KR101446524B1 - Apparatus and method for outputting information on dark current generated by external electronic device for vehicle - Google Patents

Abstract

Disclosed are an apparatus and a method for outputting information on a dark current generated by an external electronic device for a vehicle. A power source outlet of a vehicle normally connected to an accessories (ACC) power source is connected to the ACC power source during the vehicle is being driven and connected to a regular power source when the vehicle enters into a sleep mode in order to enable the regular power source to be supplied, thereby guiding a user to use external electronic devices for a vehicle, such as a black box for a vehicle and a navigation system which used to cause discharge of the vehicle by being illegally connected to the regular power source, by connecting the external devices to the power source outlet. Particularly, if the vehicle enters into the sleep mode, the regular power source is connected to the power source outlet and a voltage level of a battery of the vehicle is measured using a battery sensor and an outlet sensor at the same time to change the power source of the power source outlet back into the ACC power source if the battery of the vehicle falls to a level equal to or less than a predefined voltage (reference voltage) level having a danger of discharge in order to prevent the battery discharge of the vehicle. Also, when a user gets into a vehicle, information on a dark current generated by the external electronic devices, such as current voltage of the battery, a dark current outputted to the external electronic devices for the vehicle by the power source outlet, and the time remaining until the battery discharge predicted in the current situation, is outputted to the user, thereby enabling the user to conveniently and intuitively understand the current status of the power source of the vehicle and pay closer attention to the battery discharge of the vehicle.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for outputting dark current information by an external electronic device for a vehicle,

The present invention relates to a dark current information output apparatus and method, and more particularly, to a dark current information output apparatus and method using an external electronic apparatus for a vehicle.

In general, recently sold vehicles include a dark current blocking module inside to prevent battery discharge of the vehicle. However, since the dark current blocking module is designed to prevent the battery discharge of the vehicle by blocking the dark current of the genuine parts installed in the vehicle at the time of leaving the vehicle, it is possible to prevent the driver of the vehicle from using the non-genuine automotive parts and electronic devices (for example, Black box, etc.) are arbitrarily installed, the dark current can not be completely blocked.

Particularly, in the case of a vehicle black box, there is an increasing tendency that users who want to continue operation to record a situation occurring in the vehicle while the vehicle is parked, use the vehicle black box arbitrarily by connecting it to the constant power source, As a result, there is a problem that vehicle discharge frequently occurs.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an electronic device for a vehicle which can always supply power to an external electronic device for a vehicle while preventing discharge of the vehicle battery, And an apparatus and method for outputting dark current information by an electronic device to a user.

According to another aspect of the present invention, there is provided a method of outputting dark current information by an external electronic device for a vehicle, the method comprising: when power is supplied to one or more power outlets from an ACC power source A power supply switching step of switching the power supply to a normal power supply; A measurement step of measuring a voltage level of the battery and a current output to the at least one power outlet using a battery sensor connected to the battery; And an output step of outputting to the user a measured battery voltage level and a current output to the one or more power outlets when the user is boarded in the vehicle.

According to another aspect of the present invention, there is provided a method for outputting dark current information by an external electronic device for a vehicle, the method comprising the steps of: Level power supply from the one or more power outlets to the ACC power supply.

According to another aspect of the present invention, there is provided a method of outputting dark current information by an external electronic device for a vehicle, the method comprising the steps of: The method of claim 1, further comprising measuring an overload state of the device, whether the device is disconnected, and a dark current output to the electronic device, wherein the ACC power switching step comprises: when a malfunction of the battery sensor occurs, And when the voltage level of the estimated battery falls below a predefined voltage level, the power supplied to the one or more power outlets can be switched from the constant power source to the ACC power source.

According to another aspect of the present invention, there is provided a method of outputting dark current information by an external electronic device for a vehicle, the method comprising: outputting a battery voltage level to a user through a cluster of vehicles, And the time remaining until the vehicle is discharged can be displayed.

According to another aspect of the present invention, there is provided a method of outputting dark current information by an external electronic device for a vehicle, the method comprising: detecting a door open, a smart key recognition, It is possible to detect whether or not the user is on board.

According to another aspect of the present invention, there is provided an apparatus for outputting a dark current information by an external electronic device for a vehicle, comprising: at least one power outlet to which an external electronic device is connected; A switching unit for connecting the power outlet to an ACC power supply or a constant power supply according to a switching control signal; A battery sensor for measuring a battery voltage and an output current output to the power outlet when the power source is connected to the power outlet; And a controller for outputting the switching control signal to switch the power source connected to the power outlet from the ACC power source to the constant power source when the vehicle is switched to the sleep mode, .

According to another aspect of the present invention, the control unit of the dark current information output device for external electronic devices for vehicles further includes a battery voltage detection unit for detecting a battery voltage of the battery when the battery voltage measured by the battery sensor falls below a predefined voltage level, The power supplied from the power outlet can be switched from the constant power source to the ACC power source.

In accordance with another aspect of the present invention, there is provided an apparatus for outputting a dark current information by an external electronic device for a vehicle, the electronic device including an electronic device connected to the power outlet and detecting whether the electronic device is overloaded, And an outlet sensor for measuring a dark current output to the device, wherein when the malfunction of the battery sensor occurs, the controller estimates the voltage of the battery using the measured value input from the outlet sensor, When the level falls below a predefined voltage level, the power supplied to the one or more power outlets can be switched from the constant power source to the ACC power source.

According to another aspect of the present invention, there is provided a control apparatus for a dark current information output apparatus using an external electronic device for a vehicle, the apparatus comprising: The output current level, and the time remaining until the vehicle is discharged.

In order to achieve the above object, according to another aspect of the present invention, the control unit of the dark current information output device by the external electronic device for a vehicle recognizes any one of a door opening of a vehicle, a smart key recognition, So that it is possible to detect whether or not the user is on board.

The present invention generally connects a power outlet of a vehicle to which an ACC power supply is connected to an ACC power supply while the vehicle is in operation and always connects to a power supply when the vehicle enters a sleep mode so that the power supply is constantly supplied, It is possible to connect an external electronic device for a vehicle such as a vehicle black box and a navigation device which cause a vehicle discharge to a power outlet for use.

In particular, when the vehicle is in the sleep mode, the power supply is connected to the power outlet, and the voltage level of the vehicle battery is measured using the battery sensor and the outlet sensor, so that the vehicle battery is predefined (Reference voltage) level, it is possible to prevent the vehicle battery discharge by switching the power supply outlet power supply to the ACC power supply again.

In addition, the present invention provides a method for controlling a vehicle, comprising the steps of: receiving a current battery voltage, a dark current outputted to an external electronic device through a power outlet, and dark current information by an external electronic device for a vehicle, By outputting to the user, the user can easily and intuitively grasp the current vehicle power state, thereby enabling the recognition to be switched so as to pay attention to the vehicle battery discharge.

1 is a block diagram showing a configuration of a dark current information output device by an external electronic device for a vehicle according to an embodiment of the present invention.
2 is a flowchart illustrating a method of outputting dark current information by an external electronic device for a vehicle according to a preferred embodiment of the present invention.

In the following description, specific details of an apparatus and method for outputting dark current information by an external electronic device for a vehicle according to the present invention are shown in order to provide a more thorough understanding of the present invention. Without these specific details, It will be apparent to those skilled in the art that the present invention can be easily carried out.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings, with reference to the parts necessary for understanding the operation and operation according to the present invention.

1 is a block diagram showing a configuration of a dark current information output device by an external electronic device for a vehicle according to an embodiment of the present invention.

1, an apparatus for outputting a dark current information by an external electronic device for a vehicle according to a preferred embodiment of the present invention includes at least one power outlet 140 to which an external electronic device for a vehicle is connected, a battery sensor 120, a switching unit 130 An outlet sensor 150, and a control unit 110. As shown in FIG.

First, one or more power outlets 140 are connected to the switching unit 130 such as a cigar jack of the vehicle and receive power through the switching unit 130 to supply power to the car navigation system, do. The power outlet 140 receives the ACC power when the vehicle is in operation, and the power supply when the vehicle is in the sleep mode through the switching unit 130. The power outlet 140 can be implemented not only as a cigar jack but also at a plurality of positions in the vehicle.

The battery sensor 120 is installed to be interlocked with the vehicle battery, measures the voltage level of the battery and simultaneously measures the current output from the vehicle battery. In particular, the battery sensor 120 is capable of measuring the voltage and current of the vehicle battery at all times, and is also driven by a control signal input from the control unit 110 when the vehicle enters the sleep mode, It is also possible to measure the voltage and current of the vehicle battery.

The switching unit 130 is implemented as a latch relay switch, a semiconductor switching device, or the like, and switches the power output to the power outlet 140 according to a switching control signal input from the controller 110. Specifically, the switching unit 130 supplies the ACC power to the power outlet 140 while the vehicle is in operation. When the vehicle is stopped and enters the sleep mode, the switching unit 130 is switched by the switching control signal of the control unit 110, And supplies the power to the power outlet 140. When the operation of the vehicle is resumed, the switching control signal is received again to supply the ACC power to the power outlet 140.

The outlet sensor 150 is connected to each power outlet 140 and measures whether the electronic device is overloaded, disconnected, and the dark current output to the electronic device, and outputs the measured dark current to the control unit 110. The outlet sensor 150 may continuously perform measurement as in the case of the battery sensor 120. When the vehicle enters the sleep mode, the outlet sensor 150 is driven by a control signal input from the control unit 110, It is also possible to measure the dark current and overload and disconnection of the power outlet 140 alone.

The control unit 110 receives sensor measurement values from the battery sensor 120 and the outlet sensor 150 and outputs a switching control signal to the switching unit 130 so as to switch the power supplied to the power outlet 140 If there is a risk of discharge of the vehicle, the power supply to the power outlet 140 is cut off to prevent the discharge of the vehicle.

The control unit 110 outputs a control signal to the switching unit 130 during the operation of the vehicle so that the switching unit 130 switches the ACC power to the power outlet 140 .

Thereafter, in order to supply power to the external electronic device for power supply, which is always supplied with power, such as a vehicle black box connected to the power outlet 140, when the vehicle is stopped and the vehicle enters the sleep mode, The control unit 130 outputs a switching control signal to switch the power source connected to the power outlet 140 from the ACC power source to the constant power source B +. In this way, even when the vehicle enters the sleep mode, the external electronic device for the vehicle receives the power supply at all times, so that the vehicle black box can record a situation in which the vehicle is generated even while the vehicle is parked.

The control unit 110 drives the battery sensor 120 and the outlet sensor 150 to receive the battery voltage level measured by the battery sensor 120 and the dark current output from the battery, Information about whether the dark current outputted from the power outlet 140 to which the outlet sensor 150 is connected and whether the vehicle external electronic device connected to the power outlet 140 is overloaded or the power outlet 140 is disconnected or short- Receive.

The controller 110 controls the voltage level of the current vehicle input from the battery sensor 120 and the amount of current output from each power outlet 140 input from the outlet sensor 150, And outputs the dark current information about the time remaining until the battery discharge, which is expected when the vehicle is left as it is, to the user. In this case, the output method can be variously implemented. In the preferred embodiment of the present invention, the battery voltage, the output current of each power outlet 140, and the estimated vehicle battery discharge time are displayed in the cluster of the vehicle. It is also possible to output such information.

By outputting the dark current information such as the vehicle battery voltage drop and the output current and the battery discharge expected time due to the external electronic device connected to each power outlet 140 to the user, the user can set the power source It is possible to recognize the amount of consumption and prevent the vehicle discharge.

In this case, the control unit 110 may detect whether or not the user has boarded the vehicle by recognizing whether or not the door of the vehicle is open, recognizing whether the smart key is present inside the vehicle, And a method of recognizing a key-on signal generated as a result.

When the battery voltage measured by the battery sensor 120 falls below a predefined voltage level (hereinafter referred to as "reference voltage") level, the controller 110 controls the power supplied to the power outlet 140 to be a constant power To the ACC power supply to cut off the power supply to the external electronic device for the vehicle. When the vehicle is parked for a long period of time without the vehicle running, the battery of the vehicle is continuously consumed by the external electronic device of the vehicle, and if the vehicle is continuously left unattended, the vehicle battery is discharged. When the voltage level of the vehicle battery measured by the battery sensor 120 falls below the reference voltage level, the controller 110 outputs a switching control signal to the switching unit 130 so that the power outlet 140 is always turned on. The power supply is disconnected by connecting the power supply to the ACC power supply.

If the battery sensor 120 malfunctions or the battery sensor 120 and the control unit 110 are disconnected from each other, for example, a signal is not input from the battery sensor 120, When the measured value of the battery sensor 120 is not inputted to the control unit 110, the control unit 110 calculates the output current value of the battery 120 by using the output current value of the power outlet 140 input from the outlet sensor 150, Estimates the voltage level of the current battery by estimating the voltage drop of the vehicle battery according to the estimated voltage level of the vehicle battery and outputs the switching control signal to the switching unit 130 when the estimated battery voltage level falls below the reference voltage level, The power supply is cut off by connecting the constant power source to the ACC power source.

The apparatus for outputting the dark current information by the vehicle external electronic device according to the preferred embodiment of the present invention has been described.

Hereinafter, a method of outputting dark current information by a vehicle external electronic device according to a preferred embodiment of the present invention will be described with reference to FIG. 2 illustrating a method of outputting dark current information by a vehicle external electronic device according to a preferred embodiment of the present invention .

First, the control unit 110 checks whether the vehicle state is switched from the sleep mode to the sleep mode (S211). When the mode is switched to the sleep mode, the control unit 110 outputs a switching control signal to the switching unit 130. The switching unit 130 outputs a switching control signal (B +) to the constant power source B + (S213).

Thereafter, the control unit 110 drives the battery sensor 120 and the outlet sensor 150 (S215). In the preferred embodiment of the present invention, the battery sensor 120 and the outlet sensor 150 are driven after the vehicle is switched to the sleep mode. However, the battery sensor 120 and the outlet sensor 150 may be continuously driven to continuously output the measured values to the control unit 110 Of course it is.

Meanwhile, the control unit 110 checks whether the driven battery sensor 120 is operating normally, and proceeds to step S230 when the normal operation is performed and to step S241 when the abnormal operation is performed (S220).

When the battery sensor 120 operates normally, the controller 110 compares the battery voltage measured value input from the battery sensor 120 with a reference voltage to determine whether the measured voltage is lower than a reference voltage (S230).

If the measured battery voltage is not lower than the reference voltage, the control unit 110 checks whether or not the user has boarded the vehicle. If the user does not ride the vehicle, the control unit 110 repeats the process of step S220 to compare the measured voltage with the reference voltage (S250). If the user is boarding, the process proceeds to step S280. In step S280, the current battery measurement voltage value and the current value and estimated discharge time output through each power outlet 140 input from the outlet sensor 150 Is output to the user through a cluster or the like of the vehicle (S280).

If the battery sensor 120 does not normally operate (including a case where a disconnection occurs between the battery sensor 120 and the control unit 110), the control unit 110 determines that the outlet The vehicle battery voltage value is estimated using the output current value of the power outlet 140 input from the sensor 150 (S241), and the estimated battery voltage value is compared with the reference voltage to check whether the estimated voltage is equal to or lower than the reference voltage (S243). If the estimated voltage is not equal to or lower than the reference voltage, the process proceeds to step S250 to check whether or not the user has boarded the vehicle (S250), and outputs information similar to the step S280, Repeat the comparison of the voltage and the reference voltage.

On the other hand, if the measured voltage of the battery sensor 120 is lower than the reference voltage or the estimated battery voltage is lower than the reference voltage in the above-described step S230, A switching control signal is output to the switching unit 130 to turn off the power supply to the power outlet 140 by switching the power source connected to the power outlet 140 from the constant power source to the ACC power source in step S260. In this way, only when the battery voltage drops below the reference voltage, the power supply to the external electronic device for the vehicle is cut off, so that the functions according to the installation purpose of the external electronic device for the vehicle such as the black box can be performed to the maximum, .

When the user turns on the vehicle power supply again to the ACC power supply (S270), the controller 110 sets the current battery measurement voltage value (or the estimated voltage value) and the outlet sensor 150 And outputs a dark current information such as a current value and a predicted discharge time output through each power outlet 140 input from the power supply outlet 140 to a user through a cluster of the vehicle or the like (S280).

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

110: control unit 120: battery sensor
130: switching part 140: power outlet
150: Outlet sensor

Claims (10)

A normal power switching step of switching the power supplied to one or more power outlets from the ACC power supply to the constant power supply when the state of the vehicle is switched to the sleep mode;
A measurement step of measuring a voltage level of the battery and a current output to the at least one power outlet using a battery sensor connected to the battery; And
And outputting to the user a measured battery voltage level and a current output to the one or more power outlets when the user is boarded in the vehicle. 2. The method of claim 1, further comprising:
Further comprising an ACC power supply switching step of switching the power supplied from the one or more power supply outlets from the constant power supply to the ACC power supply when the measured battery voltage level falls below a predefined voltage level Method of outputting dark current information by. 3. The method of claim 2,
The measuring step may further include measuring whether an electronic device connected to the power outlet is overloaded, disconnected, and a dark current output to the electronic device using an outlet sensor connected to the at least one power outlet,
In the ACC power switching step, when a malfunction of the battery sensor occurs, a voltage of the battery is estimated using a measured value input from the outlet sensor, and when the voltage level of the estimated battery falls below a predefined voltage level , And the power supplied from the at least one power outlet is switched from the constant power source to the ACC power source. 4. The method of claim 3, wherein the outputting step
Wherein the display means displays a battery voltage level, a current level output to each of the one or more power outlets, and a remaining time until the vehicle is discharged through a cluster of the vehicle. 3. The method of claim 2,
The method comprising: recognizing a door opening of a vehicle, a smart key recognition, and a key on signal so as to detect whether or not the user is boarding the vehicle.
One or more power outlets to which external electronic devices are connected;
A switching unit for connecting the power outlet to an ACC power supply or a constant power supply according to a switching control signal;
A battery sensor for measuring a battery voltage and an output current output to the power outlet when the power source is connected to the power outlet; And
And a control unit for outputting the switching control signal to switch the power source connected to the power outlet from the ACC power source to the constant power source when the state of the vehicle is switched to the sleep mode and outputting the battery voltage and the output current to the user when the user is boarded And a dark current information output device for outputting dark current information by an external device for a vehicle. 7. The apparatus of claim 6, wherein the control unit
Wherein when the battery voltage measured by the battery sensor falls below a predefined voltage level, the power supplied from the power outlet is switched from the constant power source to the ACC power source. 8. The method of claim 7,
Further comprising an outlet sensor connected to the power outlet and measuring an overload of the electronic equipment connected to the power outlet, whether the unit is disconnected and a dark current output to the electronic equipment,
The control unit estimates a voltage of the battery using a measurement value input from the outlet sensor when a malfunction of the battery sensor occurs and if the voltage level of the estimated battery falls below a predefined voltage level, And the power supplied from the power outlet is switched from the constant power source to the ACC power source. 9. The apparatus of claim 8, wherein the control unit
Wherein a battery voltage level, a current level output to each of the one or more power outlets, and a time remaining until a vehicle is discharged are displayed to the user through a cluster of the vehicle. 8. The apparatus of claim 7, wherein the control unit
A smart key recognition, and a key on signal to detect whether or not the user is boarding the vehicle.

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