Patents by Inventor James A. Huntington
James A. Huntington has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 10517663Abstract: A method of detecting a leakage current in an electrosurgical system operating at a high frequency includes: coupling an RF generator to a pair of RF output leads via an electrical interface, the RF generator having an operating frequency; inducing a test signal at an output of the electrical interface, the test signal having a test signal frequency that is less than the operating frequency; and monitoring for a presence of an induced common mode current that would indicate the presence of leakage current.Type: GrantFiled: December 9, 2016Date of Patent: December 31, 2019Assignee: SenoRx, Inc.Inventors: Derek Daw, James Huntington Dabney
-
Publication number: 20190133672Abstract: A method for controlling an electrosurgical electrode of a medical device includes operating an RF generator to generate an RF signal at a first RF power level to initiate tissue cutting, the first RF power level being associated with a start mode of the RF generator; operating the RF generator to generate the RF signal at a second RF power level for tissue cutting, the second RF power level being lower than first RF power level, the second RF power level being associated with a cutting mode of the RF generator; monitoring an electrical characteristic associated with an electrosurgical electrode with a sensor; and adjusting a DC input voltage applied to an output stage of an RF amplifier based on the monitored electrical characteristic associated with the electrosurgical electrode to maintain a desired RF power output and a desired RF duty cycle at the second RF power level.Type: ApplicationFiled: January 4, 2019Publication date: May 9, 2019Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 10172664Abstract: A method for controlling an electrosurgical electrode of a medical device includes providing an electrosurgical tissue cutting electrode having an arcuate electrode portion; delivering energy from an RF generator to the electrosurgical electrode, said RF generator including an RF amplifier; monitoring an electrical characteristic associated with said electrosurgical electrode; and establishing a desired RF power output and a desired RF duty cycle at said RF generator by adjusting DC input voltage applied to an output stage of said RF amplifier based on said monitoring to effect tissue cutting by the arcuate electrode portion.Type: GrantFiled: January 31, 2012Date of Patent: January 8, 2019Assignee: SENORX, INC.Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 9750558Abstract: A method for mitigating leakage in an RF electrosurgical generator includes delivering an RF signal from an RF electrosurgical generator to an electrosurgical electrode by way of a patient box; providing a balanced and symmetrical shielded transmission line coupling said electrosurgical generator disposed in a first housing to said patient box disposed in a second, different housing; providing a common mode choke in said patient box, said common mode choke including an output winding and a return winding, said output winding and said return winding spaced apart and in parallel to maintain a desired impedance, said output winding comprising a wire carrying said RF signal as an output signal and said return winding carrying a return signal from a return electrode; and directing a common mode signal from said RF signal to said common mode choke thereby blocking said common mode signal.Type: GrantFiled: June 21, 2013Date of Patent: September 5, 2017Assignee: SENORX, INC.Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 9750557Abstract: A high frequency electrosurgical power generator configured to produce electrical power at a frequency of about 1 to about 14 MHz and preferably having an essentially sinusoidal waveform with a voltage level up to 1,000 Vrms, and a current level up to 5 Amps. The output of the high frequency electrosurgical power generator is connected to an electrosurgical tool configured to receive the voltage and current produced by the electrosurgical power generator and deliver the voltage and current to an electrosurgical site. The output of the electrosurgical generator preferably is an essentially sinusoid waveform with a frequency between about 3 MHz and about 8 MHz, up to about 700 volts rms, up to about 2 amps, with a total power of up to 1,000 watts.Type: GrantFiled: February 8, 2007Date of Patent: September 5, 2017Assignee: SENORX, INC.Inventors: James Huntington Dabney, Richard L. Quick, Conrad Sawicz, Paul Lubock, Dan Kussman
-
Publication number: 20170146584Abstract: A method of detecting a leakage current in an electrosurgical system operating at a high frequency includes: coupling an RF generator to a pair of RF output leads via an electrical interface, the RF generator having an operating frequency; inducing a test signal at an output of the electrical interface, the test signal having a test signal frequency that is less than the operating frequency; and monitoring for a presence of an induced common mode current that would indicate the presence of leakage current.Type: ApplicationFiled: December 9, 2016Publication date: May 25, 2017Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 9517104Abstract: A medical device system and method provide an RF electrosurgical generator coupled to an electrosurgical electrode via a patient box disposed in close proximity to the patient. An RF signal is delivered from the generator to the patient box where signal power is increased and the RF signal delivered to the electrosurgical electrode. The patient box is coupled to the electrosurgical electrode by a short cable capable of carrying an HV, high frequency 5 MHz signal without leakage. An electrical characteristic associated with the electrosurgical electrode is monitored and a desired RF power output and duty cycle maintained by adjusting DC input voltage applied to an RF amplifier, responsive to the monitoring. The system determines when the electrosurgical cutting electrode has started cutting and switches from a start mode to a run mode having a different RF duty cycle and a reduced RF power output controlled by a servo system.Type: GrantFiled: August 27, 2008Date of Patent: December 13, 2016Assignee: SenoRx, Inc.Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 9408664Abstract: A medical device system and method provide an RF electrosurgical generator coupled to an electrosurgical electrode via a patient box disposed in close proximity to the patient. An RF signal is delivered from the generator to the patient box where signal power is increased and the RF signal delivered to the electrosurgical electrode. The patient box is coupled to the electrosurgical electrode by a short cable capable of carrying an HV, high frequency 5 MHz signal without leakage. An electrical characteristic associated with the electrosurgical electrode is monitored and a desired RF power output and duty cycle maintained by adjusting DC input voltage applied to an RF amplifier, responsive to the monitoring. The system determines when the electrosurgical cutting electrode has started cutting and switches from a start mode to a run mode having a different RF duty cycle and a reduced RF power output controlled by a servo system.Type: GrantFiled: March 15, 2013Date of Patent: August 9, 2016Assignee: SENORX, INC.Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 8882760Abstract: A medical device system and method provide an RF electrosurgical generator coupled to an electrosurgical electrode via a patient box disposed in close proximity to the patient. An RF signal is delivered from the generator to the patient box where signal power is increased and the RF signal delivered to the electrosurgical electrode. The patient box is coupled to the electrosurgical electrode by a short cable capable of carrying an HV, high frequency 5 MHz signal without leakage. An electrical characteristic associated with the electrosurgical electrode is monitored and a desired RF power output and duty cycle maintained by adjusting DC input voltage applied to an RF amplifier, responsive to the monitoring. The system determines when the electrosurgical cutting electrode has started cutting and switches from a start mode to a run mode having a different RF duty cycle and a reduced RF power output controlled by a servo system.Type: GrantFiled: August 27, 2008Date of Patent: November 11, 2014Assignee: SenoRx, Inc.Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 8764741Abstract: A high frequency electrosurgical power generator configured to produce electrical power at a frequency of about 1 to about 14 MHz and preferably having an essentially sinusoidal waveform with a voltage level up to 1,000 Vrms, and a current level up to 5 Amps. The output of the high frequency electrosurgical power generator is connected to an electrosurgical tool configured to receive the voltage and current produced by the electrosurgical power generator and deliver the voltage and current to an electrosurgical site. The output of the electrosurgical generator preferably is an essentially sinusoid waveform with a frequency between about 3 MHz and about 8 MHz, up to about 700 volts rms, up to about 2 amps, with a total power of up to 1,000 watts.Type: GrantFiled: August 8, 2007Date of Patent: July 1, 2014Assignee: Senorx, Inc.Inventors: James Huntington Dabney, Richard L. Quick, Conrad Sawicz, Paul Lubock, Dan Kussman
-
Publication number: 20130317494Abstract: A method for mitigating leakage in an RF electrosurgical generator includes delivering an RF signal from an RF electrosurgical generator to an electrosurgical electrode by way of a patient box; providing a balanced and symmetrical shielded transmission line coupling said electrosurgical generator disposed in a first housing to said patient box disposed in a second, different housing; providing a common mode choke in said patient box, said common mode choke including an output winding and a return winding, said output winding and said return winding spaced apart and in parallel to maintain a desired impedance, said output winding comprising a wire carrying said RF signal as an output signal and said return winding carrying a return signal from a return electrode; and directing a common mode signal from said RF signal to said common mode choke thereby blocking said common mode signal.Type: ApplicationFiled: June 21, 2013Publication date: November 28, 2013Inventors: Derek Daw, James Huntington Dabney
-
Publication number: 20130249566Abstract: Calibrating automatic test systems for testing electronic components using Kelvin probes is taught. A nominal contact resistance of a Kelvin probe is measured using a test slug to replace an electronic component to be measured on the test system. The measured resistance is stored by the test system and can be used to compensate for a measured value for an electronic component. A test slug can be periodically inserted into the test system to update the contact resistance measure and/or track the contact resistance to measure Kelvin probe wear and/or contamination.Type: ApplicationFiled: March 23, 2012Publication date: September 26, 2013Applicant: ELECTRO SCIENTIFIC INDUSTRIES, INC.Inventor: James Huntington
-
Patent number: 8475446Abstract: A method for mitigating leakage in an RF electrosurgical generator includes delivering an RF signal from an RF electrosurgical generator to an electrosurgical electrode by way of a patient box; providing a balanced and symmetrical shielded transmission line coupling said electrosurgical generator disposed in a first housing to said patient box disposed in a second, different housing; providing a common mode choke in said patient box, said common mode choke including an output winding and a return winding, said output winding and said return winding spaced apart and in parallel to maintain a desired impedance, said output winding comprising a wire carrying said RF signal as an output signal and said return winding carrying a return signal from a return electrode; and directing a common mode signal from said RF signal to said common mode choke thereby blocking said common mode signal.Type: GrantFiled: July 9, 2012Date of Patent: July 2, 2013Assignee: Senorx, Inc.Inventors: Derek Daw, James Huntington Dabney
-
Publication number: 20120277739Abstract: A method for mitigating leakage in an RF electrosurgical generator includes delivering an RF signal from an RF electrosurgical generator to an electrosurgical electrode by way of a patient box; providing a balanced and symmetrical shielded transmission line coupling said electrosurgical generator disposed in a first housing to said patient box disposed in a second, different housing; providing a common mode choke in said patient box, said common mode choke including an output winding and a return winding, said output winding and said return winding spaced apart and in parallel to maintain a desired impedance, said output winding comprising a wire carrying said RF signal as an output signal and said return winding carrying a return signal from a return electrode; and directing a common mode signal from said RF signal to said common mode choke thereby blocking said common mode signal.Type: ApplicationFiled: July 9, 2012Publication date: November 1, 2012Inventors: Derek Daw, James Huntington Dabney
-
Publication number: 20120221101Abstract: An adjustable annuloplasty device is described. The device includes a body member comprising a shape memory material, the body member configured to be placed at or near a base of a valve of a heart. The device further includes a hysteretic material configured to undergo magnetic hysteresis in response to a first activation energy, the hysteretic material being in thermal communication with the shape memory material. The body member may have a first size of a body member dimension in a first configuration and a second size of the body member dimension in a second configuration. When the body member is in position in the heart, a change from the first configuration to the second configuration changes a size of a dimension of the annulus of the valve.Type: ApplicationFiled: February 24, 2012Publication date: August 30, 2012Applicant: MICARDIA CORPORATIONInventors: Shawn Moaddeb, Samuel Shaolian, James Huntington Dabney, Conrad Sawicz, Jay A. Lenker
-
Patent number: 8231615Abstract: A medical device system and method provide an RF electrosurgical generator coupled to an electrosurgical electrode via a patient box disposed in close proximity to the patient. An RF signal is delivered from the generator to the patient box where signal power is increased and the RF signal delivered to the electrosurgical electrode. The patient box is coupled to the electrosurgical electrode by a short cable capable of carrying an HV, high frequency 5 MHz signal without leakage. An electrical characteristic associated with the electrosurgical electrode is monitored and a desired RF power output and duty cycle maintained by adjusting DC input voltage applied to an RF amplifier, responsive to the monitoring. The system determines when the electrosurgical cutting electrode has started cutting and switches from a start mode to a run mode having a different RF duty cycle and a reduced RF power output controlled by a servo system.Type: GrantFiled: August 27, 2008Date of Patent: July 31, 2012Assignee: Senorx, Inc.Inventors: Derek Daw, James Huntington Dabney
-
Publication number: 20120165807Abstract: A method for controlling an electrosurgical electrode of a medical device includes providing an electrosurgical tissue cutting electrode having an arcuate electrode portion; delivering energy from an RF generator to the electrosurgical electrode, said RF generator including an RF amplifier; monitoring an electrical characteristic associated with said electrosurgical electrode; and establishing a desired RF power output and a desired RF duty cycle at said RF generator by adjusting DC input voltage applied to an output stage of said RF amplifier based on said monitoring to effect tissue cutting by the arcuate electrode portion.Type: ApplicationFiled: January 31, 2012Publication date: June 28, 2012Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 8133218Abstract: A medical device system and method provide an RF electrosurgical generator coupled to an electrosurgical electrode via a patient box disposed in close proximity to the patient. An RF signal is delivered from the generator to the patient box where signal power is increased and the RF signal delivered to the electrosurgical electrode. The patient box is coupled to the electrosurgical electrode by a short cable capable of carrying an HV, high frequency 5 MHz signal without leakage. An electrical characteristic associated with the electrosurgical electrode is monitored and a desired RF power output and duty cycle maintained by adjusting DC input voltage applied to an RF amplifier, responsive to the monitoring. The system determines when the electrosurgical cutting electrode has started cutting and switches from a start mode to a run mode having a different RF duty cycle and a reduced RF power output controlled by a servo system.Type: GrantFiled: December 7, 2005Date of Patent: March 13, 2012Assignee: Senorx, Inc.Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 7976540Abstract: A medical device system and method provide an RF electrosurgical generator coupled to an electrosurgical electrode via a patient box disposed in close proximity to the patient. An RF signal is delivered from the generator to the patient box where signal power is increased and the RF signal delivered to the electrosurgical electrode. The patient box is coupled to the electrosurgical electrode by a short cable capable of carrying an HV, high frequency 5 MHz signal without leakage. An electrical characteristic associated with the electrosurgical electrode is monitored and a desired RF power output and duty cycle maintained by adjusting DC input voltage applied to an RF amplifier, responsive to the monitoring. The system determines when the electrosurgical cutting electrode has started cutting and switches from a start mode to a run mode having a different RF duty cycle and a reduced RF power output controlled by a servo system.Type: GrantFiled: August 27, 2008Date of Patent: July 12, 2011Assignee: Senorx, Inc.Inventors: Derek Daw, James Huntington Dabney
-
Patent number: 7780705Abstract: A subcutaneously formed in place orthopedic fixation device is provided, such as for fixation of the spine or other bone or bones. The device comprises an inflatable member, such as a tubular balloon. A heat source is provided in thermal communication with the interior of the balloon. The balloon is positioned at a treatment site while in a flexible, low crossing profile configuration. The balloon is thereafter inflated with a hardenable media, and heated to accelerate hardening of the media. Methods and delivery structures are also disclosed.Type: GrantFiled: June 14, 2005Date of Patent: August 24, 2010Assignee: Warsaw Orthopedic, Inc.Inventors: Samuel M. Shaolian, George P. Teitelbaum, To V. Pham, Thanh Van Nguyen, James Huntington Dabney