High dielectric output circuit for electrosurgical power source
First Claim
1. A transformer circuit comprisinga primary coil including first and second voltage divider segments, each of said segments arranged in phase and having equal inductance;
- a plurality of taps connected to said second segment of said primary coil;
switching means for selectably grounding one of said taps for varying the voltage impressed on said second segment;
a secondary coil including first and second voltage divider segments arranged 180°
out of phase and having equal inductance;
each of said secondary coil segments being heavily insulated with highly dielectric material;
said primary coil and said second coil being coupled together to provide an output from said secondary coil equal to the sum of the voltages applied to said segments of said secondary coilwhereby said transformer output can be varied by switching from one tap to another of said second segment of said primary coil.
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Accused Products
Abstract
A transformer circuit including a primary coil with first and second voltage divider segments arranged in phase with equal inductances and a plurality of taps on the second segment. A switch is used to selectably ground one of the taps for varying the voltage impressed on the second segment. The transformer also has a secondary coil including first and second voltage divider segments arranged 180° out of phase and having equal inductance. The secondary coil is heavily insulated, and the primary and secondary coils are coupled together to provide an output equal to the sum of the voltages applied to the segments of the secondary coil so that the transformer output can be varied by switching from one tap to another of the second segment of the primary coil and that the secondary coil can be heavily insulated and isolated from ground.
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Citations
15 Claims
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1. A transformer circuit comprising
a primary coil including first and second voltage divider segments, each of said segments arranged in phase and having equal inductance; -
a plurality of taps connected to said second segment of said primary coil; switching means for selectably grounding one of said taps for varying the voltage impressed on said second segment; a secondary coil including first and second voltage divider segments arranged 180°
out of phase and having equal inductance;each of said secondary coil segments being heavily insulated with highly dielectric material; said primary coil and said second coil being coupled together to provide an output from said secondary coil equal to the sum of the voltages applied to said segments of said secondary coil whereby said transformer output can be varied by switching from one tap to another of said second segment of said primary coil. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An output circuit for a power source for an electrosurgical instrument comprising:
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means for providing an alternating current input voltage signal having a predetermined peak voltage; a primary resonant circuit connected to said input signal means for receiving said alternating current input voltage; circuit interruption means for introducing a step-function wave form into said primary resonant circuit when said input voltage signal reaches a predetermined level; a secondary resonant circuit including output terminals and coupled to said primary resonant circuit and resonating at substantially the same frequency as the said primary resonant circuit for delivering a high-frequency, high-voltage output signal to said output terminals for further transmission to an electrosurgical instrument; said primary resonant circuit including switching means for adjusting the voltage level at the output terminals of said secondary resonant circuit. - View Dependent Claims (9, 10, 11, 12)
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13. An output circuit for a power source of an electrosurgical instrument comprising:
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a power source for providing an alternating current input voltage signal; a spark gap connected to receive said input voltage signal and becoming conductive at a predetermined input voltage every half cycle of said input signal for generating a step-function wave form; a first resonant circuit connected to said spark gap for receiving said step function wave form and generating a decaying wave form at a desired frequency; a second resonant circuit including output terminals and matched to the frequency of said first resonant circuit and coupled to said first resonant circuit for delivering said first resonant circuit decaying wave form to said output terminals; said second resonant circuit being isolated from ground; means for varying the peak output voltage at said output terminals of said second resonant circuit, located in said first resonant circuit and dielectrically insulated from said second resonant circuit; said first resonant circuit including a primary coil having first and second voltage divider segments arranged in phase and having equal inductance and further including a capacitor connected in series with said primary coil; a plurality of taps connected to said second segment; and
,switching means including means for grounding one of said taps for varying the voltage on said second segment. - View Dependent Claims (14)
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15. An output circuit for a power source for an electrosurgical instrument comprising:
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means for providing an alternating current input voltage signal having a predetermined peak voltage; a primary resonant circuit connected to said input signal means for receiving said alternating current input voltage, said primary resonant circuit including a capacitor connected in series with an induction coil including first and second voltage divider segments arranged in phase and having equal inductance; circuit interruption means for introducing a step-function wave form into said primary resonant circuit when said input voltage signal reaches a predetermined level; a secondary resonant circuit including output terminals and coupled to said primary resonant circuit and resonating at substantially the same frequency as said primary resonant circuit for delivering a high-frequency, high-voltage output signal to said output terminals for further transmission to an electrosurgical instrument; said primary resonant circuit including switching means for adjusting the voltage level at the output terminals of said secondary resonant circuit.
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Specification