KR20190020478A - Apparatus for Protecting Device, Protecting System and Method Comprising the same - Google Patents

Abstract

The present invention relates to a device for protecting an apparatus and a protection system and method including the same. The device for protecting an apparatus comprises: a voltage detection unit detecting voltage which is outputted from a power supply device and is applied to an apparatus through a power supply line; a current detection unit detecting current flowing in the apparatus through the power supply line; and a control unit notifying a danger occurrence and controlling power supply outputted from the power supply device to be blocked, if a level of the detected voltage or current is out of a normal action range during a predetermined time. According to the present invention, the apparatus can be protected before the apparatus is damaged when an abnormal state such as the noise, surge, overvoltage, overcurrent or the like occurs by checking a change amount of the voltage or the current outputted from the power supply device.

Description

Technical Field [0001] The present invention relates to a device protection device, a protection system including the device protection device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device protection device, a protection system and method including the device protection device, and more particularly to a device protection device capable of protecting the device from external impact such as noise, surge, overvoltage, ≪ / RTI >

In recent years, as the number of single-person households has increased, electronic devices such as household appliances have been gradually miniaturized, thereby increasing the demand for electronic devices that meet the requirements of low power consumption or quantification. In such an electronic apparatus, a driving unit for applying pulses to a plurality of electrodes is formed. In order to operate such a driving unit, the power supply unit supplies power to the driving unit. At this time, a switching mode power supply (SMPS) or the like is generally used as a power supply device of an electronic apparatus. Here, the switching mode power supply is a device that converts a direct current voltage into a sinusoidal voltage using a switch element such as a metal-oxide-semiconductor field effect transistor (MOSFET), and outputs a direct current voltage of a desired level using a converter .

On the other hand, electronic devices are often caused by external factors such as noise, surge, overvoltage, or overcurrent due to various external factors. In order to protect electronic devices from such external factors, excessive voltage Or an electric current is applied, and when an excessive voltage or current is applied, the temperature rise is blocked through the poly switch or a fuse is applied to protect the electronic device.

However, since the poly switch or the fuse responds to strong noises such as a surge or an impulse at a low speed, there is a problem that the power is shut off after the internal circuit of the electronic device receives the impact. In the worst case, there is a problem that the power source is cut off after the electronic device is already burned down.

In addition, when the fuse or the like is operated once, there is a problem that it is not possible to notify a remote place outside the dangerous situation as well as a new replacement part.

Korean Registered Patent No. 10-0291447 (registered on March 12, 2001)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a method and apparatus for protecting a device before a device is damaged by preliminarily recognizing an external impact such as noise, surge, overvoltage or overcurrent through a change amount of a voltage or a current, And to provide a protection system and method including the same.

Further, the present invention includes other objects that can be achieved from the construction of the present invention described later, in addition to the objects explicitly mentioned.

According to an aspect of the present invention, there is provided a device protection apparatus comprising: a voltage detection unit that detects a voltage that is output from a power supply device and that is applied to the device through a power supply line; And a control unit for notifying the occurrence of a danger when the level of the sensed voltage or the level of the current is out of the normal operation range for a predetermined time and controlling the power outputted from the power supply unit to be cut off, .

The controller may set the normal operation range by collecting the level of the voltage or the level of the current for a predetermined time at boot time.

The normal operating range may be set using a value obtained by averaging the level of the collected voltage or the level of the current.

The control unit controls the power source to be applied again after a predetermined time elapses after the power source is turned off. When the level of the voltage or the current level of the power source is out of the normal operation range, Can be controlled to be continuously blocked.

The controller may notify the occurrence of the hazard whenever the level of the sensed voltage or the level of the current out of the normal operation range.

Meanwhile, a protection system according to an embodiment of the present invention is installed for each of a plurality of devices, and detects a voltage applied to the device and a current flowing to the device, A plurality of device protection devices for collecting and transmitting the level of the current and for informing the occurrence of a hazard and outputting the power from the power supply device when the level of the transmitted voltage or the level of the current is out of the normal operation range for a predetermined time, And the protection control device is controlled so as to be cut off.

The device protection device includes a voltage detection unit that detects a voltage that is output from the power supply device and that is applied to the device through a power supply line, a current sensing unit that senses a current flowing to the device through the power supply line, Level or the level of the current, respectively, and transmits the collected level to the protection control apparatus.

The normal operating range may be set using a value obtained by averaging the level of the voltage or the level of the current collected during a predetermined time at boot time.

The protection control unit controls the power supply to be applied again after a predetermined time elapses after the power supply is turned off. If the level of the voltage or the level of the current is out of the normal operation range in a state where the power supply is applied, The power can be controlled to be continuously interrupted.

The protection control apparatus may notify the occurrence of the hazard whenever the level of the sensed voltage or the level of the current out of the normal operation range.

According to another aspect of the present invention, there is provided a method of protecting a power supply apparatus, the method comprising: detecting a level of a voltage that is output from a power supply unit at a booting time and is applied to the apparatus through a power supply line or a level of a current flowing to the apparatus through the power supply line, Detecting a level of the voltage or a level of the current, and when the level of the sensed voltage or the level of the current is out of the normal operation range for a predetermined time, And disconnecting the power output from the power supply unit and notifying the occurrence of the danger.

The normal operating range may be set using a value obtained by averaging the level of the collected voltage or the level of the current.

When the voltage level or the current level is out of the normal operation range in a state where the power source is applied and the power source is turned off when the power source is turned off, The method comprising the steps of:

As described above, according to the apparatus protection apparatus, the protection system including the apparatus, and the method of protecting the apparatus according to the embodiment of the present invention, the external shock such as noise, surge, overvoltage, It is possible to protect the device before the device breaks down.

In other words, when a device protection device is installed between a power supply device and a device and insulation breaks down due to overvoltage, overcurrent, or short circuit, or strong noise such as surge or impulse is introduced, It is advantageous in that it is possible to effectively protect the device from external impact by grasping in advance.

And there is an advantage that a fire (burnout) ignition point can be generated due to noise inflow or a situation in which insulation can be destroyed due to a short circuit or the like.

Moreover, it is possible to notify an external remote site of a dangerous situation, and it is possible to reduce the occurrence of defects by detecting the inflow path through the accurate voltage or current log.

On the other hand, the effects of the present invention are not limited to those described above, and other effects that can be derived from the constitution of the present invention described below are also included in the effects of the present invention.

1 is a block diagram of a device protecting apparatus according to an embodiment of the present invention.
FIG. 2 is a view for explaining an operation of a device protection apparatus according to an embodiment of the present invention.
3 is a block diagram of a protection system according to an embodiment of the present invention.
4 is a flowchart illustrating an apparatus protection process according to an exemplary embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

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

1, the device protecting apparatus 100 includes a voltage sensing unit 120, a current sensing unit 140, and a controller 160. The voltage sensing unit 120 includes a voltage sensing unit 120, a current sensing unit 140,

Here, the power supply apparatus 10 uses a switching mode power supply (SMPS) method, and the switching mode power supply as described above uses a switching element such as a metal-oxide-semiconductor field effect transistor Converts a DC power source into a sinusoidal power source, and outputs a DC power of a desired level using a converter.

The voltage sensing unit 120 may sense a voltage output from the power supply unit 10 and applied to the device 50 through the power supply line 12. [

The voltage sensing unit 120 may include a power voltage ADCs (Analog-to-Digital Converters) to convert the analog voltage level into a digital form and transmit the digital voltage level to the controller 160. In this way, the voltage level is divided into bits (for example, 0000 0000 to 1111 1111, 0x00h to 0xFFh) so that the voltage state can be detected in real time.

The current sensing unit 140 may sense a current flowing to the device 50 through the power line 12. [ The current sensing unit 140 may sense a current flowing to the device 50 by measuring a voltage applied between the loads.

The control unit 160 controls the device protection device 100 as a whole and notifies the occurrence of a danger when the level of the sensed voltage or the level of the current is out of the normal operation range for a predetermined time, So that the power source is shut off.

More specifically, when the level of the voltage sensed by the voltage sensing unit 120 or the level of the current sensed by the current sensing unit 140 exceeds the maximum or minimum of the normal operating range for a predetermined time, The power can be cut off for a certain period of time. Here, the control unit 160 may transmit a control signal to the power supply unit 10 to turn off a switch element of the power supply unit 10, thereby preventing the power supply unit 10 from outputting power.

The controller 160 can collect the level of the voltage or the current for a predetermined time during booting to determine the normal operation range before determining the change of the state of the voltage or the current. The normal operating range can be set using the level of the collected voltage or the average of the levels of the current.

For example, the control unit 160 records a value obtained by averaging the difference between the (+) voltage and the (-) voltage for 10 seconds in the state where the initial current after booting is applied and sets the range of +/- 10% . That is, the controller 160 may collect a voltage level or a voltage level applied for a predetermined time after booting and calculate an average voltage value or an average current value obtained by averaging the collected voltage level or voltage level. A certain range (± a%) can be set as the normal operating range from the calculated average voltage value or average current value.

Accordingly, when the voltage or current is detected to be higher than the average voltage value or the average current value by checking the change of the voltage or current due to the external impact, the controller 160 grasps the occurrence of the risk element in advance, If the normal operation range is out of a predetermined time, the power can be forcibly shut off.

The control unit 160 may notify the occurrence of the risk so that the equipment can be checked for the dangerous elements. At this time, the controller 160 can notify the occurrence of the danger whenever the level of the sensed voltage or the level of the current out of the normal operation range. If the time out of the normal operation range is momentary, Can notify.

If the controller 160 recognizes the overvoltage or the overcurrent at the same time when the power is turned off for a certain period of time, the controller 160 maintains the cutoff state and notifies the controller 160

More specifically, the controller 160 controls the power supply to be applied again after a predetermined time elapses after the power supply is turned off. If the level of the voltage or the level of the current is out of the normal operation range in a state where the power supply is applied, Can be controlled to be continuously blocked. For example, if the normal operating range is assumed to be about 450 mA, and the maximum current is set to 500 mA, the risk may be notified when the maximum current range is exceeded, and the power supply may be forcibly shut off when the applied current is out of the danger range for more than 2 seconds .

FIG. 2 is a view for explaining an operation of a device protecting apparatus according to an embodiment of the present invention.

Referring to FIG. 2, booting is started in a period F1 and a current can be applied. The normal operation range can be set by collecting the voltage level or the current level during the F2 period in which the initial current is applied. Next, if the level of the sensed voltage or the level of the current is instantaneously out of the normal operation range (P) by sensing the voltage level or the current level as in the F3 period, the occurrence of the danger can be notified.

Then, when the level of the sensed voltage or the level of the current is out of the normal operation range for a predetermined time, as in the F4 period, the power output from the power supply device 10 may be cut off. Accordingly, the current becomes 0 for a predetermined time after the F4 section.

3 is a block diagram of a protection system according to an embodiment of the present invention.

As shown in FIG. 3, the protection system 1 includes a plurality of device protection devices 100 and a protection control device 200.

The plurality of apparatus protecting apparatuses 100 are installed for each of the plurality of apparatuses 50. The plurality of apparatus protecting apparatuses 100 detect the voltage that is output from the power source apparatus 10 and applied to the apparatus 50 and the current flowing to the apparatus 50, The level of voltage or the level of current can be collected and transmitted.

For this purpose, each device protection apparatus 100 may include a voltage sensing unit 120, a current sensing unit 140, and a controller 160.

The voltage sensing unit 120 may sense a voltage output from the power supply unit 10 and applied to the device 50 through the power supply line 12. [

The voltage sensing unit 120 may include a power voltage ADCs (Analog-to-Digital Converters) to convert the analog voltage level into a digital form and transmit the digital voltage level to the controller 160. In this way, the voltage level is divided into bits (for example, 0000 0000 to 1111 1111, 0x00h to 0xFFh) so that the voltage state can be detected in real time.

The current sensing unit 140 may sense a current flowing to the device 50 through the power line 12. [ The current sensing unit 140 may sense a current flowing to the device 50 by measuring a voltage applied between the loads.

The control unit 160 may collect the level of the detected voltage or the level of the current, respectively, and transmit the collected level to the protection controller 200.

The protection control device 200 determines whether the voltage level or the current level transmitted from the plurality of controllers 160 is out of the normal operation range for a predetermined time, So that the power output from the apparatus 10 can be controlled to be cut off.

More specifically, when the level or current level of the voltage transmitted from the plurality of control units 160 exceeds the maximum or minimum value of the normal operation range for a predetermined time, the protection control apparatus 200 responds to the control unit 160 The power source of the power source device 10 can be cut off for a predetermined period of time. Here, the protection control apparatus 200 may transmit a control signal to the power supply apparatus 10 to turn off the switch element of the power supply apparatus 10, thereby preventing the power supply apparatus 10 from outputting power.

The protection control device 200 can collect the level of the voltage or the current for a predetermined time during booting to determine the normal operation range before judging the change of the state of the voltage or the current. The normal operating range can be set using the level of the collected voltage or the average of the levels of the current.

For example, the protection controller 200 records a value obtained by averaging the difference between the (+) voltage and the (-) voltage for 10 seconds under the condition that the initial current is applied after booting, and sets the range of +/- 10% It can be set to the operating range. That is, the protection control apparatus 200 may collect the voltage level or the voltage level applied for a predetermined time after booting and calculate the average voltage value or the average current value obtained by averaging the collected voltage level or voltage level. A certain range (± a%) can be set as the normal operating range from the calculated average voltage value or average current value.

Accordingly, the protection control device 200 checks the change of the voltage or current due to the external impact, and when the voltage or current is detected to be higher than the average voltage value or the average current value, And notifies the occurrence of a danger, and when the normal operation range is out of a predetermined time, the power can be forcibly cut off.

At this time, since a plurality of devices 50 are provided, a corresponding normal operating range may be a plurality of devices.

In the embodiment of the present invention, the normal operation range is set in the protection controller 200. However, after the normal operation range is set in the controller 160, information on the normal operation range is transmitted to the protection controller 200 ). ≪ / RTI >

The protection control device 200 can notify the risk occurrence notification so that the device can be checked for the dangerous element. At this time, the protection controller 200 can notify the occurrence of the danger whenever the level of the transmitted voltage or the level of the current is out of the normal operation range. If the time out of the normal operation range is momentary, Only the occurrence can be notified.

If the protection control device 200 is recognized as overvoltage or overcurrent when the power is turned off for a certain period of time and then the power is again applied, the protection control device 200 maintains the cutoff state and notifies the device have

More specifically, when the level of the transferred voltage or the level of the current is outside the normal operation range for a predetermined time, the protection control device 200 controls the power supply to be cut off, The power source of the power source device 10 can be controlled to be continuously cut off when the level or the current level of the power source device 10 is out of the normal operation range. For example, if the normal operating range is assumed to be about 450 mA, and the maximum current is set to 500 mA, the risk may be notified when the maximum current range is exceeded, and the power supply may be forcibly shut off when the applied current is out of the danger range for more than 2 seconds .

When a plurality of devices 50 are to be protected as described above, a plurality of device protection devices 100 provided in each device 50 are managed by one protection control device 200, And can be efficiently managed.

Hereinafter, a device protection method according to an embodiment of the present invention will be described.

4 is a flowchart illustrating an operation of protecting a device according to an embodiment of the present invention.

Referring to FIG. 4, when booting is performed (S400) and booting is performed (S400-Y), a boot level is determined by comparing the level of a voltage output from the power supply at boot time and applied to the device through the power supply line, The level of the flowing current may be collected for a predetermined time to set a normal operation range (S410).

Here, the normal operating range can be set using the level of the collected voltage or the average of the levels of the current.

For example, a value obtained by averaging the difference between the (+) voltage and the (-) voltage for 10 seconds while the initial current after booting is applied can be recorded and a range of ± 10% from the recorded average value can be set to the normal operation range. I.e., a voltage level or a voltage level applied for a predetermined time after booting, and calculate an average voltage value or an average current value obtained by averaging the collected voltage level or voltage level. A certain range (± a%) can be set as the normal operating range from the calculated average voltage value or average current value.

Next, the level of the voltage or the level of the current may be sensed (S420), and the level of the sensed voltage or the level of the current may be determined to be out of the normal operation range for a predetermined time (S430).

If the level of the sensed voltage or the level of the current is out of the normal operation range for a predetermined time (S430-Y), the power output from the power supply is cut off (S440) ).

More specifically, when the level of the voltage sensed by the voltage sensing unit or the level of the current sensed by the current sensing unit deviates from a maximum value or a minimum value of the normal operation range for a predetermined time, the control unit may interrupt the power supply for a predetermined period of time . Here, the control unit may transmit a control signal to the power supply unit to turn off a switch element included in the power supply unit, thereby preventing power from being output from the power supply unit.

On the other hand, if the level of the sensed voltage or the level of the current does not exceed the normal operation range for a predetermined time (S430-N), it is determined whether the level of the sensed voltage or the current level is momentarily out of the normal operation range ) Only risk occurrence can be notified.

That is, the risk occurrence can be notified whenever the voltage level or the current level out of the normal operation range. If the time out of the normal operation range is momentary, only the risk occurrence can be notified without turning off the power.

Also, if the power is cut off for a certain period of time and then recognized as an overvoltage or overcurrent at the same time when the power is again applied, the shutoff state can be maintained, and notification can be made

More specifically, if the level of the voltage or the level of the current deviates from the normal operation range for a predetermined period of time, the power supply is shut off. If the voltage level or the current level is normal If out of range, the power supply can be shut off continuously.

Embodiments of the present invention include a computer-readable medium having program instructions for performing various computer-implemented operations. The medium records a program for executing the above-described protection method. The medium may include program instructions, data files, data structures, etc., alone or in combination. Examples of such media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD and DVD, programmed instructions such as floptical disk and magneto-optical media, ROM, RAM, And a hardware device configured to store and execute the program. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

1: Protection system
100: Device protection device
120:
140:
160:
200: Protection control device

Claims (13)

A voltage sensing unit for sensing a voltage output from the power supply unit and applied to the device through the power supply line,
A current sensing unit for sensing a current flowing to the device through the power line,
A control unit for notifying the occurrence of a danger and controlling the power output from the power supply unit to be cut off when the level of the detected voltage or the level of the current is out of a normal operation range for a predetermined time,
And the device protection device. The method of claim 1,
Wherein,
And collects the level of the voltage or the level of the current for a predetermined time at boot to set the normal operating range. 3. The method of claim 2,
The normal operating range includes,
And a value obtained by averaging the level of the collected voltage or the level of the current. 4. The method of claim 3,
Wherein,
And controlling the power supply to be applied again after a predetermined time elapses after the power supply is cut off. When the level of the voltage or the level of the current is out of the normal operation range while the power supply is applied, Device protection device. The method of claim 1,
Wherein,
And notifies a danger occurrence whenever the level of the sensed voltage or the level of the current out of the normal operation range. A plurality of device protection devices installed for each of a plurality of devices, each of which detects a voltage applied to the device and a current flowing to the device, collecting the level of the detected voltage or the level of the current, , And
And a protection control device for notifying the occurrence of a danger and controlling the power output from the power supply device to be cut off when the level of the transmitted voltage or the level of the current is out of the normal operation range for a predetermined time,
≪ / RTI > The method of claim 6,
The device protection device comprises:
A voltage sensing unit for sensing a voltage output from the power supply unit and applied to the device through a power supply line,
A current sensing unit for sensing a current flowing to the device through the power line,
And collecting the level of the detected voltage or the level of the current, respectively, and transmitting the collected level to the protection control apparatus. 8. The method of claim 7,
The normal operating range includes,
And a value obtained by averaging a level of the voltage or a level of the current collected during a predetermined time at boot. 9. The method of claim 8,
The protection control device includes:
And controlling the power supply to be applied again after a predetermined time elapses after the power supply is cut off. When the level of the voltage or the level of the current is out of the normal operation range while the power supply is applied, So as to control the protection system. The method of claim 6,
The protection control device includes:
And notifies a risk occurrence whenever the level of the sensed voltage or the level of the current out of the normal operating range. Setting a normal operation range by collecting, during a predetermined time, the level of a voltage output from the power supply at boot time and a level of a voltage applied to the device through the power supply line or a current flowing to the device through the power supply line,
Sensing a level of the voltage or a level of the current, and
When the level of the sensed voltage or the level of the current is out of the normal operation range for a predetermined time, the power supply output from the power supply unit is cut off and the risk occurrence is notified
≪ / RTI > 12. The method of claim 11,
The normal operating range includes,
And a value obtained by averaging the level of the collected voltage or the level of the current. 12. The method of claim 11,
A step of applying power again after a predetermined time elapses after the power source is shut off, and
Further comprising the step of: continuing to cut off the power when the level of the voltage or the level of the current is out of the normal operating range while the power is being applied.

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