Multiple RF return pad contact detection system
First Claim
1. In an electrosurgical generator including at least two pairs of patient return pads adapted for contacting a patient, each pair of said at least two pairs of patient return pads having two conductors attached to a corresponding patient return pad for connecting the pad to a source of a.c. energy passing through the pad, a method for controlling the electrosurgical generator comprising the steps of:
- producing and applying a corresponding current signal for each of said at least two pairs of patient return pads;
producing at least one signal by resonant circuitry means responsive to the impedance between at least one pair of patient return pads; and
receiving said at least one signal for determining the impedance between said at least one pair of patient return pads, wherein the frequency of said corresponding current signal for each of said at least two pairs of patient return pads is substantially equal to the frequency of at least a portion of said resonant circuitry means.
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Accused Products
Abstract
A multiple RF return pad contact detection system is provided which is adaptive to different physiological characteristics of patients without being susceptible to electrosurgical current interference (e.g., interference or measurement interaction between components of the detection system). The detection system can measure or sense the contact resistance or impedance between the patient and pairs of RF return pads or return electrodes where multiple pairs of RF return pads are utilized due to the high current frequently needed during electrosurgery while eliminating or minimizing the risk of measurement interaction between the RF return pad pairs. The system allows for the independent and simultaneous measurement of the pad contact impedance for each pair of RF return pads. If the impedance of any pad pair is above a predetermined limit, the system turns off or reduces the electrosurgical output of the electrosurgical generator to prevent excess heating. The system eliminates or minimizes interference or measurement interaction between the pad pairs by providing a different signal source frequency for each pad contact pair, but a frequency which matches an associated series resonant network frequency. The current that flows in the series resonant network is a direct reflection or function of the pad impedance of the corresponding pad pair.
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Citations
10 Claims
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1. In an electrosurgical generator including at least two pairs of patient return pads adapted for contacting a patient, each pair of said at least two pairs of patient return pads having two conductors attached to a corresponding patient return pad for connecting the pad to a source of a.c. energy passing through the pad, a method for controlling the electrosurgical generator comprising the steps of:
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producing and applying a corresponding current signal for each of said at least two pairs of patient return pads; producing at least one signal by resonant circuitry means responsive to the impedance between at least one pair of patient return pads; and receiving said at least one signal for determining the impedance between said at least one pair of patient return pads, wherein the frequency of said corresponding current signal for each of said at least two pairs of patient return pads is substantially equal to the frequency of at least a portion of said resonant circuitry means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. In an electrosurgical generator including at least two pairs of patient return pads adapted for contacting a patient, each pair of said at least two pairs of patient return pads having two conductors attached to a corresponding patient return pad for connecting the pad to a source of a.c. energy passing through the pad, a method for controlling the electrosurgical generator comprising the steps of:
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generating an operating current for each pair of said at least two pairs of patient return pads, each pair of said at least two pairs of patient return pads having a corresponding signal source; applying the operating current through said conductors to said at least two pairs of patient return pads; producing a signal for each pair of patient return pads responsive to said current which is a function of the impedance between said two corresponding patient return pads via resonant circuits corresponding to each pair of return pads, said each resonant circuit being tuned to different frequencies and being tuned to the substantially the same frequency as the corresponding signal source for substantially minimizing measurement interaction between the at least two pairs of patient return pads when said operating currents are simultaneously applied to said corresponding pairs of patient return pads; and determining whether said signals produced are within a desired range of impedance.
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Specification