DE19827318A1 - Regulating high frequency power of electro-surgical cutting or coagulation device - Google Patents

Abstract

The DC voltage in the operating region is detected. The high frequency (HF) power is altered according to this voltage. The method involves altering the HF power when a DC voltage of a certain polarity is present, by a factor which is different from the factor when a DC voltage of the opposite polarity is present. The power may only be altered when the voltage is a certain polarity.- DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for an electro-surgical cutting and/or coagulation apparatus

Description

The invention relates to a method for regulating the HF power in an electrosurgical cutting and / or coagulation device, in which one in Working area of the cutting and / or coagulation pre Direction resulting DC voltage determined and the RF power as a function of this DC voltage changed. In addition, the invention relates to a front direction for performing this procedure.

Such a method and such an apparatus are known from DE 28 01 833 C2. The one described there The process is based on the knowledge that between the Electrodes with which in the work area, i.e. in the Area where tissue is cut and / or coagulated HF current flows, a DC voltage component arises, which is essentially a measure for the temperature in the working area. This DC chip voltage is used in the known method to to regulate the temperature in the work area becomes that emitted by a high frequency generator  RF power depending on the between the electrical the determined DC voltage changed.

It has been found that with this method relatively good temperature control in the work area is possible. Nevertheless, when cutting and In practice, coagulation is difficult because Cutting and coagulating the first in the work area arc in many cases is not the desired one Has stability. This arc breaks off, others on the other hand, it can often be observed that light arc when removing a working electrode from the ar working area continues to burn for an undesirably long time.

It is an object of the invention to provide a method of gangs described in such a way that the Arc stability in the work area increased becomes.

This task is in a process of the beginning Written type solved according to the invention in that the RF power when a DC voltage occurs a certain polarity changed by a factor which is different from the factor when a DC voltage with opposite polarity.

The invention is based on the knowledge that the DC voltage between the electrodes not only in Ab dependence on temperature changes, but that moreover the DC voltage when working in the ar working area is subject to fluctuations in which  the polarity of the DC voltage also changes. The Be influence of the RF power depending on the DC voltage is now at different polarity affects this DC voltage differently, and Surprisingly, this asymmetry of the rain leads to increase the stability of the arc in the work area. It is an Ef fect, which can be clearly observed, the reasons are not yet clear for this effect.

For example, it can be provided that the changes change in RF power with a polarity of equals voltage is twice that of the other Pola rity, the factor can also be of the order of magnitude 2 to 5.

In particular, in the case of further training, it is the Erfin possible that the RF power only when it occurs ten DC voltage with a certain polarity changed, but not when a DC voltage occurs opposite polarity. Even then this effect is observed, then there is only one re of the HF power when using a DC voltage a certain polarity occurs.

Furthermore, it can be provided that the RF power only change depending on the DC voltage changes when the amount of DC voltage determines a exceeds the limit. A regulation of RF power is therefore omitted if the amount is the same voltage - regardless of polarity - below this  Limit remains, only at the peak values of the same voltage, regulation of the HF power is carried out men.

In particular, it is provided that the RF power then changed by the larger factor when the polar the DC voltage is the same as when it was removed transferred a working electrode from the work area occurs.

It has been observed that the polarity of the two DC voltage occurring in electrodes in ge knowing the scope of the respective working conditions depends. It has been shown that a particularly high DC voltage of a certain polarity occurs when the electrode enters the work area leads and the arc ignites. When separating the Electrode from the work area becomes a particularly high one DC voltage of opposite polarity observed. These DC voltages are not exactly reproducible cash in these working conditions, however shown that the frequency of occurrence of such DC voltage values for the described work stride is very high, making it a very large true It is likely that the described DC voltage values occur.

It is also advantageous if the RF power decreases when the polarity of the dc is the same as when you remove a working item trode from the work area predominantly occurs. It  has been found that such a change change in RF power causes the arc when removing the electrode from the work area tears off quickly, nevertheless, during normal work a significant stabilization of the light arc reached.

The invention is also based on the object electrosurgical cutting and / or coagulation device direction with a generator for an HF current, with two electrodes connected to the generator, with a measuring device for determining a DC chip voltage between the electrodes and with a controller to change the output from the generator RF power depending on that of the measuring device certain DC voltage so that a he increased stability of the arc in the work area can be enough.

This task is invented in such a device solved according to the fact that the controller RF power when a DC voltage occurs with a certain polarity changed by a factor that is different from the factor when a DC voltage with opposite polarity.

Further advantageous embodiments of such a front direction emerge from the claims 7 to 10th

The following description of preferred embodiment forms of the invention is used in connection with the Drawing of the detailed explanation. Show it:

Fig. 1 is a circuit diagram of an electro-surgical RF device with a control device for the RF power;

Fig. 2 is a schematic representation of the DC voltage behavior occurring between the electrodes during the execution of a cut and

Fig. 3 is a schematic representation similar to Fig. 2 in a control device which only becomes effective with a polarity of the direct voltage with additional indication of the RF power curve.

An electrical HF device, which is used, for example, for cutting and / or coagulating tissue, comprises a high-frequency generator 1 , which provides a working electrode 4 or a neutral electrode 5 with a high-frequency voltage via lines 2 and 3 . Corresponding to the approach of the working electrode 4 to a tissue 6 to be processed, a high-frequency current flows through the tissue 6 , which heats the tissue strongly and coagulates and, if necessary, separates it by evaporation of the tissue.

In the line 2, a capacitor 7 is turned on, the terminals of which are connected via lines 8 and 9 connected to the two inputs of a DC amplifier 10, so that at the output 11 of the Gleichspannungsverstär kers 10 is a DC voltage signal is derived from the magnitude of the DC voltage across the capacitor 7 depends.

The output 11 is connected to the input of a subtraction circuit 12 , which is supplied with a setpoint DC voltage by a setpoint generator 13 .

In the subtraction circuit 12 , the difference between the DC voltage supplied by the setpoint generator 13 and the DC voltage supplied by the output 11 of the DC voltage amplifier 10 is formed, and a difference signal thus generated is fed via a line 14 to the high-frequency generator 1 ; this signal changes the RF power output by the high-frequency generator 1 depending on its own size.

So far this device corresponds to a known one Device as described in DE 28 01 833 C2 is.

In contrast to the previously known embodiment, however, it is now provided that the change in the RF power of the high-frequency generator 1 is not proportional to the size of the DC voltage signal, which is tapped on the capacitor 7 , but that this change is dependent on the polarity of the capacitor 7 tapped DC voltage signal.

This can be implemented in different ways, for example the DC voltage amplifier 10 could have different amplification factors for applied DC voltage signals of different polarity, it could also be provided that the DC voltage signal coming in at the high frequency generator 1 leads to different large changes in the RF power with different polarities, for example, by a working amplifier in the high-frequency generator 1 , which has different amplification factors for different polarities.

If you apply the RF voltage generated by the high-frequency generator 1 to the tissue 6 by means of the working electrode 4 , then a voltage curve is obtained at the capacitor 7 , as shown in FIG. 2. When the working electrode 4 approaches the tissue 6 on which the neutral electrode 5 (not shown in FIG. 2) is applied, a DC voltage signal of a certain polarity results with a very large amount. During the cutting, i.e. during the movement of the neutral electrode 5 along the tissue to be treated, the DC voltage fluctuates, ie the polarity changes more or less in an uncontrolled manner, but the values of the DC voltage occurring are less than when the electrode initially approaches it Tissue 6 .

When removing the working electrode 4 from the tissue 6 , a DC voltage signal can be observed in the capacitor 7 in most cases, the amount of which is significantly higher than the fluctuations during the cutting, but has a reverse polarity to that of the DC voltage signal as it approaches Working electrode.

The regulation of the RF power as a function of this DC voltage signal is now carried out so that the RF power is less changed at a polarity of the DC voltage signal, which corresponds to the approach of the working electrode to the tissue, than at a polarity that when removing the Working electrode from tissue 6 corresponds. In addition, the control is carried out so that with a polarity of the DC voltage, which speaks ent to the separation of the working electrode from the tissue, the RF power is reduced. Thus, a DC voltage of this polarity at a certain value leads to a reduction in the RF power, which is greater in amount than the increase in RF power that occurs at the same absolute value and opposite polarity of the DC voltage.

In the embodiment of FIG. 3, an Ex situation is shown, in which only those DC voltage values on the capacitor 7 are taken into account for the change in the HF power that correspond once to the polarity of a DC voltage signal which occurs when the working electrode 4 is removed occurs from tissue 6 , and on the other hand, a change in the RF power occurs only when the amount of this DC voltage exceeds a certain limit value, which is shown in Fig. 3 in the upper curve by the horizontal dash-dotted line.

This can easily be achieved in that, for example, a rectifier is used in one of the lines 8 or 9 , so that only DC voltage signals of the desired polarity reach the DC voltage amplifier 10 , and a component can be provided which only allows signals to pass, that exceed a certain value.

This results in a change in the RF power only when the DC voltage values at the capacitor 7 are peak values of a specific polarity, as is clearly visible in FIG. 3.

Even with such a regulation, it becomes clear Stabilization of the arc in the work area enough, in particular there is also a verb Tear-off behavior when disconnecting working electronics de and tissue, the arc extinguishes quickly without extinguishing formation of a long unwanted tear-off spark.

Claims (10)

1. A method for controlling the RF power in an electrosurgical cutting and / or coagulation device, in which one determines a DC voltage arising in the working area of the cutting and / or coagulation device and the RF power as a function of this DC voltage voltage changed, characterized in that one changes the RF power when a DC voltage occurs with a certain polarity with a factor that is different from the factor when a DC voltage occurs with opposite polarity. 2. The method according to claim 1, characterized in that that the RF power only when a DC voltage with a certain polarity ver changes, but not when an equal occurs voltage with opposite polarity. 3. The method according to one of the preceding claims, characterized in that the RF power in Ver only dependent on the DC voltage changes when the amount of DC voltage is one exceeds a certain limit.   4. The method according to any one of the preceding claims, characterized in that the RF power then changed by the greater factor when the The polarity of the DC voltage is the same as for Removing a working electrode from the work area predominantly occurs. 5. The method according to any one of the preceding claims, characterized in that the RF power decreases when the polarity of the DC voltage is like removing a working elec trode from the work area predominantly occurs. 6. Electrosurgical cutting and / or coagulation device with a generator for an HF current, with two electrodes connected to the generator, with a measuring device for determining a DC voltage between the electrodes and with a controller for changing the generator Delivered RF power as a function of the DC voltage determined by the measuring device, characterized in that the controller ( 10 , 12 ) changes the RF power when a DC voltage occurs with a specific polarity by a factor that is different from the factor when a DC voltage with opposite polarity occurs. 7. The device according to claim 6, characterized in net that the control the RF power only at Occurrence of a DC voltage with a certain polarity changed, but not when it occurred a DC voltage with opposite polarity act. 8. Device according to one of claims 6 or 7, there characterized in that the control the RF power depending on the DC voltage only changed when the amount is the same voltage exceeds a certain limit. 9. Device according to one of claims 6 to 8, there characterized in that the control the RF power then changed by the larger factor if the polarity of the DC voltage is like when removing a working electrode from the Work area predominantly occurs. 10. Device according to one of claims 6 to 9, there characterized in that the control the RF power decreases when the polarity of the DC voltage is as it is when you remove it ner working electrode from the work area occurs.