Frequency tuning in a microwave electrosurgical system
First Claim
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1. A system for tissue ablation, comprising:
- a microwave antenna configured for direct insertion into a targeted tissue;
a microwave energy generator coupled to the microwave antenna and configured to provide microwave energy of a predetermined frequency and having a generator impedance;
an input line for receiving at least one of an output signal and microwave energy from the microwave energy generator;
an output line for transmitting at least one of an impedance matched output signal and microwave energy to the microwave antenna; and
an active matching network, including;
a fixed inductor electrically connected in series between the input line and the output line;
a first capacitor and a first tuning diode electrically connected in series to one another and connected to the input line at a location upstream of the fixed inductor;
a second capacitor and a second tuning diode electrically connected in series to one another and connected to the output line at a location downstream of the fixed inductor;
a first inductor connected to a first direct current source via a first supply line and connected at a point between the first capacitor and the first tuning diode; and
a second inductor connected to a second direct current source via a second supply line and connected at a point between the second capacitor and the second tuning diode,wherein the first and second tuning diodes are selectively switchable from an off state to an on state to place at least one of the first capacitor and the second capacitor in an active state with the fixed inductor to compensate for a difference between the generator impedance and an impedance of the targeted tissue.
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Abstract
A method and apparatus is disclosed for the ablation of biological tissue to produce a therapeutic effect. An adjustment is made to the output frequency of an electrosurgical generator during the ablation cycle to accommodate changes in the electrical properties of the apparatus and the biological tissues that occur as energy is transferred to the tissue. The adjustment is made to better align the source impedance with that of the load.
263 Citations
13 Claims
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1. A system for tissue ablation, comprising:
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a microwave antenna configured for direct insertion into a targeted tissue; a microwave energy generator coupled to the microwave antenna and configured to provide microwave energy of a predetermined frequency and having a generator impedance; an input line for receiving at least one of an output signal and microwave energy from the microwave energy generator; an output line for transmitting at least one of an impedance matched output signal and microwave energy to the microwave antenna; and an active matching network, including; a fixed inductor electrically connected in series between the input line and the output line; a first capacitor and a first tuning diode electrically connected in series to one another and connected to the input line at a location upstream of the fixed inductor; a second capacitor and a second tuning diode electrically connected in series to one another and connected to the output line at a location downstream of the fixed inductor; a first inductor connected to a first direct current source via a first supply line and connected at a point between the first capacitor and the first tuning diode; and
a second inductor connected to a second direct current source via a second supply line and connected at a point between the second capacitor and the second tuning diode,wherein the first and second tuning diodes are selectively switchable from an off state to an on state to place at least one of the first capacitor and the second capacitor in an active state with the fixed inductor to compensate for a difference between the generator impedance and an impedance of the targeted tissue. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for tissue ablation, comprising:
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a microwave energy generator configured to provide microwave energy of a predetermined frequency and having a generator impedance; a microwave antenna operably coupled to the microwave energy generator; an input line for receiving at least one of an output signal and microwave energy from the microwave energy generator; an output line for transmitting at least one of an impedance matched output signal and microwave energy to the microwave antenna; and an active matching network, including; a fixed inductor electrically connected in series between the input line and the output line; a first capacitor and a first tuning diode electrically connected in series to one another and connected to the input line at a location upstream of the fixed inductor; a second capacitor and a second tuning diode electrically connected in series to one another and connected to the output line at a location downstream of the fixed inductor; a first inductor connected to a first direct current source via a first supply line and connected at a point between the first capacitor and the first tuning diode; and
a second inductor connected to a second direct current source via a second supply line and connected at a point between the second capacitor and the second tuning diode,wherein the active matching network is configured to selectively switch off at least one of the first tuning diode by adjusting the direct current supplied via the first supply line and the second tuning diode by adjusting direct current supplied via the second supply line, in order to have either the first capacitor or the second capacitor active with the fixed inductor to compensate for a difference between the generator impedance and an impedance of the targeted tissue. - View Dependent Claims (9, 10, 11, 12)
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13. A system for tissue ablation, comprising:
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a microwave antenna configured for direct insertion into a targeted tissue; a transmission line; a microwave energy generator coupled to the microwave antenna by the transmission line and configured to adjust a frequency of microwave energy generated thereby and having a generator impedance; a monitor coupled to the transmission line capable of measuring a reflected power signal during operation of the microwave antenna; a communication line configured to communicatively couple the monitor and the microwave energy generator; and an active matching network coupled to the transmission line, wherein the active matching network circuit includes; an input line for receiving an output signal or microwave energy from the microwave energy generator; an output line for transmitting an impedance matched output signal or microwave energy to the microwave antenna; a fixed inductor electrically connected in series between the input line and the output line; a first capacitor and a first tuning diode electrically connected in series to one another and connected to the input line at a location upstream of the fixed inductor; a second capacitor and a second tuning diode electrically connected in series to one another and connected to the output line at a location downstream of the fixed inductor; a first inductor connected to a first direct current source via a first supply line and connected in series between the first capacitor and the first tuning diode, and a second inductor connected to a second direct current source via a second supply line and connected to the second capacitor and the second tuning diode, wherein the first and second tuning diodes are adjustable in order to match an impedance of a load on the output line to that of the microwave antenna, such that direct current voltage is applied on the first and second supply lines to tune the first and second tuning diodes to create a substantial match between the generator impedance and an equivalent impedance of the targeted tissue.
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Specification