomes conductive, the second switch SW2 is turned OFF.

Conversely, when the first switch SW1 is turned off, the current flowing through the second resistor R2 by the voltage source 110 is in a state in which the path to the first switch SW1 is blocked. Therefore, And is input to the second switch SW2.

Therefore, the second switch SW2 is turned ON when the first switch SW1 is turned OFF.

The voltage applied to the fifth resistor R5 connected in parallel to the midpoint between the fourth resistor R4 and the second switch SW2 due to the ON / OFF operation of the second switch SW2 causes a difference The voltage applied to the fifth resistor R5 is input to the enable terminal 123 of the switch unit 120 and controls the output of the output terminal 122 of the switch unit 120 to be turned on and off.

When the second switch SW2 is in the OFF state, the power source of the voltage source 110 connected to the fourth resistor R4 is directly applied to the fifth voltage R5, and the current flows to the enable terminal 123, The voltage generator 120 outputs the voltage of the voltage source 110 input to the input terminal 121 to the output terminal 122.

When the second switch SW2 is turned on, the voltage of the voltage source 110 connected to the fourth resistor R4 is outputted through the second switch SW2, so that the fifth resistor R5 is connected to the second switch The switch 120 receives the voltage of the voltage source 120 that is input to the input terminal 121 to the output terminal 120. The voltage of the voltage source 120, which is input to the input terminal 121, 122 without being output.

The ON / OFF operation of the first switch SW1 and the second switch SW2 causes a difference in the voltage input to the enable terminal 123 of the switch unit 120 so that the operation of the switch unit 120 The first light emitting diode D1 and the second light emitting diode D2 are connected to the output terminals of the first switch SW1 and the second switch SW2 so that the respective switches are turned on / It is confirmed that the light emitting diode is turned on / off so that the normal operation or short circuit of the circuit can be recognized.

When the first switch SW1 and the second switch SW2 are turned on, the first and second light emitting diodes D1 and D2 are turned on by the current flowing in the output terminal. In the normal operation state and the short- Since the operations of the first switch SW1 and the second switch SW2 are different from each other, when the user visually confirms the operation of the first LED D1 and the second LED D2 that are turned on / off differently It is possible to know whether the circuit operates normally or is short-circuited.

The first light emitting diode D1 and the second light emitting diode D2 are connected to the vehicle multi terminal 10 so that the user can visually confirm the operations of the first light emitting diode D1 and the second light emitting diode D2 with ease. On the side of the user on the inside of the casing.

The steady-state operation and the short-circuited state operation of the multi-terminal short-circuit detection circuit will be described in more detail with reference to FIG. 4 and FIG.

4 is a flowchart illustrating a steady-state operation of the multi-terminal short-circuit detection circuit according to an exemplary embodiment of the present invention.

4, the voltage of the voltage source 110 is first applied to the fourth resistor R4 and the fifth resistor R5 in the steady state and is input to the enable terminal 123, Is set to the high input state for convenience.

Also, a state in which a voltage equal to or lower than a predetermined voltage, that is, a voltage close to zero voltage, is input is set to a low input state for convenience.

When the high level is inputted to the enable terminal 123 of the switch unit 120, the switch unit 120 outputs the voltage VOUT to the output terminal 122. The voltage thus outputted is connected to the output terminal 122 in parallel Is applied to the first resistor (R1) connected to the first switch (SW1), and High is inputted to the input of the first switch (SW1).

When a high level is input to the first switch SW1, the first switch SW1 is turned on and the power source of the voltage source 110 is outputted to the output terminal of the first switch SW1 through the second resistor R2.

When the first switch SW1 is turned on, the ground potential, which is the potential of the output terminal of the first switch SW1, is caught by the third resistor R3 and Low is input to the input of the second switch SW2.

The second switch SW2 is turned off when the second switch SW2 is Low and therefore the current of the voltage source 110 flowing through the fourth resistor R4 is enabled through the fifth resistor R5, The current is inputted to the terminal 123 and the VOUT is outputted to the output terminal 122.

The first light emitting diode D1 and the second light emitting diode D2 connected to the output terminals of the first switch SW1 and the second switch SW2 are operated according to ON / OFF states of the switches, respectively. The first light emitting diode D1 is turned on to emit light because the current flows through the first light emitting diode D1.

The second switch SW2 is cut off and no current is supplied to the second light emitting diode D2, so that the second light emitting diode D2 is turned off.

That is, only the first light emitting diode D1 is turned on in the steady state, and the user confirms that the first light emitting diode D1 is ON, and confirms that the current multi terminal 10 is in a normal state without a short circuit .

5 is a flowchart of a short-circuit operation of the multi-terminal short-circuit detection circuit according to an embodiment of the present invention.

5, when a short circuit occurs in the USB terminal 11 of the multi terminal 10, it can be seen that the V_USB power VOUT output to the USB terminal 11 is connected to the ground.

When a short circuit occurs in the VOUT, the first resistor R1 connected in parallel to the output terminal 122 is applied with a positive potential, and Low is input to the input of the first switch SW1.

The first switch SW1 is cut off and the power source of the voltage source 110 is not outputted to the output terminal of the first switch SW1 through the second resistor R2, And is applied to the third resistor R3.

When the power source of the voltage source 110 is applied to the second resistor R2 and the third resistor R3, a high level is inputted to the input terminal of the second switch SW2, so that the second switch SW2 becomes conductive.

When the second switch SW2 is turned on, the power source of the voltage source 110 is outputted to the output terminal of the second switch SW2 through the fourth resistor R4 and the second switch SW2. Therefore, the fifth resistor R5 A low potential is applied to the output terminal of the second switch SW2 and Low is inputted to the enable terminal 123 connected to the fifth resistor R5.

When Low is inputted to the enable terminal 123 of the switch unit 120, the switch unit 120 cuts off the output of the VOUT voltage output to the output terminal 122. Therefore, the switch unit 120 is disconnected from the VOUT of the voltage source 110 , The influence of the short circuit that has occurred in VOUT can be excluded from the multi terminal 10 and the AVN 20. [

Also, in this short-circuited state, the first switch SW1 is turned off, and therefore, the first light emitting diode D1 is turned off because a current can not be supplied to the first light emitting diode D1.

The second switch SW1 is turned on and the current is supplied to the second light emitting diode D2 so that the second light emitting diode D2 is turned on to emit light.

That is, in the short-circuit state, only the second light emitting diode D2 is turned on, and the user can visually confirm that the second light emitting diode D2 is turned on, thereby confirming that the USB terminal 11 is short- And take appropriate measures so that the situation of paragraphs can be resolved.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments. Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope of the appended claims, The genius will be so self-evident. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Multi-terminal short circuit detection circuit
110: voltage source 120: switch unit
R1 to R5: first to fifth resistors SW1 and SW2: first and second switches
D1, D2: first and second light emitting diodes
10: Multi terminal 11: USB terminal
12: internal terminal 20: AVN
30: USB device

Claims (5)

A voltage source 110 for supplying a voltage;
The output terminal 122 receives the input voltage from the voltage source 110 to the input terminal 121 and outputs the output voltage by turning on the output of the output voltage by the voltage input to the enable terminal 123. [ A switch unit 120 for switching on and off the switch;
A first resistor R1 connected in parallel to the output terminal 122 of the switch unit 120;
A second resistor R2 connected in series to the voltage source 110;
A first switch (SW1) for switching a power source of the voltage source (110) flowing through the second resistor (R2) by a current flowing through the first resistor (R1);
A third resistor (R3) connected to a midpoint between the second resistor (R2) and the first switch (SW1);
A fourth resistor R4 connected in parallel to the voltage source 110;
A second switch SW2 for switching the power source of the voltage source 110 flowing through the fourth resistor R4 by a current flowing through the second resistor R2 and the third resistor R3; And
A fifth resistor R5 having one end connected to the intermediate point between the fourth resistor R4 and the second switch SW2 and the other end connected to the enable terminal 123 of the switch unit 120; And a multi-terminal short-circuit detection circuit. The method according to claim 1,
The switch unit 120,
When the voltage input to the enable terminal 123 is equal to or higher than a preset voltage, the output voltage is outputted to the output terminal 122
And disconnects the output of the output voltage to the output terminal (122) when the voltage input to the enable terminal (123) is less than the preset voltage. 3. The method of claim 2,
When the voltage of the voltage source 110 is applied to the enable terminal 123 of the switch unit 120, the output voltage is outputted to the output terminal 122 of the switch unit 120, And the second switch (SW2) is cut off by conduction of the first switch (SW1). The multi-terminal short-circuit detection circuit according to claim 1, wherein the first switch (SW1) 3. The method of claim 2,
When the output voltage output from the output terminal 122 is short-circuited, the first switch SW1 is cut off by the short-circuit, and the voltage of the voltage source 110 Is inputted to the second switch SW2 to turn on the second switch SW2 and the enable terminal 123 of the switch unit 120 is turned on by the conduction of the second switch SW2 And the output of the output voltage is cut off at an output terminal (122) of the switch unit (120). 5. The method according to any one of claims 3 to 4,
A first light emitting diode D1 connected to an output terminal of the first switch SW1 and turned on when the first switch SW1 is turned on; And
A second light emitting diode (D2) connected to an output terminal of the second switch (SW2) and turned on when the second switch (SW2) is turned on; Further comprising a multi-terminal short-circuit detection circuit.

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