Current leakage control for electrosurgical generator
First Claim
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1. In an electrosurgical system having an electrosurgical generator for supplying electrosurgical output power by delivering an output current at a predetermined frequency to a patient, a supply lead means for delivering the output current from the generator to the patient, a return lead means for returning current from the patient to the generator, and a power control feedback loop means of said generator for regulating the output power of the generator to a value approximately equal to a predetermined output power requested, the power control feedback loop means including means for supplying a power control signal representative of any difference between the output power supplied by the generator and the predetermined output power requested and regulating means for regulating the output power of the generator in response to the power control signal;
- and in combination therewith an improved means for controlling leakage current from the generator comprising;
current leakage sense means connected to the supply lead means and to the return lead means and operative for determining any imbalance between the current flowing in the supply lead means and the current flowing in the return lead means and for generating a current leakage sense signal related to the amount of any said imbalance;
means for supplying a predetermined set point signal representative of a predetermined maximum acceptable amount of leakage current;
determining means receptive of the current leakage sense signal and the set point signal for supplying a leakage current control signal upon the current leakage sense signal exceeding the predetermined set point signal; and
selector means connected in the power control feedback loop means between the means for supplying the power control signal and the regulating means, the selector means receiving the leakage current control signal and the power control signal, the selector means operatively selecting one of the leakage current control signal or the power control signal and supplying the selected on of the signals to the regulating means to control the output power supplied by the generator both in response to the imbalance and in response to the difference between the predetermined output power requested and output power supplied by the generator by reducing the output power supplied by the generator when the imbalance exceeds the predetermined maximum acceptable amount and by regulating the output power supplied by the generator in relation to the difference between the predetermined output power requested and the output power supplied by the generator when the imbalance does not exceed the predetermined maximum acceptable amount.
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Abstract
A current leakage control circuit regulates the output power of an electrosurgical generator to limit the amount of leakage current. The leakage current is monitored with a differential transformer which has the output and return leads of the electrosurgical generator as first and second windings. A third or sense winding produces a control signal whenever the currents in the output and return leads are not equal, thus indicating current leakage. The control signal is compared to a predetermined maximum safe level of leakage current. If this predetermined level is exceeded, a power control feedback loop of the electrosurgical generator reduces the output power to a sufficiently lower level to reduce the leakage current within a maximum acceptable limit.
408 Citations
9 Claims
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1. In an electrosurgical system having an electrosurgical generator for supplying electrosurgical output power by delivering an output current at a predetermined frequency to a patient, a supply lead means for delivering the output current from the generator to the patient, a return lead means for returning current from the patient to the generator, and a power control feedback loop means of said generator for regulating the output power of the generator to a value approximately equal to a predetermined output power requested, the power control feedback loop means including means for supplying a power control signal representative of any difference between the output power supplied by the generator and the predetermined output power requested and regulating means for regulating the output power of the generator in response to the power control signal;
- and in combination therewith an improved means for controlling leakage current from the generator comprising;
current leakage sense means connected to the supply lead means and to the return lead means and operative for determining any imbalance between the current flowing in the supply lead means and the current flowing in the return lead means and for generating a current leakage sense signal related to the amount of any said imbalance; means for supplying a predetermined set point signal representative of a predetermined maximum acceptable amount of leakage current; determining means receptive of the current leakage sense signal and the set point signal for supplying a leakage current control signal upon the current leakage sense signal exceeding the predetermined set point signal; and selector means connected in the power control feedback loop means between the means for supplying the power control signal and the regulating means, the selector means receiving the leakage current control signal and the power control signal, the selector means operatively selecting one of the leakage current control signal or the power control signal and supplying the selected on of the signals to the regulating means to control the output power supplied by the generator both in response to the imbalance and in response to the difference between the predetermined output power requested and output power supplied by the generator by reducing the output power supplied by the generator when the imbalance exceeds the predetermined maximum acceptable amount and by regulating the output power supplied by the generator in relation to the difference between the predetermined output power requested and the output power supplied by the generator when the imbalance does not exceed the predetermined maximum acceptable amount. - View Dependent Claims (2, 3, 4)
- and in combination therewith an improved means for controlling leakage current from the generator comprising;
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5. In an electrosurgical system having an electrosurgical generator for supplying electrosurgical output power at a predetermined high frequency, a supply lead means for delivering the output current from the generator to a patient, a return lead means for returning current from the patient to the generator, and a power control feedback loop means of said generator for regulating the output power of the generator to a value approximately equal to a predetermined output power requested, the power control feedback loop means comprising means for supplying a power control signal representative of a difference between the output power supplied by the generator and the predetermined output power requested and regulating means for regulating the output power supplied by the generator in response to the power control signal;
- the improvement comprising;
current leakage sense means connected to the supply lead means and the return lead means for determining any imbalance between the current flowing in the supply lead means and the current flowing in the return lead means and operative for generating a current leakage sense signal related to the amount of said imbalance; and control means responsive to the current leakage sense signal and operative for controlling the power control feedback loop means to reduce the output power supplied by the generator when the current leakage sense signal exceeds a predetermined value representative of a maximum amount of acceptable leakage current and to limit the output power supplied by the generator to a maximum value at which the leakage current does not exceed the predetermined maximum acceptable value and to reduce the output power supplied by the generator until the current imbalance is equal to or less than the predetermined maximum acceptable value; and
wherein the control means comprises;a differential transformer including a core and a first winding and a second winding and a sense winding, each of the windings wound around the core, the supply lead means connected to conduct the delivered output current through the first winding, the return lead means connected to conduct the returned current through the second winding, the differential transformer sensing any imbalance between the currents flowing in the first and second windings and generating the current leakage sense signal in the sense winding which is proportional to said imbalance; converter means for converting the current leakage sense signal in the sense winding to a first signal; set point means for supplying a second signal representative of the predetermined value of the maximum acceptable leakage current; amplifying means receptive of the first and second signals and operative for amplifying the difference in magnitude of the first and second signals and for supplying the resultant signal as a third signal; and selector means receptive of the power control signal and the third signal and operative for supplying the larger one of the power control or third signal to the regulating means of the power control feedback loop means. - View Dependent Claims (6)
- the improvement comprising;
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7. A method of limiting the electrosurgical power applied to an active electrode in an electrosurgical system to avoid leakage currents of magnitudes greater than a predetermined maximum acceptable level, comprising:
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selecting a predetermined level of electrosurgical output power requested for delivery during electrosurgery; generating electrosurgical output power in response to the predetermined power level requested; supplying the electrosurgical output power generated by delivering current to the active electrode and receiving return current from a dispersive electrode; sensing the amount of electrosurgical output power supplied to the active electrode; determining any output power difference between the electrosurgical output power supplied and the predetermined output power level requested; sensing any imbalance between the amount of current supplied and received; determining whether the imbalance exceeds a predetermined amount representative of a predetermined maximum level of acceptable leakage current; and selectively regulating the output power supplied in relation to both of any imbalance and any output power difference by reducing the level of the electrosurgical output power supplied when the imbalance exceeds the predetermined maximum level of acceptable leakage current and by maintaining the imbalance at or below the predetermined maximum acceptable level when generating power in response to any output power difference. - View Dependent Claims (8, 9)
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Specification
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Current AssigneeBirtcher Medical Systems, Inc.
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Original AssigneeBirtcher Medical Systems, Inc.
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InventorsMcElhenney, Jay J.
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Primary Examiner(s)Cohen, Lee S.
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Application NumberUS07/614,275Time in Patent Office690 DaysField of Search606/35, 606/38-40US Class Current606/35CPC Class CodesA61B 18/1206 Generators thereforA61B 18/1233 with circuits for assuring ...A61B 2018/00779 Power or energy
