KR20190007176A - High frequency output control apparatus of high frequency electrical treatment equipment and high frequency output control method of high frequency electrical treatment equipment - Google Patents

Abstract

The present invention relates to a high frequency output control apparatus of a high frequency stimulation treatment apparatus and a high frequency output control method using the same. It is possible to check whether current flow is continuous in the current signal of a current flowing in skin to apply a high frequency electric signal, to control the output intensity of an high frequency outputted through a handpiece by the continuity of the current flow and easily control the intensity of the high frequency outputted from a high frequency transmission apparatus by using the high frequency transmission apparatus during a procedure to increasing convenience, to control the output intensity of the high frequency outputted from the high frequency transmission apparatus while concentrating on an operation with user′s eyes fixed to a patient and an affected part during the procedure to prevent an accident due to an error in the procedure, and to greatly improve a surgical effect and safety in the procedure. The high frequency output control apparatus further includes a ground part.

Description

TECHNICAL FIELD [0001] The present invention relates to a high-frequency output control apparatus and a high-frequency output control apparatus using the same, and more particularly, to a high-frequency output control apparatus and a high-

The present invention relates to a high-frequency output control apparatus for a high-frequency stimulation therapy apparatus and an output control method using the same, and more particularly to a high-frequency output control apparatus for a high- And a high frequency output control method using the same.

In general, high-frequency current generally refers to an alternating current of 100,000 Hz or more. The oscillation width is short, and therefore, there is no electrochemical reaction or electrolysis, and the oscillatory current energy is converted into heat energy only in a predetermined path.

Especially, the high frequency current causes very little ion motion and does not cause electrochemical reaction or electrolysis because the vibration width is very short when the body tissue is energized. When high-frequency electrical energy is applied to tissue, molecules of the tissue vibrate and rub against each other whenever the direction of current changes, generating biothermal heat. In addition, these high frequencies do not stimulate the sensory nerve and motor nerve unlike other current types, do not cause discomfort or contraction in the human body, can generate heat energy, and this heat energy also enhances the function of the cells An additional effect of increasing blood flow can be induced.

Therefore, the high-frequency treatment apparatus is used for various treatments such as skin regeneration, lifting, suppression of secretion of melanin pigment or treatment of obesity, skin care, hair stimulation or pain relief by using high-frequency current.

A conventional high frequency treatment apparatus includes a handpiece having a high frequency electrode to which a high frequency current is applied in contact with a treatment region of the skin, a high frequency generator for supplying a high frequency current to the handpiece, And a main body having an operation control unit, wherein the handpiece is configured to be electrically connected to the main body by a cable or the like.

That is, in the conventional high frequency treatment apparatus, a high-frequency electrode is provided on the lower surface of the handpiece, and a high-frequency current is applied to the treatment region of the skin in a state in which a practitioner holds the handpiece and the high- .

During the operation with the high frequency treatment device, the operator should apply appropriate output level and treatment time according to the treatment area and condition of the patient by presetting operation switch provided in the main body and applying it to the affected part. The operation switch is usually implemented on the screen of the touch screen panel, and the operator touches the screen of the touch screen panel to input an appropriate output level and treatment time according to the treatment area and condition of the patient.

However, even if the appropriate output level and the treatment time are input in advance according to the treatment site and condition of the patient, the output of the high frequency may have to be adjusted depending on the treatment state and the skin condition of the patient during the procedure.

The practitioner has to handle the screen of the touch screen panel provided in the main body in order to control the output of the high frequency wave.

Particularly, during the procedure, the practitioner uses both hands, and it is very inconvenient that the operator touches the screen of the touch screen panel during the procedure according to the distance between the main body and the patient to adjust the output of the high frequency.

In order to control the output of the high-frequency power during the procedure, the operator must turn the eyes to the main body of the patient or the affected part in order to touch the screen of the touch screen panel of the main body. At this time, since the patient and the affected part are out of sight, There is a danger of causing malfunction of the handpiece.

Therefore, there is a risk that an unnecessary electrical stimulation is applied to a portion that is not the affected part during the procedure, or an accident such as a burn on the patient's skin is caused by malfunction of the handpiece

Korean Patent No. 10-1173135 (Name: High Frequency Treatment System with Safety Function and Operation Method) (2012.08.16 Announcement)

An object of the present invention is to provide a high-frequency output control apparatus and a high-frequency output control method using the same that improve the input method so that a practitioner can easily control a high-frequency output during a procedure.

In order to achieve the above object, a high-frequency output control apparatus of a high-frequency stimulation apparatus according to the present invention includes a high-frequency transmission device for transmitting a high-frequency current to a patient with a high- Comprising: a main body portion having a high frequency generating portion for supplying a high frequency current to a transmitting device and a high frequency operation controlling portion for controlling the operation of the high frequency generating portion; a grounding portion disposed opposite to the high frequency transmitting device with a treatment portion interposed therebetween; A high-frequency output control device for a high-frequency stimulation therapy apparatus for controlling an output of a high-frequency signal output from a high-frequency transmission device through an apparatus, the high-frequency operation control section sensing whether continuity of a current flowing between the body section, And whether the continuity of current flow Characterized in that for adjusting the output intensity of the high frequency output through the wave transmission unit.

In the present invention, the main body further includes a current sensing sensor for sensing a flow of current flowing into the skin through the high-frequency transmission device and transmitting the sensed current to the high-frequency operation control unit, wherein the high- The continuity of the flow of current sensed by the sensor can increase or decrease the output intensity of the high frequency.

In the present invention, the high-frequency operation control unit may increase or decrease the output intensity of the high-frequency wave by the number of times that the current is flowing during a predetermined period of time while the flow of the current sensed by the current sensing sensor is received.

In the present invention, the main body may further include a signal converter for converting the flow of the current sensed by the current sensor into a digital signal, and a signal corrector for correcting the digital signal converted by the signal converter and transmitting the corrected digital signal to the high frequency operation controller can do.

In the present invention, the signal correcting unit checks the current flow through the voltage level change according to the change of the time, and determines the maximum level reference line that can determine that the current flows and the minimum level reference line that can determine that the current flow is broken And the maximum level reference line is set to a voltage level that is lower than a maximum voltage value of the current signal converted into the digital signal by a predetermined magnitude, and the minimum level reference line May be set to a voltage level which is higher than the minimum voltage value of the current signal converted into the digital signal by a predetermined amount.

In the present invention, the high frequency operation control unit increases the output intensity of the high frequency by one level when the number of times of the current interruption in the current signal corrected by the signal correction unit is a predetermined first reference number, The output intensity of the high frequency can be lowered by one level when the number of times of occurrence of the interruption is the second predetermined reference frequency.

In order to accomplish the above object, an embodiment of a method of controlling a high-frequency output of a high-frequency stimulation apparatus according to the present invention is a method of controlling a high-frequency output of a high- A method for controlling a high frequency output of a high frequency stimulation therapy apparatus for heating a high frequency electric stimulation apparatus comprising: a current change sensing step of confirming continuity of a current flow in a current signal of a current flowing in the skin for applying a high frequency electric signal; And an output intensity adjusting step of adjusting an output intensity of the high frequency output through the handpiece based on continuity of the current flow if the continuity of the current flow is confirmed in the current change sensing step.

In the present invention, the current change sensing step senses a current interruption in the current signal of the current flowing through the skin, and the output intensity adjustment step may include a step of detecting a current change in the current change sensing step, Counting the number of times the current is cut off in the detected current signal, and adjusting the output intensity of the high frequency according to the number of times the counted current is cut off.

In the present invention, the output intensity adjusting step may include converting the current signal detected during the process of detecting the current signal and counting the number of times of the current interruption into a digital signal, and correcting the current signal converted into the digital signal Process.

In the process of correcting the current signal according to the present invention, the flow of the current is checked through the change of the voltage level according to the change of the time, and the maximum level reference line, which can determine that the current flows, A maximum level reference line is set to a voltage level lower by a predetermined magnitude than a maximum voltage value of the current signal converted into a digital signal, The minimum level reference line may be set to a voltage level that is higher than the minimum voltage value of the current signal converted into the digital signal by a predetermined amount.

According to an embodiment of the present invention, the step of counting the number of times of the current interruption may include the steps of: determining whether the number of current interruptions is equal to a first reference number, Wherein the step of controlling the output intensity of the high frequency includes determining whether the number of times of the current interruption is greater than the first reference frequency, A process of increasing the output intensity of the high frequency by one level in the case of the reference frequency, and a process of lowering the output intensity of the high frequency by one level when the frequency of occurrence of the current interruption is the predetermined second reference frequency.

The present invention can easily control the output intensity of a high frequency output from a high-frequency transmission device by using a high-frequency transmission device during a procedure, thereby increasing the convenience of operation during a procedure.

The present invention allows a practitioner to adjust the output intensity of a high frequency output from a high frequency transmission device while concentrating on the operation while the eye is fixed to the patient and the affected part during the procedure, thereby preventing accidents caused by erroneous operation during the procedure, It has an effect of greatly improving safety at the time.

1 is a block diagram showing an embodiment of a high-frequency output control apparatus for a high-frequency stimulation apparatus according to the present invention.
2 is a flowchart showing an embodiment of a method of controlling a high-frequency output of a high-frequency stimulation apparatus according to the present invention.
3 is a graph showing an example of correcting a continuity change signal of a current in a high frequency output control apparatus of a high frequency stimulation therapy apparatus and a high frequency output control method using the same.

It should be understood that there may be various equivalents and variations that may be substituted for the high frequency output control device at the time.

FIG. 1 is a block diagram showing an embodiment of a high-frequency output control apparatus for a high-frequency stimulation apparatus according to the present invention.

Referring to FIG. 1, the high-frequency stimulation therapy apparatus includes a high-frequency transmission device 100 having a high-frequency electrode that is in contact with a treatment area of the skin, a high-frequency generation unit 210 that supplies a high-frequency current to the high- And a high frequency operation control unit 220 for controlling the operation of the high frequency generating unit 210.

The apparatus further includes a grounding part 300 disposed opposite to the high frequency transmission device 100 so that the treatment area of the patient is located between the grounding parts.

The high-frequency transmission device 100 includes a high-frequency electrode that is in contact with a treatment area of the skin to transmit a high-frequency current to a patient. The high-frequency transmission device 100 includes a handpiece, The present invention may be embodied in various forms without departing from the spirit and scope of the invention.

The grounding unit 300 is an example of a ground pad having a ground electrode panel and a treatment area of a subject to be treated is seated on the top.

The grounding unit 300 is disposed on the opposite side of the treatment unit to the high-frequency transmission device 100, that is, the handpiece, and transmits a high-frequency current to the subject through the operator. Enabling treatment with high frequency current.

The high frequency transmission device 100 includes a high frequency electrode for contacting the skin of the patient and allowing current to flow through the skin of the patient and the high frequency electrode includes at least two ceramic electrodes spaced to allow current to flow through the skin of the patient .

The high frequency transmission device 100, that is, the handpiece, causes current to flow through the patient's skin, that is, the affected part, only when the two ceramic electrodes are bi-directionally contacted to the patient's skin, thereby generating heat in the tissue.

A high frequency treatment apparatus includes a body 200 and a handpiece as a high frequency transmission device 100 and a known high frequency treatment apparatus including a ground unit 300 disposed to face the handpiece and connected to the body 200 The detailed description is omitted.

 Frequency output control apparatus of a high-frequency stimulation therapy apparatus for controlling the output of a high-frequency power output from the high-frequency transmission apparatus (100).

The high frequency operation control unit 220 can adjust the output intensity of the high frequency output from the high frequency transmission device 100 to the patient's skin.

The output intensity of the high frequency can be adjusted through the operation switch provided in the main body 200 by dividing the maximum output intensity and the minimum output intensity into a plurality of levels.

For example, the main body 200 is provided with an operation switch for inputting an appropriate high-frequency output level and a treatment time according to a treatment area and condition of the patient, and the main body 200 outputs an operation switch to a screen And the touch screen panel is implemented as an example.

The operation switch includes an intensity up switch for increasing the output intensity of the high frequency by one level and an intensity down switch for lowering the output intensity of the high frequency by one level.

It is noted that adjusting the high-frequency output intensity through the operation switch in the high-frequency operation control section 220 is well-known and will not be described in detail.

The high frequency operation controller 220 of the present invention not only controls the intensity of high frequency output through the operation switch provided in the main body 200 but also controls the intensity of the current flowing between the main body 200 and the high frequency transmitter 200, And the output intensity of the high frequency output through the high frequency transmission device 200 is controlled by continuity of the current flow.

The main body 200 further includes a current sensing sensor 230 for sensing the flow of current flowing through the high frequency transmission device 100 to the skin and delivering the sensed current to the high frequency operation controller 220.

The current sensing sensor 230 senses the flow of the current flowing to the skin through the high frequency transmission device 100 and transmits the continuity of the current flow to the high frequency operation control unit 220.

The high frequency operation control unit 220 increases or decreases the output intensity of the high frequency by continuity of the flow of the current sensed by the current sense sensor 230.

The high frequency operation control unit 220 may increase or decrease the output intensity of the high frequency by the number of times the current flows through the current for a predetermined period of time while the flow of the current sensed by the current sensor 230 is received .

The main body unit 200 includes a signal conversion unit 240 for converting the flow of the current sensed by the current sensing sensor into a digital signal, a signal correction unit 250 for correcting the digital signal converted by the signal conversion unit 240, As shown in FIG.

The signal correcting unit 250 corrects the digital signal changed by the signal converting unit 240 so that the operator can more accurately determine whether the continuity change of the intended current or the continuity change of the unintended current.

FIG. 3 is a graph illustrating an example of correcting a current signal in the signal correcting unit 250. In FIG. 3, a current level is changed according to a change in time, and a maximum level reference line A minimum level reference line that can determine that the flow of current is broken, and an example in which the signal is corrected based on the maximum level reference line and the minimum level reference line is shown.

The maximum level reference line is set to a voltage level that is lower than the maximum voltage value of the current signal converted into the digital signal by a predetermined amount, and the minimum level reference line is set to a voltage level that is higher than the minimum voltage value of the current signal converted into the digital signal by a predetermined magnitude As an example.

The high frequency operation control unit 220 increases the output intensity of the high frequency by one level when the number of times of occurrence of the current interruption in the corrected current signal corrected by the signal correction unit 250 is a predetermined first reference frequency, And the output intensity of the high frequency is lowered by one level when the number of times of occurrence of the interruption is the predetermined second reference frequency.

The first reference number is 2, and the second reference number is 3, for example.

The high frequency transmission device 100 allows a current to flow when two ceramic electrodes contact the skin of the patient in both directions, and when at least one of the two ceramic electrodes for passing current to the skin is separated from the skin, Lt; / RTI >

The practitioner applies high frequency to the skin of the patient by contacting two ceramic electrodes which make current flow to the skin and applies high frequency to the skin of the patient so that at least one of the two ceramic electrodes is separated from the skin during the procedure, Can be generated.

That is, the practitioner operates the high-frequency transmission device 100, that is, the handpiece so that at least one of the two ceramic electrodes is separated from the skin during the procedure, and the two ceramic electrodes are brought into contact with the skin, Can be generated.

The current sensing sensor 230 senses a current flow signal for a preset time when a current flow change is sensed, that is, when a current is interrupted while current flows, and the current flow sensed by the current sensing sensor The signal is converted into a digital signal through the signal change unit and the signal correction unit 250, and then the corrected signal is transmitted to the high frequency operation control unit 220.

The high frequency operation control unit 220 increases the output intensity of the high frequency by one level only when the number of times of occurrence of the current interruption in the received current flow signal is a predetermined first reference frequency and increases the frequency of occurrence of the current interruption The output intensity of the high frequency output is decreased by one level only when the second reference frequency is a preset second reference frequency.

2, the output control method of a high-frequency stimulation apparatus according to the present invention is a method for controlling an output of a high-frequency stimulation apparatus according to an embodiment of the present invention. And controlling the output intensity of the high frequency transmitted to the skin during the operation of heating the skin tissue at a high frequency by flowing electricity to the skin by contacting the provided high frequency electrode with the skin.

One embodiment of the high-frequency output control method of the high-frequency stimulation apparatus according to the present invention includes a current change sensing step (S100) for confirming continuity of the current flow in the current signal of the current flowing in the skin to apply the high- ; And

If the continuity of the current flow is confirmed in the current change sensing step S100, the output intensity adjusting step S200 may adjust the output intensity of the high frequency output through the handpiece to determine whether the current flow is continuity with respect to the current flow.

The current change detection step S100 detects that the current is cut off in the current signal of the current flowing through the skin, and the output intensity adjustment step S200 is performed when the current is cut off in the current change detection step S100 (S230) of counting the number of times of interruption of the current in the detected current signal (S230), and adjusting the output intensity of the high frequency according to the number of times of the counted current interruption (S240) can do.

Also, the output power adjustment step S200 may convert the current signal detected during the process S210 of detecting the current signal and the process S230 of counting the number of times of the current interruption into a digital signal, And a step of correcting the current signal (S220).

In the step of correcting the current signal (S220), only the current interruption intended by the operator is selected by correcting the current signal so that the operator can more accurately determine whether the continuity of the current is intended or the continuity change of the unintended current To be displayed.

FIG. 3 is a graph showing an example of correcting a current signal in a process of correcting a current signal (S220). FIG. 3 is a graph showing a current flowing through a voltage level change according to a change of time, A minimum level reference line capable of judging that the flow of the level reference line and the current is broken is set and the signal is corrected based on the maximum level reference line and the minimum level reference line.

In FIG. 3, the upper graph (U) is a graph showing a voltage level change according to a change of time of a current signal converted into a digital signal, and the lower graph (A) And the signal is corrected based on the level reference line and the minimum level reference line.

In FIG. 3, the upper graph (U) is a graph showing a voltage level change according to a change of time of a current signal converted into a digital signal, and the lower graph (A) And the signal is corrected based on the level reference line and the minimum level reference line.

The maximum level reference line is set to a voltage level that is lower than the maximum voltage value of the current signal converted into the digital signal by a predetermined amount, and the minimum level reference line is set to a voltage level that is higher than the minimum voltage value of the current signal converted into the digital signal by a predetermined magnitude As an example.

That is, in the process of correcting the current signal, the current signal is corrected based on a maximum level reference line set at a voltage level lower than the maximum voltage of the current by a predetermined level and a minimum level reference line set at a voltage level higher than the minimum minimum voltage by a preset magnitude. So that it is possible to more clearly confirm whether the current operator has intended the current interruption.

Referring again to FIG. 2, in step S230 of counting the number of current interruptions, it is checked whether the number of current interruptions is equal to a predetermined first reference number S231. If the number of current interruptions is not the first reference number, (S232) of checking whether the number of times of occurrence of the break occurs is a second predetermined number of times and returning to the current change sensing step (S100) if the number of times of the occurrence of the break is not the second reference number.

In step S240, the output intensity of the high frequency is increased by one level when the number of times of the current interruption is a predetermined first reference frequency in step S241. In step S241, And decreasing the output intensity of the high frequency by one level when the number of times is the predetermined second reference frequency (S242).

The first reference number is 2, and the second reference number is 3, for example.

The high frequency transmission device 100 allows a current to flow when two ceramic electrodes contact the skin of the patient in both directions, and when at least one of the two ceramic electrodes for passing current to the skin is separated from the skin, Lt; / RTI >

The practitioner uses the handpiece, which is the high frequency transmission device 100, to apply high frequency to the skin of the patient by contacting the two ceramic electrodes with the skin, and at least one of the two ceramic electrodes is applied to the skin The separation of the current flowing in the skin can be caused.

That is, the practitioner can increase the output intensity of the high frequency one level by generating the current interruption twice twice for a predetermined time during the current flow to the patient's skin due to the contact of the two ceramic electrodes with the skin.

In addition, the practitioner can decrease the output intensity of the high frequency by one level by generating three current interruptions for a predetermined time during the current flow to the patient's skin due to the contact of the two ceramic electrodes with the skin.

Therefore, the number of times of interruption of the current due to the intention of the operator during the procedure is counted, and the output intensity of the high frequency can be simply controlled by increasing or decreasing the high frequency output intensity by one level according to the number of times.

After the step S240 of adjusting the output intensity of the high frequency power, the step S300 of checking whether the power supply to the high frequency transmission device 100 is stopped, that is, the operation of the high frequency transmission device 100 is stopped, If it is not stopped, the process returns to the current change detection step (S100) and the high frequency output control method of the high frequency stimulation apparatus according to the present invention can repeatedly control the high frequency output during the procedure.

The present invention allows a practitioner to easily adjust the output intensity of a high frequency output from the high frequency transmission device 100 using the high frequency transmission device 100 during the procedure, thereby improving the operational convenience in the procedure.

The present invention can adjust the output intensity of the high frequency output from the high frequency transmission device 100 while the operator concentrates on the procedure with the eyes fixed to the patient and the affected part during the procedure so as to prevent accidents caused by erroneous operation during the procedure, It greatly improves the safety and effectiveness of the procedure.

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

100: high frequency transmission device 200:
210: high frequency generator 220: high frequency operation controller
230: current detection sensor 240: signal conversion unit
250: signal correction unit 300: ground unit
S100: current change detection step
S200: output intensity adjustment step

Claims (11)

A high frequency generator for supplying a high frequency current to the high frequency transmission device by being supplied with power and a high frequency generator for controlling the operation of the high frequency generator, And a grounding portion disposed opposite to the high-frequency transmission device with a treatment portion interposed therebetween, wherein the high-frequency stimulation treatment device controls the output of the high-frequency power output through the high- An apparatus for controlling high frequency output of a device,
The high-frequency operation control unit senses continuity of current flowing between the main body unit, the high-frequency transmission device, and the patient, and adjusts the output intensity of the high-frequency power output through the high-frequency transmission device depending on continuity of the current flow Frequency output control device of a high frequency stimulation therapy apparatus.
The method according to claim 1,
Wherein the main body further comprises a current sensing sensor for sensing a flow of current flowing through the high frequency transmission device to the skin and transmitting the sensed current to the high frequency operation controller,
Wherein the high frequency operation control unit increases or decreases the output intensity of the high frequency by continuity of the flow of the current sensed by the current sensing sensor.
The method of claim 2,
Wherein the high frequency operation control unit increases or decreases the output intensity of the high frequency by a number of times that the current is flowing for a predetermined period of time while the flow of the current sensed by the current sensing sensor is received, Frequency output control device.
The method of claim 2,
The main body further includes a signal converter for converting the flow of the current sensed by the current sensor into a digital signal, and a signal corrector for correcting the digital signal converted by the signal converter and transmitting the corrected digital signal to the high frequency operation controller Frequency output control apparatus for a high-frequency stimulation therapy apparatus.
The method of claim 4,
Wherein the signal correction unit checks a current flow through a voltage level change according to a change of time and sets a minimum level reference line that can determine that the current flows and a minimum level reference line that can determine that the current flow is broken, Corrects the signal with respect to the maximum level reference line and the minimum level reference line,
Wherein the maximum level reference line is set to a voltage level that is lower than a maximum voltage value of the current signal converted into a digital signal by a predetermined magnitude and the minimum level reference line is set to a value higher than a minimum voltage value of the current signal converted into a digital signal by a predetermined magnitude And the voltage level is set to the voltage level of the high frequency signal.
The method of claim 4,
The high frequency operation control unit increases the output intensity of the high frequency by one level when the number of times of the current interruption in the current signal corrected by the signal correction unit is a predetermined first reference number, Frequency output power of the high-frequency stimulation signal is lowered by one level when the frequency of the high-frequency stimulation signal is a predetermined second reference frequency.
A high frequency output control method for controlling a high frequency output intensity of a high frequency stimulation therapy apparatus for heating skin tissue at a high frequency by flowing electricity to skin by bringing a high frequency electrode provided in a high frequency transmission device into contact with skin,
A current change sensing step of confirming continuity of current flow in a current signal of a current flowing in the skin to apply a high frequency electric signal; And
And an output intensity adjusting step of adjusting an output intensity of the high frequency output through the handpiece based on continuity of the current flow if the continuity of the current flow is confirmed in the current change sensing step. Frequency output control method.
The method of claim 7,
The current change sensing step detects that a current is cut off in a current signal of a current flowing in the skin,
Wherein the output intensity adjusting step comprises the steps of: detecting a current signal for a predetermined period of time when a current interruption occurs in the current change sensing step; And
Counting the number of times of interruption of the current in the detected current signal, and adjusting the output intensity of the high frequency signal according to the number of times of the counted current interruption.
The method of claim 8,
The output power adjustment step may include:
Converting the detected current signal into a digital signal and correcting the current signal converted into a digital signal during a process of detecting the current signal and a process of counting the number of times of interruption of the current, High frequency output control method of high frequency stimulation therapy apparatus.
The method of claim 9,
In the process of correcting the current signal, a flow of a current is checked through a voltage level change according to a change of time, and a maximum level reference line capable of judging that a current flows and a minimum level reference line And corrects the signal based on the maximum level reference line and the minimum level reference line,
The maximum level reference line is set to a voltage level which is lower than a maximum voltage value of the current signal converted into the digital signal by a predetermined magnitude,
Wherein the minimum level reference line is set to a voltage level that is higher than a minimum voltage value of the current signal converted into the digital signal by a predetermined magnitude.
The method of claim 8,
Wherein the step of counting the number of times of interruption of the current comprises the steps of: checking whether the number of times of occurrence of the current interruption is a first reference number; if the number of times of occurrence of the current interruption is less than the first reference number, And if it is not the second reference count, returning to the current change sensing step again,
The process of adjusting the output intensity of the high frequency may include a process of increasing the output intensity of the high frequency by one level when the number of times of occurrence of the current interruption is the predetermined first reference frequency, And decreasing the output intensity of the high frequency by one level in the case of the number of times of the high frequency output.

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