Blended monopolar and bipolar application of RF energy
First Claim
1. A system comprising:
- at least two target electrodes and at least one return electrode;
at least two RF power sources in electrical communication with said electrodes and operative to generate RF energy waveforms to said at least two target electrodes, one of said at least two target electrodes cooperating with said at least one return electrode to define a monopolar RF energy delivery channel and another of said at least two target electrodes cooperating with said at least one return electrode to define another monopolar RF energy delivery channel, said at least one return electrode being common to both channels, wherein said at least two target electrodes being operable in a bipolar mode of RF energy delivery; and
a waveform manipulator operable to control and manipulate the waveforms to said at least two target electrodes so as to selectively provide pure monopolar, pure bipolar and a blend of monopolar and bipolar modes of RF energy delivery, wherein said waveforms are sinusoidal with respective frequencies separated by a beat frequency, and said waveform manipulator is operative to modulate said waveforms according to a phase of the beat frequency.
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Accused Products
Abstract
A system including at least two target electrodes and at least one return electrode, at least two RF power sources in electrical communication with the electrodes and operative to generate RF energy waveforms to the at least two target electrodes, one of the at least two target electrodes cooperating with the at least one return electrode to define a monopolar RF energy delivery channel and another of the at least two target electrodes cooperating with the at least one return electrode to define another monopolar RF energy delivery channel, the at least one return electrode being common to both channels, wherein the at least two target electrodes being operable in a bipolar mode of RF energy delivery, and a waveform manipulator operable to control and manipulate the waveforms to the at least two target electrodes so as to selectively provide pure monopolar, pure bipolar and a blend of monopolar and bipolar modes of RF energy delivery.
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Citations
5 Claims
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1. A system comprising:
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at least two target electrodes and at least one return electrode; at least two RF power sources in electrical communication with said electrodes and operative to generate RF energy waveforms to said at least two target electrodes, one of said at least two target electrodes cooperating with said at least one return electrode to define a monopolar RF energy delivery channel and another of said at least two target electrodes cooperating with said at least one return electrode to define another monopolar RF energy delivery channel, said at least one return electrode being common to both channels, wherein said at least two target electrodes being operable in a bipolar mode of RF energy delivery; and a waveform manipulator operable to control and manipulate the waveforms to said at least two target electrodes so as to selectively provide pure monopolar, pure bipolar and a blend of monopolar and bipolar modes of RF energy delivery, wherein said waveforms are sinusoidal with respective frequencies separated by a beat frequency, and said waveform manipulator is operative to modulate said waveforms according to a phase of the beat frequency. - View Dependent Claims (2, 3)
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4. A method comprising:
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providing at least two target electrodes and at least one return electrode; providing at least two RF power sources in electrical communication with said electrodes and operative to generate RF energy waveforms to said at least two target electrodes, one of said at least two target electrodes cooperating with said at least one return electrode to define a monopolar RF energy delivery channel and another of said at least two target electrodes cooperating with said at least one return electrode to define another monopolar RF energy delivery channel, said at least one return electrode being common to both channels, wherein said at least two target electrodes being operable in a bipolar mode of RF energy delivery;
wherein a distance between said at least two target electrodes is smaller than a spacing between said at least two target electrodes and said common return electrode;controlling and manipulating the waveforms to said at least two target electrodes so as to selectively provide pure monopolar, pure bipolar and a blend of monopolar and bipolar modes of RF energy delivery, wherein said waveforms are sinusoidal with respective frequencies separated by a beat frequency, and said waveforms are modulated according to a phase of the beat frequency. - View Dependent Claims (5)
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Specification